Authors,Author(s) ID,Title,Year,Source title,Volume,Issue,Art. No.,Page start,Page end,Page count,Cited by,DOI,Link,Affiliations,Authors with affiliations,Abstract,Author Keywords,Index Keywords,Molecular Sequence Numbers,Chemicals/CAS,Tradenames,Manufacturers,Funding Details,Funding Text 1,Funding Text 2,Funding Text 3,Funding Text 4,Funding Text 5,Funding Text 6,Funding Text 7,Funding Text 8,Funding Text 9,Funding Text 10,References,Correspondence Address,Editors,Sponsors,Publisher,Conference name,Conference date,Conference location,Conference code,ISSN,ISBN,CODEN,PubMed ID,Language of Original Document,Abbreviated Source Title,Document Type,Publication Stage,Open Access,Source,EID
"Kale B.S., Bhole K.S., Bhole D., Kolhe S.","57194765857;55485785300;57213600316;58045874300;","A practical approach towards utilisation of the net-shaped micro-structures developed in the lifting plate Hele–Shaw cell for micro-mixing",2023,"International Journal on Interactive Design and Manufacturing",,,,"","",,,"10.1007/s12008-022-01167-7","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85145825111&doi=10.1007%2fs12008-022-01167-7&partnerID=40&md5=0c1d007526b8abb1502dea49165272be","Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Shree L. R. Tiwari College of Engineering, Thane, India","Kale, B.S., Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Bhole, K.S., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Bhole, D., Shree L. R. Tiwari College of Engineering, Thane, India; Kolhe, S., Datta Meghe College of Engineering, Navi Mumbai, 400708, India","In order to get inspiration and find solutions to human issues, bio-mimicking is the act of mimicking the diverse patterns, models, and systems of nature. The human body's veins, arteries, leaves and tree branches exhibit mesh-like fractal patterns. The procedure of replicating these structures is challenging. These patterns can be easily mimicked by utilising lifting plate Hele–Shaw cell (LPHSC). In the LPHSC, a non-Newtonian fluid is squeezed between two flat plates. The upper plate is carefully raised while the bottom plate is kept stationary. As a result, Saffman–Taylor instability or uncontrollable mesh-like pattern develops. Fractal-like shapes are produced when a low-viscosity fluid interacts with a high-viscosity fluid and attempts to displace the high-viscosity fluid. Micro and meso-sized channels can be made by moulding mesh-like structures using polydimethylsiloxane. In-depth explanation of the conceptual paradigm for employing bio-inspired fractals for cooling in micro-electromechanical systems is mentioned. Micro-mixing is the process of interacting and blending fluids at the molecular level. A crucial stage in microfluidic systems is micro-mixing. To accomplish this effect, micromixers are employed. A crucial technique for improving sample mixing in a micromixer is microchannel layout design. This approach is being used to idealise the protein separation process. © 2023, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Lifting plate Hele–Shaw cell; Micro heat exchanger; Micro-mixing; Non-Newtonian Bingham plastic fluid; Saffman–Taylor instability; Viscous fingering","Biomimetics; Cooling systems; Fractals; Microchannels; Microfluidics; Non Newtonian flow; Non Newtonian liquids; Plates (structural components); Silicones; Viscosity; Bingham plastic fluids; Hele-Shaw cells; High viscosity fluids; Lifting plate hele–shaw cell; Micro-heat exchangers; Micro-mixing; Non-newtonian; Non-newtonian bingham plastic fluid; Saffman-Taylor instability; Viscous fingering; Blending",,,,,"Science and Engineering Research Board, SERB: CRG/2021/000747","The authors acknowledge support for this work by the Science and Engineering Research Board (SERB), Government of India through Project Grant CRG/2021/000747.",,,,,,,,,,"Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., ""On-axis"" linear focused spot scanning micro stereolithography system: opto mechatronic design, analysis and development (2013) J. Adv. Manuf. Syst., 12, pp. 43-68; Bhole, K.S., Kale, B., Techniques to minimise stair-stepping effect in micro-stereolithography process: a review (2021) Adv. Mater. Process. Technol., 30, pp. 1-20; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photo polymerisation upon focused gaussian laser exposure (2014) J. Appl. Phys., 116 (4), p. 043105; Gandhi, P., Bhole, K., Characterisation of ""bulk lithography"" process for fabrication of three-dimensional microstructures (2013) J. Micro Nano Manuf.; Gandhi, P., Bhole, K., .: 3D microfabrication using bulk lithography (2011) ASME International Mechanical Engineering Congress and Exposition. Denver, Colorado, USA Nov. 54976, Pp., pp. 393-399; Gandhi, P., Kamble, S., Bhole, K., Novel fabrication and characterisation of diaphragm micromirror using bulk lithography (2012) ASME International Mechanical Engineering Congress and Exposition, Houston, Texas, USA Nov. Pp., pp. 549-554. , https://doi.org/10.1115/IMECE2012-87745; Gandhi, P., Chaudhari, N., Bhole, K., Fabrication of textured 3D microstructures using bulk lithography (2012) ASME International Manufacturing Science and Engineering Conference, MSEC Notre Dame, USA June 4–8, Pp., pp. 959-964. , https://doi.org/10.1115/MSEC2012-7357; Bhole, K.S., Gandhi, P.S., Kundu, T., Characterisation of cured width under wide range of Gaussian laser exposure for bulk lithography (2014) Procedia Mater. Sci., 5, pp. 2487-2492; Bhole, K., Ekshinge, S., Gandhi, P., Fabrication of continuously varying thickness micro-cantilever using bulk lithography process (2014) International Manufacturing Science and Engineering Conference. 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Technol.; Islam, T.U., Gandhi, P.S., Viscous fingering in multiport Hele Shaw cell for controlled shaping of fluids (2017) Sci. Rep., 7 (1), pp. 1-9; Bhole, K.S., Kale, B., Sublimation technique for minimisation of stiction induced during fabrication of closely spaced microstructures (2022) Adv. Mater. Process. Technol.; Holloway, K.E., De Bruyn, J.R., Viscous fingering with a single fluid (2005) Can. J. Phys., 83 (5), pp. 551-564; Lindner, A., Bonn, D., Amar, M.B., Meunier, J., Kellay, H., (1999) Controlling viscous fingering. Euro Phys. News, 30 (3), pp. 77-78; Bonn, D., Kellay, H., Braunlich, M., Amar, M.B., Meunier, J., Viscous fingering in complex fluids (1995) Physica A, 220, pp. 1-2; Lindner, A., Bonn, D., Poire, E.C., Amar, M.B., Meunier, J., Viscous fingering in non-Newtonian fluids (2002) J. Fluid Mech., 469, p. 237; Al Housseiny, T., Tsai, P., Stone, H., Control of interfacial instabilities using flow geometry (2012) Nat. 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Eng., 6 (4), pp. 319-330; Kee, R.J., The design, fabrication, and evaluation of a ceramic counter-flow microchannel heat exchanger (2011) Appl. Ther. Eng., 31 (11-12), pp. 2004-2012; Villermaux, J., David, R., Recent advances in the understanding of micro mixing phenomena in stirred reactors (2007) Chem. Eng. Commun., 21 (1-3), pp. 105-122","Kale, B.S.; Datta Meghe College of EngineeringIndia; email: bhrtkale18@gmail.com",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85145825111
"Dubey K., Byadgi H., Raykar N., Sanghavi A.","57880921800;57880337600;19934528100;57881120600;","Enhancing bending buckling strength of hollow tubes using concrete filling",2023,"Materials Today: Proceedings","72",,,"636","642",,,"10.1016/j.matpr.2022.08.302","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137560368&doi=10.1016%2fj.matpr.2022.08.302&partnerID=40&md5=ae4f0a738581082cd437b75a4fb59c03","Department of Mechanical Engineering, SPCE, MH, Mumbai-, 400058, India","Dubey, K., Department of Mechanical Engineering, SPCE, MH, Mumbai-, 400058, India; Byadgi, H., Department of Mechanical Engineering, SPCE, MH, Mumbai-, 400058, India; Raykar, N., Department of Mechanical Engineering, SPCE, MH, Mumbai-, 400058, India; Sanghavi, A., Department of Mechanical Engineering, SPCE, MH, Mumbai-, 400058, India","Hollow tubular components are widely used in industries as structural elements which are subjected to bending loads. These tubes are susceptible to bending (transverse) buckling, more so in tubes with thinner cross sections. The presented work investigates the effect of adding an inexpensive core like concrete (with good compressive strength) on the bending buckling strength of thin hollow tubes. This study is based on the results obtained from three-point bend tests performed on hollow and concrete filled thin stainless-steel tubes of small diameter. The size of test specimens was chosen such that the bending buckling mode dominates over the yielding as a failure mode. The experimental results are validated by finite element-based simulations. It was observed that addition of a concrete core significantly improves the bending buckling strength of the thin hollow tubes. © 2022","Bending; Bending Buckling; Buckling; CFST; Thin steel tubes; Transverse Buckling","Bending (forming); Bending strength; Compressive strength; Concretes; Tubes (components); Tubular steel structures; Bending; Bending buckling; Buckling strength; CFST; Concrete-filling; Hollow tube; Steel tube; Thin steel tube; Transverse buckling; Tubular component; Buckling",,,,,"Department of Mechanical Engineering, University of Alberta","The authors would like to thank the Mechanical Engineering Department, SPCE, Mumbai for allowing the access to use the UTM machine for the necessary experimentation.",,,,,,,,,,"Lanhui Guo, Shijun Yang and Hui Jiao, Behaviour of thin-walled circular hollow section tubes subjected to bending, Elsevier Ltd- 21 September 2013; Amer, M., (2018), Ibrahim, Manahel Shahath Khalaf, Elastic-Plastic Behaviour of Circular Hollow Section Steel Tubes Subjected to Bending, Journal of Engineering Science and Technology Review 11(3) (2018) 42-49 - 18 July; (2018), Chengzhi Wang, Xin Liu and Pengfei Li, Experimental Behaviour of Concrete-Filled Steel Tubular Members Subjected to Lateral Loads, Hindawi- 8 May; Kurian, S.S., Paulose, D., Mohan, S., Study on concrete filled steel tube (2016) IOSR-J. Mech. Civil Eng., Int. Conf. Emerg. Trends Eng. Manag.; Schnabl, S., Planinc, I., Buckling of slender concrete-filled steel tubes with compliant interfaces (2017) Latin Am. J. Solids Struct., 14 (10), pp. 1837-1852; (2011), Sotiria Houliara, Spyros A. Karamanos, Buckling of Thin-Walled Long Steel Cylinder Subjected to Bending, Journal of Pressure Vessel Technology, Feb; (2020), Structural Analysis Guide, ANSYS Inc- Jan; Buckling and Post Buckling of Beams, Plates and Shells, M. Reza Eslami, Springer- 2018","Dubey, K.; Department of Mechanical Engineering, MH, India; email: 1999karanveer27@gmail.com",,,"Elsevier Ltd",,,,,22147853,,,,"English","Mater. Today Proc.",Article,"Final","",Scopus,2-s2.0-85137560368
"Patil R.A., Rane S.B., Kumbhar S.B.","57700687300;56149402100;55901887100;","Investigation of the damping behavior of shape memory alloy-nitinol reinforced composite",2022,"Engineering Research Express","4","4","045018","","",,,"10.1088/2631-8695/ac9faa","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142533118&doi=10.1088%2f2631-8695%2fac9faa&partnerID=40&md5=7e290822dfb7d11beddb9dffccd35ca8","Department of mechanical engineering, Bharatiya Vidya Bhavan’s Sardar Patel College of Engineering Andheri (West), Maharashtra, Mumbai, 400 058, India; Rajarambapu Institute of Technology, Affiliated to Shivaji University, Rajaramnagar, Maharashtra, Kolhapur, 415414, India","Patil, R.A., Department of mechanical engineering, Bharatiya Vidya Bhavan’s Sardar Patel College of Engineering Andheri (West), Maharashtra, Mumbai, 400 058, India; Rane, S.B., Department of mechanical engineering, Bharatiya Vidya Bhavan’s Sardar Patel College of Engineering Andheri (West), Maharashtra, Mumbai, 400 058, India; Kumbhar, S.B., Rajarambapu Institute of Technology, Affiliated to Shivaji University, Rajaramnagar, Maharashtra, Kolhapur, 415414, India","The use of Shape Memory Alloy (SMA) recently increased in smart structures. It is essential to investigate the impact of viscoelastic material, and transformation temperatures of SMA on dynamic behavior, especially the damping capability of the SMA reinforced composite. In this paper, the damping constants of SMA and viscoelastic material are evaluated experimentally, and a damping model based on experimental results is proposed for the composite. The effect of SMA wires in combination and selective activation has been studied using the proposed model and validated experimentally. It has been observed that damping predicted by the model is close to damping calculated by experimentation. Also, damping varies with the transformation temperatures of SMA. Thus, dynamic control of the SMA reinforced composite is feasible by controlling transformation temperature. The composite studied in this work can shift the damping by 9.58% by activating all nitinol wires. © 2022 IOP Publishing Ltd.","damping behavior; damping factor; damping model; elastomer; nitinol reinforced composite; shape memory alloys; vibration control","Chemical activation; Damping; Reinforcement; Shape-memory alloy; Damping behaviors; Damping factors; Damping modelings; Material temperature; Nitinol reinforced composite; ON dynamics; Reinforced composites; Transformation temperatures; Visco-elastic material; Viscoelastic material; Viscoelasticity",,,,,,,,,,,,,,,,"Deng, Z, Dapino, M J, Review of magnetostrictive materials for structural vibration control (2018) Smart Mater. Struct, 27, p. 113001; Zhang, R, Jiang, J, Jia, Y, Wang, C, Influence of mechanical layout of shape memory alloy damping more in (SDI) systems for vibration control (2021) Smart Mater. 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Struct, 28, p. 025029; Das, S, Sajeer, M M, Chakraborty, A, Vibration control of horizontal axis offshore wind turbine blade using SMA stiffener (2019) Smart Mater. Struct, 28, p. 095025; Kumbhar, S B, Chavan, S P, Patil, A P, Gawade, S S, Dynamic performance analysis of magnetorheological elastomer-shape memory alloy composite (2017) Journal of Vibration Engineering & Technologies, 5, pp. 557-568557. , 68; Patil, R A, (2021) IOP Conf. Ser.: Mater. Sci. Eng, 1136, p. 012024; Patil, R A, Rane, S B, Kumbhar, S B, Static analysis of shape memory alloy (SMA) reinforced composite (2022) Mater. Today Proc, 62, pp. 6832-68366832. , 6; Bhaskar, J, Sharma, A K, Bhattacharya, B, Adhikari, S, A review on shape memory alloy reinforced polymer composite materials and structures (2020) Smart Mater. Struct, 29, p. 073001; Van, J, Humbeeck, damping capacity of thermoelastic martensite in shape memory alloys (2003) J. Alloys Compd, 355, pp. 58-6458. , 64; Schmidt, I, Lammering, R, The damping behaviour of superelastic NiTi components (2004) Mater. Sci. Eng. A, 378, pp. 70-7570. , 5; Tuissi, A, Application of SMA composites in the collectors of the railway pantograph for the italian high-speed train (2009) J. Mater. Eng. Perform, 18, pp. 612-619612. , 9; Van Humbeek, J, Kustov, S, Active and passive damping of noise and vibrations through shape memory alloys: applications and mechanisms (2005) Smart Mater. Struct, 14, p. 5","Patil, R.A.; Department of mechanical engineering, Maharashtra, India; email: ranjit6044@gmail.com
Rane, S.B.; Department of mechanical engineering, Maharashtra, India; email: s_rane@spce.ac.in
Kumbhar, S.B.; Rajarambapu Institute of Technology, Rajaramnagar, Maharashtra, India; email: samir.kumbhar@ritindia.edu",,,"Institute of Physics",,,,,26318695,,,,"English","Eng. Res. Exp.",Article,"Final","",Scopus,2-s2.0-85142533118
"Mangrulkar A., Rane S.B., Sunnapwar V.","57219698086;56149402100;6504099005;","Automatic skull prototyping framework for damage detection and repairing using computer vision and deep learning techniques",2022,"International Journal of Information Technology (Singapore)","14","7",,"3527","3537",,,"10.1007/s41870-022-00956-3","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85130500795&doi=10.1007%2fs41870-022-00956-3&partnerID=40&md5=589eabacf1c2ff85f3f8115ba018c792","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Koparkhairane, Navi Mumbai, India","Mangrulkar, A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Sunnapwar, V., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India, Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Koparkhairane, Navi Mumbai, India","Bio-Medical modeling system used to assist medical study, diagnosis, analysis, monitoring, and investing in the medical domain. The medical scanning tools scan, collect, and assemble the fragmented skull-specific geometric data before the medical analysis by various experts for investigations. The skull assembly may undergo severe damage, significantly affecting the medical analysis process. Therefore, need to have an efficient and robust automatic skull prototyping technique. This article proposes the novel Automatic Skull Prototyping (ASP) framework using deep learning and computer vision technique. The ASP framework consists of two main phases: Skull Damage Detection (SDD) and Skull Damage Repairing (SDR). For SDD, we propose the integrated deep learning model using Convolutional Neural Network (CNN) and Long Short-Term Memory (LSTM). The SDR model performs the template loading and template matching process to discover the damaged regions and repair them by fusing the missing geometric data of the skull template into the original damaged skull. Experimental results demonstrate the improved efficacy and robustness of the proposed framework. The SDR outcomes show the effective repairing of skull models but scalability limitations. The real-time skull model dataset preparation and analysis will be interesting for future research. The ASP framework benefited the forensic, archaeological, anthropological, biomedical applications for processing, analysis, investigation, and diagnosis. © 2022, The Author(s), under exclusive licence to Bharati Vidyapeeth's Institute of Computer Applications and Management.","Automatic skull prototyping; Convolutional neural network; Deep learning; Skull damage detection; Skull damage repairing; Template matching",,,,,,"All India Council for Technical Education, अभातशिप","I would like to express my deepest gratitude and thanks to Dr Kiran Bhole, Dr. S. S. Umale and Dr. P. H. Sawant, R & D Dean, Head of Mechanical Engineering Department, and Principal, Sardar Patel college of Engineering, Mumbai for their support, guidance and motivation during the various phases of writing this article. We also extend thanks to Dr. S. S. Mantha, former chairman, AICTE, Delhi, India for his continuous technical support and guidance.",,,,,,,,,,"In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing (2021) PMID: 29261908, , Aug 11; Taha, A., Gan, Y.C., Chavda, S.V., Wasserberg, J., A review of base of skull fractures (2007) Trauma, 9 (1), pp. 29-37; Liu-Shindo, M., Hawkins, D.B., Basilar skull fractures in children (1989) Int J Pediatr Otorhinolaryngol, 17 (2), pp. 109-117; Mohamad, J., Schädelbasisfrakturen (2021) Radiologe, 61 (8), pp. 704-709; Mangrulkar, A., Rane, S., Sunnapwar, V., Image-based bio-cad modeling: overview, scope, and challenges (2020) J Phys: Conf Ser, 1706, p. 012189; Li, J., Gsaxner, C., Pepe, A., Morais, A., Alves, V., von Campe, G., Egger, J., Synthetic skull bone defects for automatic patient-specific craniofacial implant design (2021) Sci Data; Doi, K., Computer-aided diagnosis in medical imaging: historical review, current status and future potential (2007) Comput Med imaging Graph, 31 (4-5), pp. 198-211; Omstead, J., Facial reconstruction (2011) Uni West Ont Anthrol, 10 (1), pp. 37-46; Shen, P., Dublin, A., Bobinski, M., Basic imaging of skull base trauma (2016) J Neurol Surg Part B Skull Base, 77 (5), pp. 381-387; Ringl, H., Schernthaner, R.E., Schueller, G., Balassy, C., Kienzl, D., Botosaneanu, A., Schima, W., The skull unfolded: a cranial CT visualization algorithm for fast and easy detection of skull fractures (2010) Radiology, 255 (2), pp. 553-562; Yamada, A., Teramoto, A., Otsuka, T., Kudo, K., Anno, H., Fujita, H., Preliminary study on the automated skull fracture detection in CT images using black-hat transform (2016) Conference Proceedings:.. Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 6437-6440. , https://doi.org/10.1109/EMBC.2016.7592202, IEEE Engineering in Medicine and Biology Society. Conference; Zhao, Y., Wei, L., Li, X., Manhein, M., An automatic assembly and completion framework for fragmented skulls (2011) 2011 International Conference on Computer Vision, , https://doi.org/10.1109/iccv.2011.6126540; Uke, N., Pise, P., Mahajan, H.B., Healthcare 4.0 Enabled Lightweight Security Provisions for Medical Data Processing (2021) Turk J Comput Math, , https://doi.org/10.17762/turcomat.v12i11.5858; Mahajan, H.B., Badarla, A., Cross-layer protocol for WSN-assisted IoT smart farming applications using nature inspired algorithm (2021) Wirel Pers Commun; Yu, W., Li, M., Li, X., Fragmented skull modeling using heat kernels (2012) Graph Models, 74 (4), pp. 140-151; Zhang, K., Li, X., A graph-based optimization algorithm for fragmented image reassembly (2014) Graph Models, 76 (5), pp. 484-495; Mahoney, P.F., Carr, D.J., Delaney, R.J., Hunt, N., Harrison, S., Breeze, J., Gibb, I., Does preliminary optimisation of an anatomically correct skull-brain model using simple simulants produce clinically realistic ballistic injury fracture patterns? (2017) Int J Legal Med, 131 (4), pp. 1043-1053; Zhang, K., Yu, W., Manhein, M., Waggenspack, W., Li, X., 3D Fragment Reassembly Using Integrated Template Guidance and Fracture-Region Matching (2015) 2015 IEEE International Conference on Computer Vision (ICCV), , https://doi.org/10.1109/iccv.2015.247; Idram, I., Development of mesh-defect removal algorithm to enhance the fitting of 3D-printed parts for comminuted bone fractures (2019) J Med Biol Eng, 39, pp. 855-873; Wan Zaki, W.M.D., Ahmad Fauzi, M.F., Besar, R., A new approach of skull fracture detection in CT brain images (2009) Vis Inform Bridging Res Pract; Yamada, A., Teramoto, A., Otsuka, T., Kudo, K., Anno, H., Fujita, H., Preliminary study on the automated skull fracture detection in CT images using black-hat transform (2016) 2016 38Th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), , https://doi.org/10.1109/embc.2016.7592202; Shan, W., Automated identification of skull fractures with deep learning: a comparison between object detection and segmentation approach (2021) Front Neurol, 12, p. 687931; Yilmaz, B., Durdu, A., Emlik, G.D., A new method for skull stripping in brain MRI using multistable cellular neural networks (2016) Neural Comput Appl, 29 (8), pp. 79-95; Dimililer, K., IBFDS: Intelligent bone fracture detection system (2017) Procedia Comput Sci, 120, pp. 260-267; Rehman, H.Z.U., Hwang, H., Lee, S., Conventional and deep learning methods for skull stripping in brain MRI (2020) Appl Sci, 10 (5), p. 1773; Dehbozorgi, A., Mousavi-Roknabadi, R.S., Hosseini-Marvast, S.R., Sharifi, M., Sadegh, R., Farahmand, F., Damghani, F., Diagnosing skull fracture in children with closed head injury using point-of-care ultrasound vs. computed tomography scan (2021) Eur J Pediatr, 180 (2), pp. 477-484. , Epub 2020 Oct 28. Erratum in: Eur J Pediatr. 2020 Nov 19;: PMID: 33118087; PMCID: PMC7594935; Kalmet, P.H.S., Sanduleanu, S., Primakov, S., Wu, G., Jochems, A., Refaee, T., Ibrahim, A., Poeze, M., Deep learning in fracture detection: a narrative review (2020) Acta Orthop; Kalavathi, P., Prasath, V.B., Methods on Skull Stripping of MRI Head Scan Images-a Review (2016) J Digit Imaging, 29 (3), pp. 365-379; Kaul, K., Chauhan, D., Brain MRI analysis and segmentation using 2d-Unet architecture (2021) Eur J Mol Clin Med, 8 (3), p. 2021. , ISSN 2515–8260; Mangrulkar, A., Rane, S., Sunnapwar, V., Computer vision methods for fragmented skull prototyping: Bio-CAD application (2020) 2020 Third International Conference on Smart Systems and Inventive Technology (ICSSIT), , https://doi.org/10.1109/icssit48917.2020.9214197; Mangrulkar, A., Rane, S.B., Sunnapwar, V., Automated skull damage detection from assembled skull model using computer vision and machine learning (2021) Int J Inf Tecnol; Nagpal, S., Singh, M., Jain, A., Singh, R., Vatsa, M., Noore, A., On Matching Skulls to Digital Face Images: A Preliminary Approach (2017) Proceedings of IEEE International Joint Conference on Biometrics; https://data.lhncbc.nlm.nih.gov/public/Visible-Human/MaleImages/radiological/normalCT, Accessed 11 Oct 2021; https://github.com/, Accessed 11 Oct 2021; https://www.kaggle.com/, Accessed 11 Oct 2021; Wang, G., Hu, Y., Li, X., Impacts of skull stripping on construction of three-dimensional T1-weighted imaging-based brain structural network in full-term neonates (2020) BioMed Eng OnLine, 19, p. 41","Mangrulkar, A.; Department of Mechanical Engineering, Andheri (W), India; email: amol.mangrulkar@mctrgit.ac.in",,,"Springer Science and Business Media B.V.",,,,,25112104,,,,"English","Int. J. Inf. Technol.",Article,"Final","",Scopus,2-s2.0-85130500795
"Shaikh N.S., Padalkar N.S., Lokhande V.C., Ji T., Patil S.P., Sabale S.R., Shaikh H.M., Shaikh J.S., Praserthdam S., Kanjanaboos P.","57195916172;57216288668;57004711800;8963396200;57225810067;16320013000;57628064200;36538079100;57220081891;36521096600;","Graphene-Based Aqueous Magnesium Ion Hybrid Supercapacitors with an Appealing Energy Density Advanced by a KI Additive",2022,"Energy and Fuels","36","13",,"7186","7193",,1,"10.1021/acs.energyfuels.1c03278","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85134005294&doi=10.1021%2facs.energyfuels.1c03278&partnerID=40&md5=ebcbe8533f39f2fc073ef47bf73f4c0a","School of Materials Science and Innovation, Faculty of Science, Mahidol University, Nakhon Pathom, 73170, Thailand; Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea; P.G. Department of Chemistry, Jaysingpur College, Maharashtra, Jaysingpur, 416101, India; Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Sardar Patel College of Engineering, Andheri West, Maharashtra, Mumbai, 400053, India; Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Bangkok, 10330, Thailand; Center of Excellence for Innovation in Chemistry (PERCH-CIC), Ministry of Higher Education, Science, Research and Innovation, Bangkok, 10400, Thailand","Shaikh, N.S., School of Materials Science and Innovation, Faculty of Science, Mahidol University, Nakhon Pathom, 73170, Thailand, Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Padalkar, N.S., Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Lokhande, V.C., Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea, Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Ji, T., Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea, Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Patil, S.P., P.G. Department of Chemistry, Jaysingpur College, Maharashtra, Jaysingpur, 416101, India; Sabale, S.R., P.G. Department of Chemistry, Jaysingpur College, Maharashtra, Jaysingpur, 416101, India; Shaikh, H.M., Sardar Patel College of Engineering, Andheri West, Maharashtra, Mumbai, 400053, India; Shaikh, J.S., Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Bangkok, 10330, Thailand; Praserthdam, S., Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Bangkok, 10330, Thailand, Center of Excellence for Innovation in Chemistry (PERCH-CIC), Ministry of Higher Education, Science, Research and Innovation, Bangkok, 10400, Thailand; Kanjanaboos, P., School of Materials Science and Innovation, Faculty of Science, Mahidol University, Nakhon Pathom, 73170, Thailand","The electric double-layer capacitance (EDLC)-based capacitor is hindered with low capacitance and low energy density. Here, in this report, we focused on the fabrication of a symmetric device having graphene as an EDLC electrode material and redox additive KI-integrated aqueous MgSO4as an electrolyte. The high surface area of graphene was produced by annealing of graphene oxide in an inert atmosphere and confirmed through X-ray photoelectron spectroscopy and Raman spectroscopy. The strategic 6% KI into MgSO4delivered the highest specific capacitance with a wide working window of 0.7 V. Electrochemical measurements showed that graphene delivered a significantly greater specific capacitance (727.6 F/g) in a KI-integrated electrolyte (MgSO4+ KI) compared to 89.2 F/g in a MgSO4electrolyte, owing to species such as IO3-and I3-(oxidation states of I). The symmetric device showed the maximum energy density (ED) of 69.3 Wh/kg, which can be achieved at the power density of 2.5 kW/kg, better than reported values in monovalent-based electrolyte devices. In this report, the charge storage mechanism, interactive association between Mg2+ion insertion/extraction, and integration of redox KI had been comprehensively studied. The strategy shows a new path in the design of excellent ED capacitors without compromising the supercapacitor properties. © 2022 American Chemical Society. All rights reserved.",,"Additives; Capacitance; Electrolytes; Graphene; Magnesium; Metal ions; Supercapacitor; X ray photoelectron spectroscopy; Capacitance electrodes; Capacitance energy; Electric double layer capacitance; Electrode material; Energy density; Hybrid supercapacitors; Lower energies; Magnesium ions; Redox additives; Symmetrics; Magnesium compounds",,,,,"National Research Council of Thailand, NRCT: N41A640095; Faculty of Science, Mahidol University; Center of Excellence for Innovation in Chemistry, PERCH-CIC; Ministry of Higher Education, Science, Research and Innovation, Thailand, MHESRI; Toray Science Foundation, TSF","This project is funded by the National Research Council of Thailand (NRCT) with the grant number N41A640095. We acknowledge the Center of Excellence for Innovation in Chemistry (PERCH-CIC), Ministry of Higher Education, Science, Research and Innovation, Thailand. We acknowledge Toray Science Foundation, Japan, and the CIF-CNI grant from Faculty of Science, Mahidol University.",,,,,,,,,,"Olabi, A.G., Abdelkareem, M.A., Wilberforce, T., Sayed, E.T., Application of Graphene in Energy Storage Device?A Review (2021) Renew. Sustain. Energy Rev., 135, p. 110026; Shaikh, N.S., Lokhande, V.C., Praserthdam, S., Lokhande, C.D., Ezema, F.I., Salunkhe, D.J., Shaikh, J.S., Kanjanaboos, P., Recent Advancements in Energy Storage Based on Sodium Ion and Zinc Ion Hybrid Supercapacitors (2021) Energy Fuels, 35 (18), pp. 14241-14264; Shaikh, J.S., Shaikh, N.S., Sabale, S., Parveen, N., Patil, S.P., Mishra, Y.K., Kanjanaboos, P., Lokhande, C.D., A Phosphorus Integrated Strategy for Supercapacitor: 2D Black Phosphorus-Doped and Phosphorus-Doped Materials (2021) Mater. 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Mater. Interfaces, 9 (1), p. 2101216; Katkar, P.K., Marje, S.J., Parale, V.G., Lokhande, C.D., Gunjakar, J.L., Park, H.-H., Patil, U.M., Fabrication of a High-Performance Hybrid Supercapacitor Based on Hydrothermally Synthesized Highly Stable Cobalt Manganese Phosphate Thin Films (2021) Langmuir, 37 (17), pp. 5260-5274; Katkar, P.K., Marje, S.J., Pujari, S.S., Khalate, S.A., Deshmukh, P.R., Patil, U.M., Single-Pot Hydrothermal Synthesis of Manganese Phosphate Microrods as a Cathode Material for Highly Stable Flexible Solid-State Symmetric Supercapacitors (2020) Synth. Met., 267, p. 116446; Qin, W., Zhou, N., Wu, C., Xie, M., Sun, H., Guo, Y., Pan, L., Mini-Review on the Redox Additives in Aqueous Electrolyte for High Performance Supercapacitors (2020) ACS Omega, 5 (8), pp. 3801-3808; Liu, X., Zheng, M., Xiao, Y., Yang, Y., Yang, L., Liu, Y., Lei, B., Fu, H., Microtube Bundle Carbon Derived from Paulownia Sawdust for Hybrid Supercapacitor Electrodes (2013) ACS Appl. Mater. Interfaces, 5 (11), pp. 4667-4677","Kanjanaboos, P.; School of Materials Science and Innovation, Thailand; email: pongsakorn.kan@mahidol.edu",,,"American Chemical Society",,,,,08870624,,ENFUE,,"English","Energy Fuels",Article,"Final","",Scopus,2-s2.0-85134005294
"Navandar Y.V., Bari C., Gaikwad P.G.","57202710695;57218386379;57224514879;","Failure factors–a comparative study of private and government construction firms",2022,"Engineering, Construction and Architectural Management","29","6",,"2495","2513",,,"10.1108/ECAM-03-2020-0184","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85107728499&doi=10.1108%2fECAM-03-2020-0184&partnerID=40&md5=e85715a296c83a7bc267d60630b09f30","Department of Civil Engineering, National Institute of Technology Calicut, Calicut, India; Department of Civil Engineering, Sardar Vallabhbhai National Institute of Technology, Surat, India; Civil Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Navandar, Y.V., Department of Civil Engineering, National Institute of Technology Calicut, Calicut, India; Bari, C., Department of Civil Engineering, Sardar Vallabhbhai National Institute of Technology, Surat, India; Gaikwad, P.G., Civil Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Purpose: The purpose of the present study is to examine the failure factors for the construction firms in a developing nation. Furthermore, the comparison of failure factors for private and government firms are evaluated. Design/methodology/approach: In the present study, comparison between private and government construction firms is done in the context of a construction firm failure. About 60 construction firms were selected in and around the Nashik region for the investigation, where a simple multi-attribute rating technique (SMART) is used for analysis purpose. Findings: It is found that for private firms (private contractors and builders) lack of experience is the major factor for failure of the business as against lack of managerial experience is a critical factor in case of a government contractor. Practical implications: The outcome of the present study will be used to guide the policymakers during the implementation of governmental and private projects in order to lessen the construction project failures. Originality/value: Construction company failure is an important aspect in developing countries like India. The limited studies were available in literature which shows failure factors for government and private firms and distinguished them. Hence, the present study extends the construction company failure literature by focusing on government and private firms. Also, the study provides some theoretical guidelines for management to avoid construction company failure in India. © 2021, Emerald Publishing Limited.","Construction; Engineering; Management","Construction; Contractors; Developing countries; Comparative studies; Construction companies; Construction projects; Design/methodology/approach; Developing nations; Managerial experiences; Private contractors; Simple multiattribute rating technique (SMART); Construction industry",,,,,,"The authors are very much thankful to the director Mr. Anil B. Lodha, ABL INFRA. LTD, Nashik, for their cooperation. The authors are also thankful to anonymous reviewers for their insightful comments for enrichment of the manuscript.",,,,,,,,,,"Abbas, A., Din, Z.U., Farooqui, R., Achieving greater project success and profitability through pre-construction planning: a case-based study (2016) Procedia Engineering, 145, pp. 804-811. , Elsevier B.V; Adebisi, E.O., Ojo, S.O., Assessment of factors influencing the failure and abandonment of multi-storey building projects in Nigeria (2018) International Journal of Building Pathology and Adaptation, 36 (2), pp. 210-230. , Emerald Publishing; Aghimien, D.O., Aghimien, E.I., Fadiyimu, A.O., Fadeke, A.T., Survival strategies of built environment organisations in a challenging economy (2018) Engineering Construction and Architectural Management, 25 (7), pp. 861-876; Babu, S.S., Sudhakar, D., Critical success factors influencing performance of construction projects (2015) International Journal of Innovative Research in Science, Engineering and Technology, 4 (5), pp. 3285-3292; Belassi, W., Tukel, O.I., A new framework for determining critical success/failure factors in projects (1996) International Journal of Project Management, 14 (3), pp. 141-151; Business failure (2011) Financial Glossary, , Https://Financial-Dictionary.Thefreedictionary.Com/Business+failure, accessed, 12 April 2021; Chen, W.T., Merrett, H.C., Lu, S.T., Mortis, L., Analysis of key failure factors in construction partnering-a case study of Taiwan (2019) Sustainability, 11 (14), pp. 1-19; Damoah, I.S., Kumi, D.K., Causes of government construction projects failure in an emerging economy evidence from Ghana (2018) International Journal of Managing Projects in Business, 11 (3), pp. 558-582. , Emerald Publishing; Enshassi, A., Al-Hallaq, K., Mohamed, S., Causes of contractor s business failure in developing countries the case of Palestine.pdf (2006) Journal of Construction in Developing Countries, 11 (2), pp. 1-14; Gadekar, A., Pimplikar, S.S., Success and failure factors of Indian construction companies (2014) International Journal of Engineering Science, 3 (6), pp. 52-58; Greenberg, B., (2009) Introduction to the Practice of Statistics Sixth Edition, , W.H. Freeman and Company, New York, NY; Gudiene, N., Banaitis, A., Banaitiene, N., Lopes, J., Development of a conceptual critical success factors model for construction projects: a case of Lithuania (2013) Procedia Engineering; Hjelmbrekke, H., Hansen, G.K., Lohne, J., A motherless child–why do construction projects fail (2015) Procedia Economics and Finance, 21 (2212), pp. 72-79. , Elsevier B.V; Hwang, B.G., Lim, E.S.J., Critical success factors for key project players and objectives: case study of Singapore (2013) Journal of Construction Engineering and Management; Isik, Z., Arditi, D., Dikmen, I., Birgonul, M.T., Impact of resources and strategies on construction company performance (2010) Journal of Management in Engineering, ASCE, 26 (January), pp. 9-18; Kangari, R., Business failure in construction industry (1988) Journal of Construction Engineering and Management, ASCE, 114 (2), pp. 172-190; Kangari, B.R., Farid, F., Elgharib, H.M., Financial performance analysis for construction industry (1992) Journal of Construction Engineering and Management, ASCE, 118 (2), pp. 349-361; Khlaifat, D.M., Alyagoub, R.E., Sweis, R.J., Sweis, G.J., Factors leading to construction projects' failure in Jordon (2019) International Journal of Construction Management, 19 (1), pp. 65-78. , Taylor and Francis; Kivrak, S., Arslan, G., Factors causing construction company failure (2008) Building Abroad, Montreal, (October), pp. 297-306; Mahamid, I., Causes of contractors' failure : contractors' view (2011) 2nd International Conference on Construction and Project Management, 15, pp. 1-5; Nguyen, T.P., Chileshe, N., Revisiting the critical factors causing failure of construction projects in Vietnam (2013) Proceedings 29th Annual Association of Researchers in Construction Management Conference, (September), pp. 929-938. , ARCOM 2013; Ozorhon, B., Dikmen, I., Birgonul, M.T., Using analytic network process to predict the performance (2007) Journal of Management in Engineering, 23 (July), pp. 156-163; Rafat, K.F., Ahmed, R., Empirical study on causes of project delays (2017) International Journal of Industrial and Manufacturing Engineering, 11 (1), pp. 166-174; Satankar, P.P., Jain, A.P.S.S., Study of success factors for real estate construction projects (2015) International Journal of Research, 5 (2), pp. 804-808. , September 2018; Shadish, W.R., Cook, T.D., Campbell, D.T., (2002) Experimental and Quasi-Experimental Designs for Generalized Causal Inference, pp. 1-504. , Cengage Learning, Boston, MA; Taylor, J.M., Love, B.N., Simple multi-attribute rating technique for renewable energy deployment decisions (SMART REDD) (2014) The Journal of Defense Modeling and Simulation: Applications, Methodology, Technology, 11 (3), pp. 227-232; Tripathi, K.K., Jha, K.N., An empirical study on performance measurement factors for construction organizations (2018) KSCE Journal of Civil Engineering, 22 (4), pp. 1052-1066; Tripathi, K.K., Jha, K.N., Application of fuzzy preference relation for evaluating success factors of construction organisations (2018) Engineering Construction and Architectural Management, 25 (6), pp. 758-779; Wibowo, M.A., Astana, I.N.Y., Rusdi, H.A., An analysis of bidding strategy, project performance and company performance relationship in construction (2015) Procedia Engineering, 125, pp. 95-102. , Elsevier B.V; Holt, G.D., Construction business failure: conceptual synthesis of causal agents (2013) Construction Innovation, 13 (1), pp. 50-76; Odeyinka, H.A., Lowe, J., Kaka, A., An evaluation of risk factors impacting construction cash flow forecast (2008) Journal of Financial Management of Property and Construction, 13 (1), pp. 5-17","Navandar, Y.V.; Department of Civil Engineering, Calicut, India; email: yogeshwaryog@rediffmail.com",,,"Emerald Group Holdings Ltd.",,,,,09699988,,,,"English","Eng. Constr. Archit. Manage.",Article,"Final","",Scopus,2-s2.0-85107728499
"Gadhari N.S., Patil S.S., Gholave J.V., Patil V.R., Upadhyay S.S.","36571700400;57212424792;37072312800;7103355761;57210742482;","Highly efficient potentiometric sensing device for gadolinium based on Tetraazacyclododecane-1, 4, 7, 10 -tetraaceticacid crown ether and multiwalled carbon nanotube composite",2022,"Microchemical Journal","175",,"107130","","",,1,"10.1016/j.microc.2021.107130","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123196295&doi=10.1016%2fj.microc.2021.107130&partnerID=40&md5=c1240e89163c971593fd9efc9c4fad5f","Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (E), Mumbai, 400 098, India; Department of Applied Chemistry, Sardar Patel College of Engineering, Andheri (W), Mumbai, 400058, India","Gadhari, N.S., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (E), Mumbai, 400 098, India; Patil, S.S., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (E), Mumbai, 400 098, India; Gholave, J.V., Department of Applied Chemistry, Sardar Patel College of Engineering, Andheri (W), Mumbai, 400058, India; Patil, V.R., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (E), Mumbai, 400 098, India; Upadhyay, S.S., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (E), Mumbai, 400 098, India","A hydrophilic cavity presents in tetraazacyclododecane-1, 4, 7, 10-tetraaceticacid crown ether (DOTA) provides the opportunity for Gadolinium (Gd3+) transfer from an aqueous medium to a lipophilic phase and mimic the ionophoric properties due to strong coordinating link. Therefore, we have developed Gd3+ ion selective electrode (ISE) incorporating synthesized nanocomposite of DOTA as an ionophore and multiwalled carbon nanotube (MWCNT) as signal enhancer in poly vinyl chloride (PVC) membrane sensor employing potentiometry. The composite DOTA-MWCNT was characterized by scanning electron microscopy (SEM). The Nernstian slope of 20.05 ± 0.18 mV per decade with linear range 1 × 10-2 to 1 × 10-8 M and the detection limit was found to be 7.2 ± 0.16 × 10-9 M. This electrode has an excellent selectivity over mono, bi, tri and tetravalent interferent metal species. The proposed sensor was favourably applied as an indicator electrode in the titration of Gd3+ ions with EDTA and recovery of gadolinium (III) from diverse synthetic samples. The presence of four ionizable carboxylic acids groups imparts advantages to DOTA-MWCNT composite in the formation of strong complexes and enhanced solubility of Gd3+ which became the basis for in-vivo analysis of Gd3+ in pharmaceutical and soil samples. DOTA-MWCNT as host forms 1:1 chelate complex with guest Gd3+ employing square wave voltammetry. The stability constant (Log K = 25.41) and Gibbs free energy (DG) of DOTA-MWCNT - Gd3+ complex was calculated which established exothermic and spontaneous inclusion mechanism. The higher stability constant obtained for DOTA-MWCNT chelate complex can provide the opportunity to researchers of biomedical science to minimize/control the amount of free Gd3+ release in the human body through the process of drug delivery. © 2021 Elsevier B.V.","Gadolinium; Ion selective electrode; Multi-walled carbon nanotube; Potentiometry; Tetraazacyclododecane-1,4,7,10-tetraaceticacid",,,,,,"SR/S1/PC-14/2012","We are thankful to DST-SERB (Project SR/S1/PC-14/2012) for financial assistance.",,,,,,,,,,"Kirk, O.R., Othmer, F.D., Encyclopedia of Chemical Technology (1982), Wiley; Ceulemans, M., Nuyts, K., De Borggraeve, W., Parac-Vogt, T., Gadolinium (III)-DOTA complex functionalized with BODIPY as a potential bimodal contrast agent for mri and optical imaging (2015) Inorganics, 3 (4), pp. 516-533; Sastri, V.S., Bunzli, J.C., Perumareddi, J.R., Rao, V.R., Rayudu, G.V.S., Modern aspects of rare earths and their complexes,1st (2003), Edition Elsevier Science; Künnemeyer, J., Terborg, L., Meermann, B., Brauckmann, C., Möller, I., Scheffer, A., Karst, U., Speciation analysis of gadolinium chelates in hospital effluents and wastewater treatment plant sewage by a novel HILIC/ICP-MS method (2009) Environ. 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Rev., 29, pp. 1-35; Arnaud-Neu, F., Solution chemistry of lanthanide macrocyclic complexes (1994) Chem. Soc. Rev., 23 (4), p. 235; Upadhyay, S.S., Gadhari, N.S., Srivastava, A.K., Biomimetic sensor for ethambutol employing β-cyclodextrin mediated chiral copper metal organic framework and carbon nanofibers modified glassy carbon electrode (2020) Biosens. Bioelectron., 165","Patil, V.R.; Department of Chemistry, Vidyanagari, Santacruz (E), India",,,"Elsevier Inc.",,,,,0026265X,,MICJA,,"English","Microchem. J.",Article,"Final","",Scopus,2-s2.0-85123196295
"Rane S.B., Narvel Y.A.M.","56149402100;57192108846;","Data-driven decision making with Blockchain-IoT integrated architecture: a project resource management agility perspective of industry 4.0",2022,"International Journal of System Assurance Engineering and Management","13","2",,"1005","1023",,4,"10.1007/s13198-021-01377-4","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85115725446&doi=10.1007%2fs13198-021-01377-4&partnerID=40&md5=6d95563bf7889f1939dd201166ffffe9","Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Maharashtra, Mumbai, 400058, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Maharashtra, Mumbai, 400058, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Maharashtra, Mumbai, 400058, India","Recently due to excessive competition, un-predictable market, disruptive business models and exponential growth in the complexity of technology and innovation, the existing PRM tools and techniques do not cope effectively, leading to scarcity/abundance of resources and induced overheads, which is the major challenge faced by PRM. This article discusses various key challenges faced by asset intensive EPC (Engineering, Procurement and Construction) industry related to managing their resources. Further, the challenges were modelled and analyzed using Ishikawa diagram and Pareto chart for identifying the significant causes. Considering the mentioned challenges, this article develops a Blockchain-IoT integrated architecture for providing Business Intelligence to improve agility of PRM process for the EPC industry. The developed architecture provides EPC industries with the capabilities like real-time data capture along with autonomous coordination of the resources with increased capacity of decentralization, trust-less transactions, security and transparency leading to improved process agility. This article gives a new dimension towards utilization of Blockchain blended with the boons of IoT technology and also gives a way forward to other asset-intensive industries to re-design their PRM in a more agile way. © 2021, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Agility; Asset intensive industry; Blockchain-IoT integrated architecture; Business intelligence; Data driven decision making; Project resource management","Architecture; Blockchain; Competition; Industry 4.0; Information analysis; Information management; Integrated control; Internet of things; Natural resources management; Project management; Resource allocation; Agility; Asset intensive industry; Block-chain; Blockchain-IoT integrated architecture; Business models; Data driven decision; Data driven decision making; Decisions makings; Exponential growth; Integrated architecture; Decision making",,,,,,,,,,,,,,,,"Aazam, M., Zeadally, S., Harras, K.A., Deploying fog computing in industrial internet of things and industry 4.0 (2018) IEEE Trans Ind Inf, 14 (10), pp. 4674-4682; Agarwal, A., Shankar, R., Tiwari, M.K., Modeling the metrics of lean, agile and leagile supply chain: an ANP-based approach (2006) Eur J Oper Res, 173 (1), pp. 211-225; Ahammad, M.F., Glaister, K.W., Gomes, E., Strategic agility and human resource management (2019) Hum Resour Manag Rev, 30 (1); Ahuett-Garza, H., Kurfess, T., A brief discussion on the trends of habilitating technologies for Industry 4.0 and smart manufacturing (2018) Manuf Lett, 15, pp. 60-63; Anjum, A., Sporny, M., Sill, A., Blockchain standards for compliance and trust (2017) IEEE Cloud Comput, 4 (4), pp. 84-90; Aziz, A., Zailani, S., A conceptual paper on determinants and outcomes of supply chain agility (2011) International Conference on Computer Communication and Management, Proc. of CSIT, IACSIT Press, Singapore, 5, pp. 456-460; Barenji, A.V., Li, Z., Wang, W.M., Blockchain cloud manufacturing: Shop floor and machine level (2018) European Conference on Smart Objects. 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"Pasi B.N., Mahajan S.K., Rane S.B.","57218911081;57197121288;56149402100;","Development of innovation ecosystem framework for successful adoption of industry 4.0 enabling technologies in Indian manufacturing industries",2022,"Journal of Science and Technology Policy Management","13","1",,"154","185",,3,"10.1108/JSTPM-10-2020-0148","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85109320556&doi=10.1108%2fJSTPM-10-2020-0148&partnerID=40&md5=6da391c7f180ff147f4b0c8af733c54a","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Directorate of Technical Education, Mumbai, India; Department of Mechanical Engineering, Vishwaniketan’s iMEET, Navi Mumbai, India","Pasi, B.N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India, Department of Mechanical Engineering, Vishwaniketan’s iMEET, Navi Mumbai, India; Mahajan, S.K., Directorate of Technical Education, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: The purpose of this paper is to develop an industry 4.0 (I4.0) innovation ecosystem framework by exploring the essential components of the same to ensure the collaborative efforts of different stakeholders. Design/methodology/approach: In this research work, important perspectives and their sub-components for the I4.0 innovation ecosystem framework are identified by performing a systematic literature survey of peer-reviewed journal articles. Then, I4.0 challenges among higher education (HE) institutions students and industries in India are explored by adopting the questionnaire-based research approach. Finally, the importance of the identified perspectives and their sub-components and causal relations among components are analyzed by using the decision-making trial and evaluation laboratory method. Findings: From the literature survey, three perspectives and their 45 sub-components are identified for the I4.0 innovation ecosystem framework. The outcomes show that the industry has a direct impact on HE institutions and the government. While HE institutions are most influenced by the industry and government. Research limitations/implications: I4.0 innovation ecosystem framework is developed by analyzing responses received through questionnaires. There are other methods also available for ecosystem framework development, which are beyond this study. Practical implications: This research work will facilitate policy formulation by the government. It will also help the managers to develop strategies for the adoption of I4.0 enabling technologies in their business. Originality/value: This research study gives an idea about the innovation ecosystem framework for the successful adoption of I4.0 enabling technologies in Indian Manufacturing Industries. © 2021, Emerald Publishing Limited.","DEMATEL; Ecosystem framework; Industry 4.0; Industry 4.0 enabling technologies; Questionnaire research approach; SMEs",,,,,,,,,,,,,,,,,"Alexopoulos, K., Makris, S., Xanthakis, V., Sipsas, K., Chryssolouris, G., A concept for context-aware computing in manufacturing: the white goods case (2016) International Journal of Computer Integrated Manufacturing, 29 (8), pp. 839-849; Alston, P., Teaching mobile web application development: challenges faced and lessons learned (2012) Proceedings of the 13th Annual Conference on Information technology Education, pp. 239-244. , Alberta; Atzori, L., Iera, A., Morabito, G., The internet of things: a survey (2010) Computer Networks, 54 (15), pp. 2787-2805; Bani-Salameh, H., Jeffery, C., Al-Gharaibeh, J., A social collaborative virtual environment for software development (2010) 2010 International Symposium on Collaborative Technologies and Systems, pp. 46-55. , IEEE, Chicago; Bhaveshkumar, N.P., Subhash, K.M., Santosh, B.R., Smart supply chain management: a perspective of industry 4.0 (2020) International Journal of Advanced Science and Technology, 29 (5), pp. 3016-3030; Bhaveshkumar, N.P., Subhash, K.M., Santosh, B.R., Redesigning of smart manufacturing system based on IoT: perspective of disruptive innovations of industry 4.0 paradigm (2020) International Journal of Mechanical and Production Engineering Research and Development (IJMPERD), 10 (3), pp. 727-746; Bhaveshkumar, N.P., Mahajan, S.K., Rane, S.B., A method for performing forging operation: a perspective of industry 4.0 (2021) Recent Patents on Mechanical Engineering, 14, p. 1; Bodrow, W., Impact of industry 4.0 in service oriented firm (2017) Advances in Manufacturing, 5 (4), pp. 394-400; Brettel, M., Niklas, F., Michael, K., Marius, R., How virtualization, decentralization and network building change the manufacturing landscape: an industry 4.0 perspective (2014) International Journal of Mechanical, Aerospace, Industrial and Mechatronics Engineering, 8 (1), pp. 37-44; Buer, S.V., Strandhagen, J.O., Chan, F.T.S., The link between industry 4.0 and lean manufacturing: mapping current research and establishing a research agenda (2018) International Journal of Production Research, 56 (8), pp. 2924-2940; Campbell, J., Tafliovich, A., An experience report: using mobile development to teach software design (2015) 46th ACM Technical Symposium on Computer Science Education, pp. 506-511. , KS City, MO; Chatterjee, S., Kar, A.K., Mustafa, S.Z., Securing IoT devices in smart cities of India: from ethical and enterprise information system management perspective (2019) Enterprise Information Systems, pp. 1-31; Chen, B., Bryer, T., Investigating instructional strategies for using social media in formal and informal learning (2012) The International Review of Research in Open and Distributed Learning, 13 (1), pp. 87-104; Dickson, P.E., Cabana: a cross-platform mobile development system (2012) SIGCSE'12: Proceedings of the 43rd ACM technical symposium on Computer Science Education, pp. 529-534. , Raleigh NC; Dolgui, A., Ivanov, D., Sokolov, B., Scheduling in production, supply chain and industry 4.0 systems by optimal control: fundamentals, state-of-the-art and applications (2018) International Journal of Production Research, 27, pp. 37-48; Drljevic, N., Boticki, I., Leveraging social networks to increase motivation in learning programming (2012) ELMAR, 2012 Proceedings, pp. 341-344. , Zadar, Croatia; Drouillard, M., Taverner, D., Willianson, C., Harris, M., (2014) Digital Entrepreneurship in Kenya, , GSMA, London; Fettermann, D.C., Cavalcante, C.G.S., Almeida, T.D., de Tortorella, G.L., How does industry 4.0 contribute to operations management? 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Policy Manage.",Article,"Final","",Scopus,2-s2.0-85109320556
"Bidikar S.G., Rane S.B., Potdar P.R.","57233594800;56149402100;57208580113;","Product development using Design for Six Sigma approach: case study in switchgear industry",2022,"International Journal of System Assurance Engineering and Management","13","1",,"203","230",,1,"10.1007/s13198-021-01199-4","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113601664&doi=10.1007%2fs13198-021-01199-4&partnerID=40&md5=da4f11351303faf4183021acffe6a5b7","Sardar Patel College of Engineering, Andheri-West, Mumbai, 400058, India; Rajiv Gandhi Institute of Technology, Mumbai, India","Bidikar, S.G., Sardar Patel College of Engineering, Andheri-West, Mumbai, 400058, India; Rane, S.B., Sardar Patel College of Engineering, Andheri-West, Mumbai, 400058, India; Potdar, P.R., Rajiv Gandhi Institute of Technology, Mumbai, India","The competitive business environment conditions of market have compelled to reduce the development period of products; therefore, organizations are more focused on optimizing product development period to satisfy customers' needs quickly. This study aims to shorten the development period of moulded case circuit breaker (MCCB) using design for Six Sigma (DFSS) approach and ensure sustainable product development using reliability analysis. In this study, the DFSS approach has been demonstrated using define measure analyze design and verify (DMADV) methodology with appropriate tools and techniques at each stage for the development of MCCB. The mechanical endurance test (MET), electrical endurance test (EET) and temperature rise test (TRT) have been performed to ensure the sustainability of the developed MCCB. The comparative analysis of the TRT results of the existing and uprated MCCB shows the reduction in temperature rise by 10 °C at the terminal. The efforts and time required for product development have been reduced due to the uprating of existing MCCB and reliability of uprated MCCB is computed as 98.44% by analyzing collected data using Weibull distribution. The analysis shows the wear-out failure of MCCB components as the shape factor value of the Weibull distribution is greater than one. This study concludes that every organization should critically reinvestigate the product to explore the opportunity for improving the quality and functionality of the product using appropriate tools and techniques. This case study clearly shows improvement in product reliability and quality which results in cost-saving business. © 2021, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Define-measure-analyze-design-verify (DMADV); Design failure mode effect analysis (DFMEA); Design for six sigma (DFSS); Moulded case circuit breaker (MCCB); Quality function deployment (QFD); Reliability assessment; Root cause analysis (RCA)","Customer satisfaction; Electric circuit breakers; Process engineering; Process monitoring; Product development; Reliability analysis; Six sigma; Sustainable development; Weibull distribution; Comparative analysis; Competitive business; Design for Six Sigma; Electrical endurance; Product reliability; Sustainable product development; Temperature-rise tests; Tools and techniques; Product design",,,,,,,,,,,,,,,,"Abellana, D.P., A proposed hybrid root cause analysis technique for quality management (2020) Int J Qual Reliab Manag, , https://doi.org/10.1108/IJQRM-11-2019-0356, ahead-of-print; Aggarwal, A.K., Kumar, S., Singh, V., Mathematical modeling and reliability analysis of the serial processes in feeding system of a sugar plant (2017) Int J Syst Assur Eng Manag, 8, pp. 435-450; Ahn, I.C., Kang, J.S., Kim, B.D., Dynamic analysis of a drive unit for molded case circuit breakers with electromagnetic repulsion forces (2014) ICEC 2014; the 27Th International Conference on Electrical Contacts, pp. 1-5; Aldridge, J.R., Taylor, J., Dale, B.G., The application of failure mode and effects analysis at an automotive components manufacturer (1991) Int J Qual Reliab Manag, 8. , (,),.,., https://doi.org/10.1108/02656719110142780; Aligula, G.K., Kok, C.K., Sim, H.K., Driving quality in product development in a Malaysian optoelectronic firm (2017) Int J Lean Six Sigma, 8, pp. 482-498; Alonso-García, M., Blázquez-Parra, E.B., de-Cózar-Macías, Ó.D., Planning an industrial design engineering curriculum according to the labour market based on dual training (2020) J Eng Des, 31, pp. 399-425; Andersson, R., Eriksson, H., Torstensson, H., Similarities and differences between TQM, six sigma and lean (2006) TQM Mag, 18, pp. 282-296; Antony, J., A SWOT analysis on Six Sigma: some perspectives from leading academics and practitioners (2012) Int J Product Perform Manag, 61, pp. 691-698; Antony, J., Six Sigma in the UK service organisations: results from a pilot survey (2004) Manag Audit J, 19, pp. 1006-1013; Ashok Sarkar, S., Ranjan Mukhopadhyay, A., Ghosh, S.K., Root cause analysis, Lean Six Sigma and test of hypothesis (2013) TQM J, 25, pp. 170-185; Augusto Cauchick Miguel, P., Innovative new product development: a study of selected QFD case studies (2007) TQM Mag, 19, pp. 617-625; Bañuelas, R., Antony, J., Going from six sigma to design for six sigma: an exploratory study using analytic hierarchy process (2003) TQM Mag, 15, pp. 334-344; Bashir, H., Ojiako, U., An integrated ISM-MICMAC approach for modelling and analysing dependencies among engineering parameters in the early design phase (2020) J Eng Des, 31, pp. 461-483; Benjamin, S.J., Marathamuthu, M.S., Murugaiah, U., The use of 5-WHYs technique to eliminate OEE’s speed loss in a manufacturing firm (2015) J Qual Maint Eng, 21, pp. 419-435; Bhattacharjee, P., Ramesh Kumar, K., Janardhan Reddy, T.A., Reliability design optimization for aerospace product an integrated approach (2012) Int J Syst Assur Eng Manag, 3, pp. 153-159; Cauchick Miguel, P.A., Celso Sobreiro, J., Dias, A proposed framework for combining ISO 9001 quality system and quality function deployment (2009) TQM J, 21, pp. 589-606; Chen, D., Dai, R., Zhang, J., Tong, W., Dynamic simulation of operating mechanism for molded case circuit breaker (2007) Electrical contacts—2007 Proceedings of the 53Rd IEEE Holm Conference on Electrical Contacts. 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Analysis on electromagnetic repulsion force in Molded Case Circuit Breaker 2011 1St International Conference on Electric Power equipment—switching Technology. Presented at the 2011 1St International Conference on Electric Power equipment—switching Technology (ICEPE-ST). IEEE, pp. 379-382. , https://doi.org/10.1109/ICEPE-ST.2011.6123012, Xi’an, China; Zafiropoulos, E.P., Dialynas, E.N., Reliability prediction and failure mode effects and criticality analysis (FMECA) of electronic devices using fuzzy logic (2005) Int J Qual Reliab Manag, 22, pp. 183-200; Zare Mehrjerdi, Y., Quality function deployment and its extensions (2010) Int J Qual Reliab Manag, 27, pp. 616-640","Rane, S.B.; Sardar Patel College of Engineering, Andheri-West, India; email: s_rane@spce.ac.in",,,"Springer",,,,,09756809,,,,"English","Intl. J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-85113601664
"Pawar U., Bhole K., Rathod M., Oza A.D., Bhole D., Makwana M.","57962356400;55485785300;57193580543;57205608034;57213600316;57827464700;","Design optimization of circular vessel using computational fluid dynamics for the effective heat storage",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,,"10.1007/s12008-022-01177-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85145190304&doi=10.1007%2fs12008-022-01177-5&partnerID=40&md5=85f7fe0d1914da45b029d691081b4a81","Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Information Technology, KJ Somaiya Institute of Engineering and Information Technology, Mumbai, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Computer Engineering, Shree L. R. Tiwari College of Engineering, Mumbai, India; Department of Mechanical Engineering, A. D. Patel Institute of Technology, New Vallabh Vidhyanagar, Gujarat, Anand, 388121, India","Pawar, U., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India; Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rathod, M., Department of Information Technology, KJ Somaiya Institute of Engineering and Information Technology, Mumbai, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Bhole, D., Department of Computer Engineering, Shree L. R. Tiwari College of Engineering, Mumbai, India; Makwana, M., Department of Mechanical Engineering, A. D. Patel Institute of Technology, New Vallabh Vidhyanagar, Gujarat, Anand, 388121, India","The latent heat energy storage using Phase Change Material (PCM) has an enormous appeal due to its profitable points associated with density and thermal characteristics. In this regard, a heat exchanger is modelled and analyzed to visualize the thermal behaviour and melting progression of PCM in a circular-shaped enclosed erect vessel via CFD tool. This work analyzes a multiphase transient study of a U-shaped copper tube placed in a closed cylindrical vessel through which heat transfer fluid flows for transferring heat to the PCM. This work shall be advantageous to the researchers to realize the thermal performance, time of PCM melting etc., to carry out research related to solar heat storage. The present study reports substantial decrease in the time taken to melt all the PCM filled in the container. Almost 32% of time is saved in the process of melting of PCM and thus improving the efficiency of the energy storage system. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Domain; Modeling and simulation; U-shape; Working fluid","Computational fluid dynamics; Flow of fluids; Heat exchangers; Heat storage; Melting; Storage (materials); Design optimization; Domain; Latent heat energy storage; Model and simulation; Thermal behaviours; Thermal characteristics; Thermal melting; U shape; Work analysis; Working fluid; Phase change materials",,,,,,,,,,,,,,,,"Zalba, B., Marin, J.M., Cabeza, L.F., Mehling, H., Review on thermal energy storage with phase change materials, heat transfer analysis and applications (2003) Appl. Therm. Eng., 23 (3), pp. 251-283; Farid, M.M., Khudhair, A.M., Razack, S.A.K., Al-Hallaj, S., A review on phase change energy storage: materials and applications (2004) Energy Convers. Manage., 45 (9-10), pp. 1597-1615; Abhat, A., Low temperature latent heat thermal energy storage: heat storage materials (1983) Sol. Energy, 30, pp. 313-332; Zhang, Y., Zhou, G., Lin, K., Zhang, Q., Di, H., Application of latent heat thermal energy storage in buildings: state- of-the-art and outlook (2007) Build. Environ., 42 (6), pp. 2197-2209; Sharma, A., Tyagi, V.V., Chen, C.R., Buddhi, D., Review on thermal energy storage with phase change materials and applications (2009) Renew. Sustain. Energy Rev., 13 (2), pp. 318-345; Sharma, S.D., Kitano, H., Sagra, K., phase change materials for low temperature solar thermal applications (2004) Res. Rep. Fac. Eng. Mie Univ., 29, pp. 31-64; Sharma, S.D., Sagra, K., Latent heat storage materials and systems: a review (2005) Int. J. Green Energy, 2005, pp. 21-56; Honguntiker, P.V., Pawar, U.C., Characterization of erythritol as a phase change material (2019) Int. J. Sci. Adv. Res. Technol., 5 (1), pp. 329-332; Reddy, R.M., Nallusamy, N., Prasad, B.A., Reddy, K.H., Thermal energy storage system using phase change material-constants heat source, , http://www.doiserbia.nb.rs/img/doi/0354-9836/2010%20Online-First/0354-98361000078R.pdf; Abhay, B., Lingayat, S., Yogesh, R., Review on phase change material as thermal energy storage medium: material, application (2013) Int. J. Eng. Res. Appl. IJERA, 3 (4), pp. 916-921; Kenisarin, M., Mahkamov, K., Solar energy storage using phase change materials (2007) Renew. Sustain. Energy Rev., 11, pp. 1913-1965; Sharma, A., Tyagi, V.V., Chen, C.R., Buddhi, D., Review on thermal energy storage with phase change materials and applications (2009) Renew. Sustain. Energy Rev., 13, pp. 318-345; Yang, Z., Garimella Suresh, V., Melting of phase change material with volume change in metal foams, ASME digital collection (2010) J. Heat Transf., 132 (6), p. 062301; Francis, A., Philip, E., Mervyn, S., Experimental study on the melting and solidification behavior of a medium temperature phase change storage material(Erythritol) system augmented with fins to power a LiBr/H2O absorption cooling system (2011) Renew. Energy, 36, pp. 108-117; Gabriela, L., Thermal energy storage with phase change Material Leonardo (2012) Electron. J. Pract. Technol., 20, pp. 75-79; Ravikumar, M., Srinivasan, P., Phase change material as thermal energy storage material for cooling of building J. Theor. Appl. Inform. Technol., , http://www.jatit.org/volumes/research-papers/Vol4No6/6Vol4No6.pdf4(6),503–512(2005–2008); Ravikumar, M., Pss, S., Natural cooling of building using phase change material (2008) Int. J. Eng. Technol., 5 (1), pp. 1-10; Patil, N.D., Design and analysis of phase change material based thermal energy storage for active building cooling: a review (2012) Int. J. Eng. Sci. Technol. (IJEST), 4 (6), pp. 2502-2509; Heins, A., Streicher, W., Application of phase change materials and PCM-slurries for thermal energy storage., , http://talon.stockton.edu/eyos/energy_studies/content/docs/FINAL_PAPERS/8B-4.pdf; Pawar, U.C., Chavan, S.G., Bhole, K.S., Optimization of roll forming process for different standard sections of steel structures (2022) Int. J. Interact. Des. Manuf.; Wang, Y., Wang, L., Xie, N., Lin, X., Chen, H., Experimental study on the melting and Solidification behaviour of erythritol in a vertical shell-and-tube latent heat thermal storage unit (2016) Int. J. Heat Mass Transf., 99, pp. 770-781; Agyenim, F., Eames, P., Smyth, M., Experimental study on the melting and solidification behaviour of a medium temperature phase changestorage material (Erythritol) system augmented with fins to power a LiBr/H2O absorption cooling system (2011) Renew. Energy, 36, pp. 108-117; Rathod, M.K., Benerjee, J.R., Thermal stability of phase change materials used in latent heat energy storage systems: a review (2013) Renew. Sustain. Energy Rev., 18, pp. 246-258; Estrázulas, J. J., Estudonumérico da mudança de fase de pcmsemcavidadescilíndricas, master thesis, 9 2015),universidade do vale do rio dos sinos (unisinos), sãoleopoldo, rs. (inportuguese); Shmueli, H., Ziskind, G., Letan, R., Melting in a vertical cylindrical tube: numerical investigation and comparison with experiments (2010) Int. J. Heat Mass Transf., 53, pp. 4082-4091; Oliveski, R.D.C., Del Col, D., (2014) Numerical simulation of thermal energy storage with pcm, , In: Eurotherm Seminar #99: Advances in Thermal Energy Storage, Lleida, Spain; Shatikian, V., Ziskind, G., Letan, R., Numerical investigation of a pcm-based heat sink with internal fins (2005) Int. J. Heat Mass Transf., 48, pp. 3689-3706; Borahel, R.S., Raymundo Junior, J., Oliveski, R.D.C., (2015) Análisebidimensional do processo de fusão de um material de mudança de faseemumacavidaderetangular, scientia plena 08 (In Portuguese); Longeon, M., Soupart, A., Fourmigué, J.F., Bruch, A., Marty, P., Experimental and numerical study of annular pcm storage in the presence of natural convection (2013) Appl. Energy, 112, pp. 175-184; Assis, E., Katsman, L., Ziskind, G., Letan, R., Numerical and experimental study of melting in a spherical shell (2007) Int. J. Heat Mass Transf., 50, pp. 1790-1804; Al-Abidi, A.A., Mat, S., Sopian, K., Sulaiman, M.Y., Mohammad, A.T., Internal and external fin heat transfer enhancement technique for latent heat thermal energy storage in triplex tube heat exchangers (2013) Appl. Therm. Eng., 53, pp. 147-156; Raymundo, J.F., Borahel, R., Da, S., Oliveski, R., De, C., Numerical study of the erythritol melting process in a tridimensional rectangular cavity (2015) J. Therm. Eng., 14, pp. 88-94; Pawar, U.C., Honguntiker, P.V., CFD simulation of a steam regulating wickless heat pipe : Springer Lecture Notes in Optimization Methods in Engineering, pp. 53-72. , https://doi.org/10.1007/978-981-15-4550-4_4; Bandar, F., Wrobel, L.C., Jouhara, H., Numerical modeling of the temperature distribution in a two-phase closed thermosyphon (2013) Appl. Therm. Eng., 60, pp. 122-131","Oza, A.D.; Department of Computer Sciences and Engineering, Gujarat, India; email: ankit.oza@iar.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85145190304
"Kale B.S., Bhole K.S., Mastud S., Raykar N., Sharma C., Deshmukh P.","57194765857;55485785300;36053085400;19934528100;57213588846;57218315306;","ANISOTROPIC APPROACH TO CONTROL VISCOUS FINGERING PATTERN GENERATED IN LIFTING PLATE HELE-SHAW CELL",2022,"Proceedings of the ASME Design Engineering Technical Conference","8",,"V008T08A004","","",,1,"10.1115/DETC2022-89600","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142477921&doi=10.1115%2fDETC2022-89600&partnerID=40&md5=fa2df3da820b7ac78e4d058e8866dcb4","Dept. of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, India; Dept. of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Dept. of Mechanical Engineering, Veermata Jijabai Technological Institute, Matunga, Mumbai, India; Dept. of Mechanical Engineering, New Horizon Institute of Technology & Management, Thane, India","Kale, B.S., Dept. of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, India; Bhole, K.S., Dept. of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Mastud, S., Dept. of Mechanical Engineering, Veermata Jijabai Technological Institute, Matunga, Mumbai, India; Raykar, N., Dept. of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Sharma, C., Dept. of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Deshmukh, P., Dept. of Mechanical Engineering, New Horizon Institute of Technology & Management, Thane, India","Stability is one of the important aspects of life, our everyday systems - the permanence of things. When this stability gets disturbed, instability is produced. Sometimes this instability is desirable, and sometimes not. In the crude oil extraction process, fluid instability is observed. Saffman and Taylor explored the concept of the Hele-Shaw cell to study these instabilities. The Hele-Shaw cell involves a high viscous fluid sandwiched between two parallel plates, and the low viscosity fluid enters from the periphery. Insertion of low viscous fluid into a high viscous fluid generates a pattern that is a resemblance to a finger. This phenomenon is called viscous fingering. In this paper, the authors control the instabilities and mimic patterns available in nature. These instabilities can be controlled by controlling one of the fluids in the cell. Here authors control the low viscous fluid (air) by providing anisotropies. Anisotropy means providing holes and slots on any plate of the cell. This anisotropy guides air to interact with high viscous fluid at some desired location. The authors further studied the effect of size, position, the orientation of these holes and slots on the viscous fingering exhaustively. Copyright © 2022 by ASME.","Anisotropy; Controlling; Hele-Shaw Cell; Saffman Taylor Instability; Viscous Fingering","Air; Anisotropy; Cells; Cytology; Viscosity; Viscous flow; Controling; Crude oil extraction; Extraction process; Fingering patterns; Hele-Shaw cells; High viscous fluids; Process fluid; Saffman-Taylor instability; Viscous fingering; Viscous fluids; Stability",,,,,"Science and Engineering Research Board, SERB: CRG/2021/000747","The authors acknowledge support for this work by the Science and Engineering Research Board (SERB), Government of India through Project Grant CRG/2021/000747.",,,,,,,,,,"Taylor, G., Saffman, P., A note on the motion of bubbles in a Hele-Shaw cell and porous medium (1959) The Quarterly Journal of Mechanics and Applied Mathematics, 12 (3), pp. 265-279; Kale, B. S., Bhole, K., Khond, P., Experimental modeling of meso fractals generated from non-Newtonian fluid from lifting plate Hele-Shaw cell (2019) Int J Adv Mater Manuf Charact, 9 (2), pp. 29-35; Chen, C.-Y., Huang, C.-W., Wang, L.-C., Miranda, J. A., Controlling radial fingering patterns in miscible confined flows (2010) Physical Review E, 82 (5), p. 056308; Li, S., Lowengrub, J. S., Fontana, J., Palffy-Muhoray, P., Control of viscous fingering patterns in a radial Hele-Shaw cell (2009) Physical review letters, 102 (17), p. 174501; Dias, E. O., Parisio, F., Miranda, J. A., Suppression of viscous fluid fingering: A piecewise-constant injection process (2010) Physical Review E, 82 (6), p. 067301; Kale, B. S., Bhole, K. S., Controlling the instabilities in the radial hele-shaw cell (2020) International Journal of Theoretical and Applied Multiscale Mechanics, 3 (3), pp. 245-260; Islam, T. U., Gandhi, P. S., Viscous fingering in multiport hele shaw cell for controlled shaping of fluids (2017) Scientific reports, 7 (1), pp. 1-9; Devkare, S. S., Bhole, K. S., Kale, B. S., Sharma, C., Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell (2020) Materials Today: Proceedings, 28, pp. 1920-1926; Kale, B. S., Bhole, K. S., Devkare, S. S., Sharma, C., Simulation of viscous fingers developed in Lifting Plate Hele-Shaw cell in volume of fluid model (2020) Int J Advance Sci Technol, 29 (3), pp. 14867-14874; . Kale, S, Bhole, K., Sharma, C., Effect of anisotropies in formation of viscous fingering in lifting plate Hele-Shaw cell (2021) Advances in Materials and Processing Technologies, pp. 1-14. , B., S. and; Islam, T. U., Gandhi, P. S., Fabrication of multiscale fractal like structures by controlling fluid interface instability (2016) Scientific reports, 6 (1), pp. 1-9; Chen, J.-D., Radial viscous fingering patterns in Hele-Shaw cells (1987) Experiments in fluids, 5 (6), pp. 363-371; Bihi, I., Baudoin, M., Butler, J. E., Faille, C., Zoueshtiagh, F., Inverse saffman-taylor experiments with particles lead to capillarity driven fingering instabilities (2016) Physical review letters, 117 (3), p. 034501; Kale, B. S., Bhole, K., Parametric analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell (2019) IOP Conference Series: Materials Science and Engineering, 577, p. 012154. , IOP Publishing; Singare, A. A., Kale, B., Bhole, K. S., Experimental characterisation of meso-micro fractals from nanoparticle seeded resin in lifting plate Hele Shaw cell (2018) Materials Today: Proceedings, 5 (11), pp. 24213-24220; Holloway, K. E., De Bruyn, J. R., Viscous fingering with a single fluid (2005) Canadian journal of physics, 83 (5), pp. 551-564; Sabet, N., Hassanzadeh, H., Abedi, J., Control of viscous fingering by nanoparticles (2017) Physical Review E, 96 (6), p. 063114; Al-Housseiny, T. T., Tsai, P. A., Stone, H. A., Control of interfacial instabilities using flow geometry (2012) Nature Physics, 8 (10), pp. 747-750; Al-Housseiny, T. T., Stone, H. A., Controlling viscous fingering in tapered hele-shaw cells (2013) Physics of Fluids, 25 (9), p. 092102; Eslami, A., Basak, R., Taghavi, S. M., Multiphase viscoplastic flows in a nonuniform hele-shaw cell: a fluidic device to control interfacial patterns (2020) Industrial & Engineering Chemistry Research, 59 (9), pp. 4119-4133; Pihler-Puzović, D., Illien, P., Heil, M., Juel, A., Suppression of complex fingerlike patterns at the interface between air and a viscous fluid by elastic membranes (2012) Physical review letters, 108 (7), p. 074502; Pihler-Puzović, D., Périllat, R., Russell, M., Juel, A., Heil, M., Modelling the suppression of viscous fingering in elastic-walled Hele Shaw cells (2013) Journal of Fluid Mechanics, 731, pp. 162-183; Gao, T., Mirzadeh, M., Bai, P., Conforti, K. M., Bazant, M. Z., Active control of viscous fingering using electric fields (2019) Nature communications, 10 (1), pp. 1-8",,,"Computers and Information in Engineering Division;Design Engineering Division","American Society of Mechanical Engineers (ASME)","ASME 2022 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, IDETC-CIE 2022","14 August 2022 through 17 August 2022",,184286,,9780791886298,,,"English","Proc. ASME Des. Eng. Tech. Conf.",Conference Paper,"Final","",Scopus,2-s2.0-85142477921
"Pawar U.C., Chavan S.G., Bhole K.S., Ramesh R., Oza A.D.","57962356400;57195245562;55485785300;57954833300;57205608034;","Optimization of roll forming process for different standard sections of steel structures",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,1,"10.1007/s12008-022-01091-w","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141781524&doi=10.1007%2fs12008-022-01091-w&partnerID=40&md5=52722bdf28cf0024d529dc74ea3aa1d8","Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Department of Mechanical Engineering, Sree Vidyanikethan Engineering College, Andhrapradesh, Tirupati, 517102, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India","Pawar, U.C., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Chavan, S.G., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Ramesh, R., Department of Mechanical Engineering, Sree Vidyanikethan Engineering College, Andhrapradesh, Tirupati, 517102, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India","In this research paper the three-roll bending forming optimization for different sections of steel structure was studied. The three-roll forming method is suitable for forming a circular and curved type of work-piece. An analytical model and finite element model (FEM) using ANSYS are proposed for investigating the roll forming process for various sections of steel. The deformation analysis is presented for different sections such as right angle, solid circular, hollow circular, T, I, Z sections. A reasonably accurate relationship between workspace displacement and the desired thickness of various sections of steel structure is focused. The bending force is optimized by using the Lagrange method. The minimum bending forces with respect to thickness for different sections of steel was examined. A circular shaped work piece with radius 609.6 mm section dimension 25 mm × 25 mm × 3 mm is simulated with FEM established by the optimum tool and process parameters. The optimum bending force is obtained from SCILAB code. The SCILAB CODE has been developed for optimization purposes in the proposed study. The optimization model is validated with the available literature. A good agreement is found between available literature and present analysis. It is also found that the relation between minimum bending forces with respect to thickness for different sections is parabolic in nature. The present work is expected to provide generalized guidelines for design and manufacturing engineers to lay a process plan for developing different standard sections of steel using roll forming process. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Different section of steel (profile bending); Finite element simulation; Lagrange optimization; Three-roll bending method","Bending (deformation); Bending (forming); Lagrange multipliers; Steel structures; Bending force; Bending methods; Different section of steel (profile bending); Finite element modelling (FEM); Finite elements simulation; Lagrange optimization; Optimisations; Roll bending; Roll forming process; Three-roll bending method; Finite element method",,,,,,,,,,,,,,,,"Sadoughifar, A., Farhatnia, F., Izadinia, M., Tal, S.B., Nonlinear bending analysis of porous FG thick annular/circular nanoplate based on modified couple stress and two-variable shear deformation theory using GDQM (2019) Steel Compos. Struct., 33 (2), pp. 307-318; Ahangarnazhad, B.H., Pourbaba, M., Afkar, A., Bond behavior between steel and glass fiber reinforced polymer (GFRP) bars and ultra high performance concrete reinforced by multi-walled carbon nanotube (MWCNT) (2020) Steel Compos. Struct., 35 (4), pp. 463-474; Ding, F., Wang, W., Liu, X., Wang, L., Sun, Y., Mechanical behavior of outer square inner circular concrete-filled dual steel tubular stub columns (2021) Steel Compos. Struct., 38 (3), pp. 305-317; Saglam, F., Unlusoy, Y.S., Optimization of ride comfort for a three-axle vehicle equipped with interconnected hydro-pneumatic suspension system (2018) Adv. Autom. Eng., 1 (1), pp. 1-20; Ananthi, G.B., Roy, K., Lim, J.B., Experimental and numerical investigations on axial strength of back-to-back built-up cold-formed steel angle columns (2019) Steel Compos. Struct., 31 (6), pp. 601-615; Garcia, H., Cuadrado, J., Biezma, M.V., Calderon, I., The fire-risks of cost-optimized steel structures: fire-resistant and hot-rolled carbon steel (2021) Struct. Eng. Mech., 78 (1), pp. 67-75; Esnaola, J.A., Torca, I., Galdos, L., Garcia, C., Determination of the optimum forming conditions for warm tube hydroforming of ZM21 magnesium alloy (2009) J. Achiev. Mater. Manuf. Eng., 32, p. 2; Wang, J., Uy, B., Li, D., Behaviour of large fabricated stainless steel beam-to-tubular column joints with extended endplates (2019) Steel Compos. Struct., 32 (1), pp. 141-156; Cheng, J., Xu, M., Xu, H., Mechanical performance study and parametric analysis of three-tower four-span suspension bridges with steel truss girders (2019) Steel Compos. Struct., 32 (2), pp. 189-198; Chavan, S.G., Lal, A., Bending behavior of SWCNT reinforced composite plates (2017) Steel Compos. Struct., 24 (5), pp. 537-548; Poles, S., (2009) Multiobjective Optimization Scilab Manual; Rao, S.S., (1996) Engineering Optimization Theory and Practice, , 3, A Wiley-Interscience Publication John Wiley and Sons Inc, New York, Chichester, Brisbane, Toronto, Singapore; Eom, S., Vu, Q., Choi, J., Papazafeiropoulos, G., Kim, S., Behavior of composite CFST beam-steel column joints (2019) Steel Compos. Struct., 32 (5), pp. 583-594; Dede, T., Jaya algorithm to solve single objective size optimization problem for steel grillage structures (2018) Steel Compos. Struct., 26 (2), pp. 163-217; Dietl, T., Santos, A.D., (2016) Roll Forming - a Study on Machine Deflection by means of Experimental Analysis and Numerical Developments, , M.S. Mechanical Engineering Thesis; Fu, Z., Tian, X., Chen, W., Hu, B., Yao, X., Analytical modeling and numerical simulation for three-roll bending forming of sheet metal (2013) Int. J. Adv. Manuf. Technol., 69, pp. 1639-1647; Ismail, N., Atiqah, A., Jalar, A., Bakar, M.A., Rahim, R.A.A., Ismail, A.G., Hamzah, A.A., Keng, L.K., A systematic literature review: the effects of surface roughness on the wettability and formation of intermetallic compound layers in lead-free solder joints (2022) J. Manuf. Process., 83, pp. 68-85; Yan, Z., Chen, S., Jianga, F., Huang, N., Zhang, S., Material flow in variable polarity plasma arc keyhole welding of aluminum alloy (2018) J. Manuf. Process., 36, pp. 480-486; Wu, C., Wei, X., Chen, Y., Liu, J., Guo, C., Wang, Q., Surface wettability analysis and preparation of hydrophobic microcylindrical arrays by μ-SLA 3D printing (2022) J. Manuf. Process., 83, pp. 14-26; Wu, Z., Bao, H., Xing, Y., Liu, L., Dry cutting performance and heat transfer simulation of pulsating heat pipe self-cooling tool holder (2022) J. Manuf. Process., 83, pp. 129-142; Raju, R., Manikandan, N., Palanisamy, D., Arulkirubakaran, D., Binoj, J.S., Thejasree, P., Ahilan, C., A review of challenges and opportunities in additive manufacturing (2021) Palani; Palani, I.A., Sathiya, P., Palanisamy, D., (2022) Recent Advances in Materials and Modern Manufacturing, , https://doi.org/10.1007/978-981-19-0244-4_3, Lecture notes in mechanical engineering, Springer, Singapore; Vaishya, R., Sharma, V., Gupta, A., Pathania, J., Oza, A., Dixit, A.K., Bhole, K.S., Patel, A., Finite element modeling of quartz material for analyzing material removal rate in ECDM process (2022) Int. J. Interact. Des. Manuf.; Patil, A.S., Sunnapwar, V.K., Bhole, K.S., Effective machining parameter selection through fuzzy AHP-TOPSIS for 3D finish milling of Ti6Al4V (2022) Int. J. Interact. Des. Manuf.; Shinde, S.M., Lekurwale, R.R., Bhole, K.S., On efficient electrode design and manufacturing techniques for hot die steel inserts (2022) Int. J. Interact. Des. Manuf.; Patil Amit, S., Sunnapwar, V.K., Bhole, K.S., Ray, M.P., More, Y.S., Effective cooling methods for Ti6Al4V CNC milling: a review (2022) Adv. Mater. Process.; Patil Amit, S., Sunnapwar, V.K., Bhole, K.S., Ray, M.P., More, Y.S., Experimental investigation and fuzzy TOPSIS optimisation of Ti6Al4V finish milling (2021) Adv. Mater. Process. Technol.","Oza, A.D.; Department of Computer Sciences and Engineering, Gujarat, India; email: ankit.oza@iar.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85141781524
"Kale B., Bhole K.S., Raykar N., Sharma C., Deshmukh P., Oak S.","57194765857;55485785300;19934528100;57213588846;57218315306;57849276000;","Fabrication of meso sized structures through controlled viscous fingering in Lifting Plate Hele-Shaw Cell with holes and slots",2022,"Advances in Materials and Processing Technologies",,,,"","",,2,"10.1080/2374068X.2022.2127985","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141090071&doi=10.1080%2f2374068X.2022.2127985&partnerID=40&md5=0fb1f7e41d03173245774cbb2ce8c6f6","Department of Mechanical Engineering, Datta Meghe College of Engineering, Maharashtra, Navi Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Maharashtra, Mumbai, India; Department of Mechanical Engineering, New Horizon Institute of Technology Management, Thane, India","Kale, B., Department of Mechanical Engineering, Datta Meghe College of Engineering, Maharashtra, Navi Mumbai, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Maharashtra, Mumbai, India; Raykar, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Maharashtra, Mumbai, India; Sharma, C., Department of Mechanical Engineering, Sardar Patel College of Engineering, Maharashtra, Mumbai, India; Deshmukh, P., Department of Mechanical Engineering, New Horizon Institute of Technology Management, Thane, India; Oak, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Maharashtra, Mumbai, India","Lifting plate Hele-Shaw cell involves a high viscous fluid sandwiched between two parallel plates. The low viscosity fluid (air) enters from the periphery when one of the plates is lifted away from another plate. The air penetrates a high viscous fluid at various points from the periphery. This penetration causes the formation of a tree-branch-like structure called viscous fingering. Due to this insertion, sandwiched fluid changes its structure. This structural change is known as instability. The viscous fingers generated through this flow are highly random and unstable. This study presents methods to control the instabilities. The study reports control techniques by providing anisotropies (holes and slots) on any one of the plates. The study further presents the effect of size, position, and the orientation of these holes and slots on the viscous fingering exhaustively. Deployment of these control techniques leads to the emergence of new fabrication techniques with the potential to develop meso-sized finger patterns spontaneously without expensive setup as otherwise required in the lithography process. To demonstrate the capability of this proposed fabrication technique, various net-shaped patterns available in nature are mimicked. These developed miniature patterns can be used in various applications such as micro-mixers, micro-heat exchangers, etc. © 2022 Informa UK Limited, trading as Taylor & Francis Group.","anisotropy; fractal formation; Hele-Shaw cell; Saffman taylor instability; Viscous Fingering",,,,,,"Science and Engineering Research Board, SERB: CRG/2021/000747","The authors acknowledge support for this work by the Science and Engineering Research Board (SERB), Government of India, through Project Grant CRG/2021/000747.",,,,,,,,,,"Hele Shaw, H.S., On the motion of a viscous fluid between two parallel plates (1898) Nature, 58, pp. 34-36; Videbæk, T.E., Nagel, S.R., Diffusion-Driven transition between two regimes of viscous fingering (2019) Phys Rev Fluids, 4 (3), p. 033902; Taylor, G., Saffman, P., A note on the motion of bubbles in a Hele-Shaw cell and porous medium (1959) Q J Mech Appl Math, 12 (3), pp. 265-279; Kale, B.S., Bhole, K.S., Khond, P., Experimental modeling of meso fractals generated from non-Newtonian fluid from lifting plate Hele-Shaw cell (2019) Int J Adv Mater Manuf Charact, 9 (2), pp. 29-35; Fontana, J.V., Miranda, J.A., Finger competition in lifting Hele-Shaw flows with a yield stress fluid (2013) Phys Rev E, 88 (2), p. 023001; Dutta, T., Tarafdar, S.K., Sinha, S., Radially interrupted viscous fingers in a lifting Hele-Shaw cell (2003) Euro Phys J B Condens Matter, 36 (3), pp. 297-300; Zhang, S.-Z., Louis, E., Pla, O., Linear stability analysis of the hele-shaw cell with lifting plates (1998) Euro Phys J B Condens Matter Complex Sys, 1 (1), pp. 123-127; Saffman, P., Viscous fingering in Hele-Shaw cells (1986) J Fluid Mech, 173, pp. 73-94; Choudhury, M.D., Tarafdar, S., Fingering instability in non-Newtonian fluids during squeeze flow in a Hele-Shaw cell (2015) Indian J Phys, 89 (5), pp. 471-477; Chen, J.D., Growth of radial viscous fingers in a Hele-Shaw cell (1989) J Fluid Mech, 201, pp. 223-242; Rocero, L.F.R., Paiva, A.S.S., Andrade, R.F.S., Optimal control of viscous fingers in radial Hele-Shaw cell (2020) Int J Modern Phys C, 31 (12), p. 2050169; Coutinho, Í.M., Miranda, J.A., Control of viscous fingering through variable injection rates and time-dependent viscosity fluids: beyond the linear regime (2020) Phys Rev E, 102 (6), p. 063102; 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Suppression of complex fingerlike patterns at the interface between air and a viscous fluid by elastic membranes (2012) Phys Rev Lett, 108 (7), p. 074502; Pihler-Puzović, D., Périllat, R., Russell, M., Modelling the suppression of viscous fingering in elastic-walled Hele-Shaw cells (2013) J Fluid Mech, 731, pp. 162-183; Al-Housseiny, T.T., Christov, I.C., Stone, H.A., Two-Phase fluid displacement and interfacial instabilities under elastic membranes (2013) Phys Rev Lett, 111 (3), p. 034502; Zhao, M., Belmonte, A., Li, S., Non-Linear simulations of elastic fingering in a Hele-Shaw cell (2016) J Comput Appl Math, 307, pp. 394-407; McCue, S.W., Short, flat-tipped, viscous fingers: novel interfacial patterns in a Hele-Shaw channel with an elastic boundary (2018) J Fluid Mech, 834, pp. 1-4; Gao, T., Mirzadeh, M., Bai, P., Active control of viscous fingering using electric fields (2019) Nat Commun, 10 (1), pp. 1-8; Zhao, M., Anjos, P., Lowengrub, J., Numerical study on viscous fingering using electric fields in a Hele-Shaw cell (2022) arXiv Preprint arXiv:2201, p. 05956; Kale, B.S., Bhole, K.S., Controlling the instabilities in the radial Hele-Shaw cell (2020) Int J Theor Appl Multiscale Mech, 3 (3), pp. 245-260; Islam, T.U., Gandhi, P.S., Viscous fingering in multiport Hele Shaw cell for controlled shaping of fluids (2017) Sci Rep, 7 (1), pp. 1-9; Devkare, S.S., Bhole, K.S., Kale, B.S., Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell Proceedings of Materials Today, 2020, pp. 1920-1926. , 28 May 29-30, Chandigarh, India; Kale, B.S., Bhole, K.S., Devkare, S.S., Simulation of viscous fingers developed in lifting plate Hele-Shaw cell in volume of fluid model (2020) Int J Adv Sci Technol, 29 (3), pp. 14867-14874; Kale, B.S., Bhole, K.S., Sharma, C., Effect of anisotropies in formation of viscous fingering in lifting plate Hele-Shaw cell (2021) Adv Mater Process Technol, pp. 1-14; McCloud, K.V., Maher, J.V., Pattern selection in an anisotropic Hele-Shaw cell (1995) Phys Rev E, 51 (2), p. 1184; Islam, T.U., Gandhi, P.S., Fabrication of multiscale fractal like structures by controlling fluid interface instability (2016) Sci Rep, 6 (1), pp. 1-9; Chen, J.D., Radial viscous fingering patterns in Hele-Shaw cells (1987) Exp Fluids, 5 (6), pp. 363-371; Tarafdar, S., Sinha, S., Nag, S., Fingering and pressure distribution in lifting Hele-Shaw cells with grooves: a computer simulation study (2009) Phys Rev E, 80 (2), p. 026315; Bhole, K.S., Kale, B., Sublimation technique for minimisation of stiction induced during fabrication of closely spaced microstructures (2022) Adv Mater Process Technol, pp. 1-11; Bhole, K.S., Kale, B., Techniques to minimise stair-stepping effect in micro-stereolithography process: a review (2021) Adv Mater Process Technol, pp. 1-20; Fereiduni, F., Ghasemi, G., Elbestaw, E., Characterization of composite powder feedstock from powder bed fusion additive manufacturing perspective (2019) Materials, 12 (22), p. 3673","Kale, B.; Department of Mechanical Engineering, Airoli, Maharashtra, India; email: bharat.kale@dmce.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Article,"Article in Press","",Scopus,2-s2.0-85141090071
"Vankar S.R., Kaore A.N., Yerramalli C.S.","57220548176;57220547481;57214067060;","Methodology for testing the compressive strength of pultruded composites",2022,"Journal of Reinforced Plastics and Composites",,,,"","",,,"10.1177/07316844221133293","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85139995177&doi=10.1177%2f07316844221133293&partnerID=40&md5=6f88353fe31990d8ebbb7cf9817b4d73","Aerospace Engineering, Indian Institute of Technology Bombay, Mumbai, India; Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Vankar, S.R., Aerospace Engineering, Indian Institute of Technology Bombay, Mumbai, India, Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kaore, A.N., Aerospace Engineering, Indian Institute of Technology Bombay, Mumbai, India; Yerramalli, C.S., Aerospace Engineering, Indian Institute of Technology Bombay, Mumbai, India","Unidirectional (UD) composites with 0° fibre orientation have high axial strength along the direction of fibres. Hence, the axial compressive testing of 0° UD composites is extremely difficult due to associated issues like misalignment, buckling, non-uniform gripping and non-uniform stress distribution. These issues can intensify during fatigue testing, especially at higher load levels. The data available in the literature on the compressive response of unidirectional fibre reinforced composites is scarce. Many researchers have attempted designing a standard testing fixture for compressive testing of the fibre reinforced polymers (FRPs). Two most common fixtures are Boeing-modified ASTM D695 end loading fixture and ASTM D6641 combined loading compression (CLC) fixture. However, these fixtures are only feasible for compressive testing of the rectangular composite laminates. There is no standard fixture for compressive testing of cylindrical pultruded composites. This paper presents a methodology for testing the compressive strength of pultruded cylindrical composites. A fixture is designed and fabricated to conduct the tests. Different misalignment, gripping and stress concentration issues that could occur during the compression testing are addressed and a corresponding solution is provided. Unidirectional (UD) carbon/epoxy pultruded rods are used as test specimens. The test data of 21 specimens is presented and the failure modes are analysed using scanning electron microscope (SEM) images. © The Author(s) 2022.","compressive strength; pultrusion; testing fixture; Unidirectional composites","Alignment; Compression testing; Fatigue testing; Fiber reinforced plastics; Fibers; Fixtures (tooling); Laminated composites; Pultrusion; Scanning electron microscopy; Stress concentration; Axial strength; Compressive testing; Fibre orientation; High load; Load levels; Non-uniform; Nonuniform stress distribution; Pultruded composites; Testing fixture; Unidirectional composites; Compressive strength",,,,,"Department of Science and Technology, Ministry of Science and Technology, India, डीएसटी: RD/0118-DST0000-028","The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This study was conducted as a part of a project funded by Department of Science and Technology, Government of India (Project Code No. RD/0118-DST0000-028).",,,,,,,,,,"Soutis, C., Compression testing of pultruded carbon fibre-epoxy cylindrical rods (2000) J Mater Sci, 35, pp. 3441-3446; Ku, H., Wang, H., Pattarachaiyakoop, N., A review on the tensile properties of natural fiber reinforced polymer composites (2011) Compos B Eng, 42, pp. 856-873; Tran, P., Wu, C., Saleh, M., Composite structures subjected to underwater explosive loadings: A comprehensive review (2021) Compos Struct, 263, p. 113684; Narsai, M., Adali, S., Veale, K., Composite tube testing and failure theory computational comparison (2018) Compos Tube Test Fail Theory Comput Comp, 34, pp. 37-43; Schultheisz, C.R., Waas, A.M., Compressive failure of composites, Part I: testing and micromechanical theories Prog Aerospace Sci, 32. , Epub ahead of print 1996; Waas, A.M., Schultheisz, C.R., Compressive failure of composites, Part II: Experimental studies (1996) Prog Aerosp Sci, 32, pp. 43-78; Baumann, A., Hausmann, J., Compression fatigue testing setups for composites—a review Adv Eng Mater, 23. , Epub ahead of print 2021; Budiansky, B., Fleck, N.A., Compressive failure of fibre composites (1993) J Mech Phys Sol, 41, pp. 183-211; Bai, J., Phoenix, S.L., Compressive failure model for fiber composites by kink band initiation from obliquely aligned, shear-dislocated fiber breaks (2005) Int J Sol Struct, 42, pp. 2089-2128; Hsu, S.Y., Vogler, T.J., Kyriakides, S., On the axial propagation of kink bands in fiber composites : Part ii analysis (1999) Int J Sol Struct, 36, pp. 575-595; Yerramalli, C.S., Waas, A.M., A nondimensional number to classify composite compressive failure (2004) J Appl Mech Trans ASME, 71, pp. 402-408; Garland, B.D., Beyerlein, I.J., Schadler, L.S., The development of compression damage zones in fibrous composites (2001) Compos Sci Technol, 61, pp. 2461-2480; Narayanan, S., Schadler, L.S., Mechanisms of kink-band formation in graphite/epoxy composites: A micromechanical experimental study (1999) Compos Sci Technol, 59, pp. 2201-2213; Shioya, M., Nakatani, M., Compressive strengths of single carbon fibres and composite strands (2000) Compos Sci Technol, 60, pp. 219-229; Chaudhuri, R.A., Xie, M., Garala, H.J., Stress singularity due to kink band weakening a unidirectional composite under compression (1996) J Compos Mater, 30 (6), pp. 672-691; Steif, P.S., A model for kinking in fiber composites-I. Fiber breakage via micro-buckling (1990) Int J Sol Struct, 26, pp. 549-561; Lee, J., Soutis, C., Measuring the notched compressive strength of composite laminates: Specimen size effects (2008) Compos Sci Technol, 68, pp. 2359-2366; Kar, N.K., Hu, Y., Ahn, B., Diametral compression of pultruded composite rods (2012) Compos Sci Technol, 72, pp. 1283-1290; Rojek, J., Joannès, S., Teissèdre, J.C., Effect of through-thickness compressive stress and porosity on the tensile strength of carbon-fibre reinforced composites, , ICCM International Conference on Composite Materials, Melbourne, Australia, 2019-August, In; Kore, S., Theodore, M., Pillai, R., Improvement of interfacial adhesion of unidirectional textile grade carbon fiber (TCF) with unsized, epoxy and urethane sizing reinforced in thermoset urethane composites (2021) Mater Today Commun, 28, p. 102669; Yerramalli, C.S., Waas, A.M., A failure criterion for fiber reinforced polymer composites under combined compression–torsion loading (2003) Int J Sol Struct, 40, pp. 1139-1164; Yerramalli, C.S., Waas, A.M., In situ matrix shear response using torsional test data of fiber reinforced unidirectional polymer composites (2002) J Eng Mater Technol, 124, pp. 152-159; Vankar, S.R., Yerramalli, C.S., (2019) Kinking mechanics in composites under combined loading, pp. 11-16th. , Proceedings of the Twenty-second International Conferences on Composite Materials (ICCM22), Melbourne, Australia, August, In; Berg, C.A., Salama, M., Fatigue of graphite fibre-reinforced epoxy in compression (1973) Fibre Sci Technol, 6, pp. 79-118; Grimes, G.C., Experimental study of compression- compression fatigue of graphite/epoxy composites (1981) ASTM STP29316S, pp. 281-337. , Washington DC, ASTM; Adams, D.F., Finley, G.A., Analysis of thickness-tapered unidirectional composite compression specimens (1997) J Compos Mater, 31, pp. 2283-2308; Bech, J.I., Goutianos, S., Andersen, T.L., A new static and fatigue compression test method for composites (2011) Strain, 47, pp. 21-28; Harper, J.F., Miller, N.A., Yap, S.C., Problems associated with the compression testing of fibre reinforced plastic composites (1993) Polym Test, 12, pp. 15-29; Milette, J.-F., Shokrieh, M., Lessard, L., (1995) Static and fatigue behaviour of unidirectional composites in compression, , ICCM-10, Proceedings of the Tenth International Conference on Composite Materials, T. 1: Fatigue and Fracture, Whistler, Canada, 14–18 August 1995, Cambridge, UK, Woodhead, In; Berbinau, P., Soutis, C., Guz, I.A., Compressive failure of 0° unidirectional carbon-fibre-reinforced plastic (CFRP) laminates by fibre microbuckling (1999) Compos Sci Technol, 59, pp. 1451-1455; Baumann, A., Hausmann, J., Experimental investigation of instabilities on different scales in compressive fatigue testing of composites J Compos Sci, 5. , Epub ahead of print 2021; Vankar, S.R., Kaore, A., Yerramalli, C.S., Combined compression-torsion fatigue failure of unidirectional carbon fiber reinforced composites (2021) MECHCOMP7, Failure of Composites, p. 127. , ■■■, ■■■, In:, :, p","Yerramalli, C.S.; Aerospace Engineering, India; email: chandra@aero.iitb.ac.in",,,"SAGE Publications Ltd",,,,,07316844,,JRPCD,,"English","J Reinf Plast Compos",Article,"Article in Press","",Scopus,2-s2.0-85139995177
"Vaishya R., Sharma V., Gupta A., Pathania J., Oza A., Dixit A.K., Bhole K.S., Makwana M., Patel A.","56964854100;57195236486;57221012452;57880734900;57205608034;57826049400;55485785300;57827464700;55449675600;","Finite element modeling of quartz material for analyzing material removal rate in ECDM process",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,5,"10.1007/s12008-022-01037-2","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137589640&doi=10.1007%2fs12008-022-01037-2&partnerID=40&md5=c96fc9b902ec18af5052950ac64c3394","Department of Production and Industrial Engineering, Punjab Engineering College, Chandigarh, 160012, India; KIET Group of Institutions, U.P., Ghaziabad, 201206, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, Gujarat, Gandhinagar, 382426, India; Division of Research and Innovation, Uttaranchal University, Uttarakhand, Dehradun, 248007, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; A.D. Patel Institute of Technology, Gujarat, New V. V. Nagar, Anand, 388121, India; Department of Mathematics, Institute of Technology, Nirma University, Gujarat, Ahmedabad, 382481, India","Vaishya, R., Department of Production and Industrial Engineering, Punjab Engineering College, Chandigarh, 160012, India; Sharma, V., Department of Production and Industrial Engineering, Punjab Engineering College, Chandigarh, 160012, India; Gupta, A., KIET Group of Institutions, U.P., Ghaziabad, 201206, India; Pathania, J., Department of Production and Industrial Engineering, Punjab Engineering College, Chandigarh, 160012, India; Oza, A., Department of Computer Sciences and Engineering, Institute of Advanced Research, Gujarat, Gandhinagar, 382426, India; Dixit, A.K., Division of Research and Innovation, Uttaranchal University, Uttarakhand, Dehradun, 248007, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Makwana, M., A.D. Patel Institute of Technology, Gujarat, New V. V. Nagar, Anand, 388121, India; Patel, A., Department of Mathematics, Institute of Technology, Nirma University, Gujarat, Ahmedabad, 382481, India","A hybrid technique called spark assisted chemical engraving (SACE), also known as electro chemical discharge machining (ECDM) or electrochemical anode machining (ECAM), is used to efficiently and affordably miniaturise parts made of various non-conducting materials. In the micro-machining of these materials, ECDM has a wide range of applications in the nuclear, automotive, medical, etc. industries. ECAM is a hybrid method that combines the ability to remove material from electrochemical machining (ECM) and electro discharge machining (EDM) (EDM). The analysis of the material loss rate using finite element models is not widely studied (MRR). Testing is done to verify the FEA model and evaluate it against earlier research. The MRR was found to be 16.66% greater when simulated and contrasted to previous research results. It was also observed that existing experimental results error is larger in magnitude by 16.66% than experimental results error by 4.16% spark region is 400 microns by high speed camera. Furthermore, the temperature distribution has also analyzed. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Chemical etching; ECDM; FEA-modeling; Gaussian heat generation; Heat affected zone; MRR","Chemical analysis; Electric discharge machining; Electric discharges; Etching; Finite element method; High speed cameras; Hybrid materials; Micromachining; Chemical etching; Electro chemical discharge machining; Electro discharge machining; Electrochemical anodes; Element models; FEA modeling; Gaussian heat generation; Gaussians; Heat-affected zones; MRR; Heat affected zone",,,,,,,,,,,,,,,,"Dam, H., Quist, P., Schreiber, M.P., Productivity surface quality and tolerances in ultrasonic machining of ceramics (1995) J. Mater. Process. Technol., 51, pp. 358-368; Zhang, J.H., Lee, T.C., Lau, W.S., Study on the electro-discharge machining of a hot-pressed aluminum oxide-based ceramic (1997) J. Mater. Process. Technol., 63, pp. 908-912; Kumar, M., Vaishya, R.O., Suri, N.M., An experimental investigation of surface characterization for zirconia ceramic using electrochemical discharge machining process (2021) Arab. J. Sci. Eng, 46, pp. 2269-2281; Hickling, A., Ingram, M.D., Glow discharge electrolysis (1964) J. Electroanal. Chem., 8, p. 65; Kurafuji, H., Suda, K., Electrical discharge drilling of glass (1968) Ann. CIRP, 16, pp. 415-419; Bhonwe, K.L., Yadava, V., Kathiresan, G., Finite element prediction of material removal rate due to electrochemical spark machining (2006) Int. J. Mach. Tool Manuf., 46, pp. 1699-1706; Basak, I., Ghosh, A., Mechanism of spark generation during electrochemical discharge machining: a theoretical model and experimental verification (1996) J. Mater. Process Technol., 62, pp. 46-53; Paul, L., Libin V Korah effect of power source in ECDM process with FEM modeling (2016) Procedia Technol., 25, pp. 1175-1181; Goud, M., Sharma, A.K., A three-dimensional finite element simulation approach to analyze material removal in electrochemical discharge machining (2016) Proc. Inst. Mech. Eng. Part C J. Mech. Eng. Sci.; Panda, M.C., Yadava, V., Finite element prediction of material removal rate due to traveling wire electrochemical spark machining (2009) Int. J. Adv. Manuf. Technol., 45, pp. 506-520; Venkatesan, S.P., (2004) First course in heat transfer, , Ane Books, New Delhi; Goud, M., Sharma, A.K., A three-dimensional finite element simulation approach to analyze material removal in electrochemical discharge machining (2017) Proc. IMechE Part C J. Mech. Eng. Sci., 231 (13), pp. 2417-2428","Oza, A.; Department of Computer Sciences and Engineering, Gujarat, India; email: ankit.oza@iar.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85137589640
"Patil A.S., Sunnapwar V.K., Bhole K.S., Oza A.D., Shinde S.M., Ramesh R.","57193512391;6504099005;55485785300;57205608034;56539425300;56723617600;","Effective machining parameter selection through fuzzy AHP-TOPSIS for 3D finish milling of Ti6Al4V",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,2,"10.1007/s12008-022-00993-z","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137519453&doi=10.1007%2fs12008-022-00993-z&partnerID=40&md5=833ce213ece8fdfed1ce81ae199f3417","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Kopar Khairane, Navi Mumbai, 400709, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhra Pradesh, Tirupathi, 517102, India","Patil, A.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Sunnapwar, V.K., Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Kopar Khairane, Navi Mumbai, 400709, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Shinde, S.M., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, 400708, India; Ramesh, R., Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhra Pradesh, Tirupathi, 517102, India","Ti6Al4V is a Hard-to-Shear material in the Automobile, Aerospace, Marine, and Biomedical implant industries. The difficulties in the shearing arise from metallurgical phase alterations under insufficient lubrication and cooling during Ti6Al4V machining. This article wisely investigated 3D finish milling using different Computer-Aided Machining (CAM) strategies with cooling approaches followed by Taguchi Design of Experiments. The performance was evaluated in terms of Surface integrity, Flank, and Crater wear. The Fuzzy Analytic Hierarchy Process establishes the weights by extent analysis, and furthermore, Technique for Order of Preference by Similarity to Ideal Solution decides the optimum levels of process parameters. The optimized process parameters like Cutting speed (40 m/min), Axial Depth of Cut (0.3 mm), and Feed rate (101.92 mm/min) with Graphene Oxide Nanoparticles + 15% concentrated wet lubrication (Hybrid Flood Coolant) are applied through the Streamline CAM strategy with PVD-TiAlN coated cutting tool. These yielded process parameters exhibit excellent performance in finish milling than the other combinations of parameters. Analysis of Variance evaluates the influences of process parameters on experimental performances. Finally, optimized process parameters were applied to 3D milling of Ti6Al4V bracket through Streamline CAM strategy, which sequels the lower Crater and Flank wear with 0.132 microns surface integrity. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","CAM strategy; Finish milling; Fuzzy AHP-TOPSIS; Hybrid flood coolant; PVD-TiAlN; Ti6Al4V","Aluminum alloys; Analysis of variance (ANOVA); Coolants; Cutting tools; Design of experiments; Floods; Graphene; Hierarchical systems; Milling (machining); Wear of materials; Computer aided machining; Computer-aided machining strategy; Finish milling; Fuzzy AHP; Fuzzy AHP-TOPSIS; Hybrid flood coolant; Machining strategy; Performance; Process parameters; PVD-TiAlN; Ternary alloys",,,,,,,,,,,,,,,,"Arrazola, P.-J., Garay, A., Iriarte, L.-M., Armendia, M., Marya, S., Le Maître, F., Machinability of titanium alloys (Ti6Al4V and Ti555.3) (2009) J. Mater. Process. Technol., 209 (5), pp. 2223-2230; Leigh, E., Tlusty, J., Schueller, J., Smith, S., Advanced machining techniques on titanium rotor parts. Am. Helicopter Soc (2000) 56th Annual Forum Proceedings-American Helicopter Society, Virginia Beach, Virginia, pp. 1-20; Veiga, C., Davim, J.P., Loureiro, A.J.R., Review on machinability of titanium alloys: the process perspective (2013) Rev. Adv. Mater. Sci., 34 (2), pp. 148-164; Polishetty, A., Goldberg, M., Littlefair, G., Puttaraju, M., Patil, P., Kalra, A., A preliminary assessment of machinability of titanium alloy Ti 6Al 4V during thin wall machining using trochoidal milling (2014) Procedia Eng., 97 (December), pp. 357-364; Pramanik, A., Littlefair, G., Machining of titanium alloy (Ti-6Al-4V)-theory to application (2015) Mach. Sci. Technol., 19 (1), pp. 1-49; Pervaiz, S., Rashid, A., Deiab, I., Nicolescu, M., Influence of tool materials on machinability of titanium- and nickel-based alloys: a review (2014) Mater. Manuf. Process., 29 (3), pp. 219-252; Ramesh, S., Karunamoorthy, L., Senthilkumar, V.S., Palanikumar, K., Experimental study on machining of titanium alloy (Ti64) by CVD and PVD coated carbide inserts (2009) Int. J. Manuf. Technol. Manag., 17 (4), pp. 373-385; Roy, S., Kumar, R., Sahoo, A.K., Das, R.K., A brief review on machining of Ti-6Al-4V under different cooling environments (2018) IOP Conf. Ser. Mater. Sci. Eng., 455 (1), pp. 1-9; Xu, J., Rong, B., Zhang, H.Z., Wang, D.S., Li, L., Investigation of cutting force in high feed milling of Ti6Al4V (2014) Mater. Sci. Forum., 770, pp. 106-109; Altaf, M., Prakash Dwivedi, S., Shamsh Kanwar, R., Ahmad Siddiqui, I., Sagar, P., Ahmad, S., Machining characteristics of titanium Ti-6Al-4V, inconel 718 and tool steel-A critical review (2019) IOP Conf. Ser. Mater. Sci. 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Technol., 107 (9-10), pp. 4141-4157; Davis, R., Singh, A., Sabino, R.M., Pereira, R.B.D., Popat, K., Soares, P., Jackson, M.J., Performance Investigation of Cryo-treated End Mill on the Mechanical and in vitro behavior of Hybrid-lubri-coolant-milled Ti-6Al-4V alloy (2021) J. Manuf. Process., 71 (April), pp. 472-488; Li, G., Yi, S., Li, N., Pan, W., Wen, C., Ding, S., Quantitative analysis of cooling and lubricating effects of graphene oxide nanofluids in machining titanium alloy Ti6Al4V (2019) J. Mater. Process. 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Today Proc., 5 (11), pp. 24578-24586; Palani, I.A., Sathiya, P., Palanisamy, D., (2022) Recent advances in materials and modern manufacturing: select proceedings of ICAMMM 2021, , (eds), Springer Nature Singapore, Singapore; Ramesh Raju, N., Manikandan, D., Palanisamy, D., Arulkirubakaran, J.S., Binoj, P., Thejasree, C.A., A review of challenges and opportunities in additive manufacturing (2022) Recent advances in materials and modern manufacturing: select proceedings of ICAMMM 2021, pp. 23-29. , Palani IA, Sathiya P, Palanisamy D, (eds), Springer Nature Singapore, Singapore; Thirugnanasambantham, K.G., Agnal Francis, R., Ramesh, A.M., Reddy, M.K., Investigation of erosion mechanisms on IN-718 based turbine blades under water jet conditions (2022) Int. J. Interact. Des. Manuf. (IJIDeM)","Patil, A.S.; Department of Mechanical Engineering, India; email: amitpatil36@hotmail.com",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85137519453
"Oak S., Belwanshi V., Rane K., Bhole K., Kale B.","57849276000;57105631700;57850225400;55485785300;57194765857;","Comparison of binary, ternary and quaternary shape memory alloys and techniques to enhance their mechanical properties: A focused review",2022,"Materials Today: Proceedings","68",,,"2199","2209",,,"10.1016/j.matpr.2022.08.433","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137397703&doi=10.1016%2fj.matpr.2022.08.433&partnerID=40&md5=8d9479c6499fbd3b20dc3f69650cabfe","Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; School of Physics and Astronomy, University of Glasgow, Scotland, Glasgow, G128QQ, United Kingdom; National Manufacturing Institute, Scotland, Glasgow, PA49PA, United Kingdom; Datta Meghe College of Engineering, Navi Mumbai, 400708, India","Oak, S., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Belwanshi, V., School of Physics and Astronomy, University of Glasgow, Scotland, Glasgow, G128QQ, United Kingdom; Rane, K., National Manufacturing Institute, Scotland, Glasgow, PA49PA, United Kingdom; Bhole, K., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Kale, B., Datta Meghe College of Engineering, Navi Mumbai, 400708, India","Shape memory alloys (SMAs) are smart materials having an ability to remember the original shape when deformed at the temperatures below martensite finish (Mf), which can be recovered up to certain extent by heating these alloys to temperatures above austenite finish (Af). SMAs find wide applicability in engineering sectors including automotive, aerospace, and biomedical. Prior to fabrication of any sensors and actuators using SMA, it is recommended to have an extensive simulation study that requires material properties as a prime input to the software. Scattered literature on SMA's material properties make this challenging for new researchers. This paper presents a review of binary, ternary and quaternary alloys exhibit shape memory effect and their comparison in terms of transformation temperatures and mechanical properties. It also comments on effects in their properties due to addition of ternary and quaternary elements. Impact of thermomechanical treatments to enhance the mechanical properties and shape recovery characteristics of SMAs is reviewed. The study concludes with signifying the use of processing techniques in enhancing mechanical properties of SMAs for their utilization in possible sensing applications. © 2022","Mechanical properties; Shape memory alloys; Shape recovery; Thermomechanical treatments; Transformation temperatures","Binary alloys; Computer software; Shape memory effect; Shape optimization; Thermomechanical treatment; Automotives; Engineering sectors; Extensive simulations; Property; Quaternary alloys; Sensors and actuators; Shape recovery; Shape-memory effect; Simulation studies; Transformation temperatures; Recovery",,,,,,,,,,,,,,,,"Abedini, M., Ghasemi, H.M., Nili Ahmadabadi, M., Mahmudi, R., Effect of phase transformation on the wear behavior of NiTi alloy (2010) J. Eng. Mater. Technol. Trans. 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Proc., 12, pp. 1-8; Xia, M., Liu, P., Sun, Q., Grain size dependence of Young's modulus and hardness for nanocrystalline NiTi shape memory alloy (2018) Mater. Lett., 211, pp. 352-355; Costanza, R., Girolamo, Elisa Maria, T., Libertini, Effect of temperature on Mechanical Behaviour on NiTi Memory Sheets (2016) in TMS2016 Annual Meeting Supplemental Proceedings, pp. 433-439; Kotnur, V.G., Tichelaar, F.D., Fu, W.T., De Hosson, J.T.M., Janssen, G.C.A.M., Shape memory NiTi thin films deposited on polyimide at low temperature (2014) Surf. Coatings Technol., 258, pp. 1145-1151; Jiang, X., Jiang, D., Zheng, Y., Cui, L., Transformation behavior of explosively welded TiNi/TiNi laminate after diffusion annealing and aging (2013) Mater. Res. Bull., 48 (12), pp. 5033-5035; Grolleau, V., Assessment of tension-compression asymmetry of NiTi using circular bulge testing of thin plates (2011) Scr. 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Mater., 1 (3), pp. 269-273; Yi, X., Tailoring the microstructure, martensitic transformation and strain recovery characteristics of Ti-Ta shape memory alloys by changing Hf content (2021) J. Mater. Sci. Technol., 83, pp. 123-130; Ramaiah, K.V., Saikrishna, C.N., Gouthama, and S. K. Bhaumik, Ni24.7Ti50.3Pd25.0 high temperature shape memory alloy with narrow thermal hysteresis and high thermal stability (2014) Mater. Des., 56, pp. 78-83; Yang, Z.Y., Zheng, X.H., Wu, Y., Cai, W., Martensitic transformation and shape memory behavior of Ti-V-Al-Fe lightweight shape memory alloys (2016) J. Alloys Compd., 680, pp. 462-466","Oak, S.; Sardar Patel College of Engineering, Andheri, India",,,"Elsevier Ltd",,,,,22147853,,,,"English","Mater. Today Proc.",Article,"Final","",Scopus,2-s2.0-85137397703
"Kale B.S., Bhole K.S., Dhongadi H., Oak S., Deshmukh P., Oza A., Ramesh R.","57194765857;55485785300;57873403100;57849276000;57218315306;57205608034;56723617600;","Effect of polygonal surfaces on development of viscous fingering in lifting plate Hele-Shaw cell",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,1,"10.1007/s12008-022-01030-9","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137211245&doi=10.1007%2fs12008-022-01030-9&partnerID=40&md5=c083e45a46473b3bbafffde2dbc870fc","Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi, Mumbai, 400708, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Department of Mechanical Engineering, New Horizon Institute of Technology & Management, Thane, 400615, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhra Pradesh, Tirupathi, 517102, India","Kale, B.S., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi, Mumbai, 400708, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Dhongadi, H., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Oak, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Deshmukh, P., Department of Mechanical Engineering, New Horizon Institute of Technology & Management, Thane, 400615, India; Oza, A., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Ramesh, R., Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhra Pradesh, Tirupathi, 517102, India","Bio-mimicking is the process of mimicking the various patterns, models, and systems of nature to take inspiration and solve human problems. The fractal-like patterns are seen in the leaves, tree branches, veins and arteries of the human body, etc. Imitation of these structures is a complex process. This can be achieved using lifting plate Hele-Shaw cell (LPHSC). In LPHSC, non-Newtonian fluid is placed between the two flat plates separated by a minimal distance. The lower plate is kept fixed, and the upper plate is lifted precisely. This leads to the formation of Saffman-Taylor instability or uncontrolled viscous fingering. When a low viscous fluid interacts with high viscous fluid, it tries to displace high viscous fluid, resulting in fractal-like structures. This paper investigates fractal formation in Hele-Shaw cell on different polygonal surfaces such as triangular, square, pentagonal, and hexagonal plates. The authors studied the effect of the sides and corners of the polygons and controlled the instabilities using a gap between plates and the lifting velocity of the upper plate. The entire process of fractal formation is simulated in ANSYS software, and experimental and simulated results hold good agreement. This proposed method will be used to fabricate microstructures. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","ANSYS fluent; Lifting plate Hele-Shaw cell; Non-Newtonian Bingham plastic fluid; Polygonal surfaces; Saffman-Taylor instability; Viscous fingering","Cells; Cytology; Fractals; Non Newtonian flow; Non Newtonian liquids; Plates (structural components); Viscosity; ANSYS fluent; Bingham plastic fluids; Fluents; Hele-Shaw cells; Lifting plate hele-shaw cell; Non-newtonian; Non-newtonian bingham plastic fluid; Polygonal surface; Saffman-Taylor instability; Viscous fingering; Viscous flow",,,,,"Science and Engineering Research Board, SERB: CRG/2021/000747","The authors acknowledge support for this work by the Science and Engineering Research Board (SERB), Government of India through Project Grant CRG/2021/000747.",,,,,,,,,,"Pence, D., Reduced pumping power and wall temperature in microchannel heat sinks with fractal-like branching channel networks (2003) Microscale. 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Technol., 30, pp. 1-20; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon focused gaussian laser exposure (2014) J. Appl. Phys., 116 (4), p. 043105; Gandhi, P., Bhole, K., Characterization of ""bulk lithography"" process for fabrication of three-dimensional microstructures (2013) J. Micro Nano-Manufact., 1 (4), p. 5461; Gandhi, P., Bhole, K.: 3D microfabrication using bulk lithography (2011) ASME International Mechanical Engineering Congress and Exposition. Denver, Colorado, USA Nov. 54976, Pp. 393–399; Gandhi, P., Kamble, S., Bhole, K., Novel fabrication and characterisation of diaphragm micromirror using bulk lithography (2012) In: ASME International Mechanical Engineering Congress and Exposition, Houston, Texas, USA Nov, pp. 549-554. , https://doi.org/10.1115/IMECE2012-87745; Gandhi, P., Chaudhari, N., Bhole, K., : Fabrication of textured 3D microstructures using Bulk lithography (2012) ASME International Manufacturing Science and Engineering Conference, MSEC Notre Dame, USA June 4–8, pp. 959-964. , https://doi.org/10.1115/MSEC2012-7357; Bhole, K.S., Gandhi, P.S., Kundu, T., Characterization of cured width under wide range of gaussian laser exposure for bulk lithography (2014) Procedia Materials Science., 5, pp. 2487-2492; Bhole, K., Ekshinge, S., Gandhi, P., Fabrication of continuously varying thickness micro-cantilever using bulk lithography process (2014) International Manufacturing Science and Engineering Conference, 45806. , https://doi.org/10.1115/MSEC2014-4041, American Society of Mechanical Engineers; Shewale, J.J., Bhole, K.S., 3D polymer microneedle array: Fabrication and analysis (2015) International Conference on Nascent Technologies in the Engineering Field (ICNTE), pp. 1-6. , https://doi.org/10.1109/ICNTE.2015.7029915, IEEE; Raju, R., Manikandan, N., Palanisamy, D., Arulkirubakaran, D., Binoj, J.S., Thejasree, P., Ahilan, C., A review of challenges and opportunities in additive manufacturing (2022) Recent Advances in Materials and Modern Manufacturing, , Palani IA, Sathiya P, Palanisamy D, (eds), Lecture Notes Mechanical Engineering Springer, Singapore; Varma, M.M.M.K., Baghel, P.K., Raju, R., Additive manufacturing of thermosetting resins In-Situ Carbon Fibers: a review (2022) Recent Advances in Materials and Modern Manufacturing, , Palani IA, Sathiya P, Palanisamy D, (eds), Lecture Notes Mechanical Engineering Springer, Singapore; Thirugnanasambantham, K.G., Francis, A., Ramesh, R., Aravind, M., Reddy, M.K., Investigation of erosion mechanisms on IN-718 based turbine blades under water jet conditions (2022) Int. J. Interact Design Manufact.; Saffman, P.G., Viscous fingering in Hele-Shaw cells (1986) J. Fluid Mech., 173, pp. 73-94; Taylor, G., Saffman, P.G., A note on the motion of bubbles in a Hele-Shaw cell and porous medium (1959) Quarterly J. Mech. Appl. Math., 12 (3), pp. 265-279; Choudhury, M.D., Tarafdar, S., Fingering instability in non-Newtonian fluids during squeeze flow in a Hele-Shaw cell (2015) Indian J. Phys., 89 (5), pp. 471-477; Pouplard, A., Tsai, P.A., Manipulating viscous fingering of complex fluids (2021) Bull. Am. Phys. Soc., 66 (17); Chen, C., Huang, C., Wang, L., Controlling radial fingering patterns in miscible confined flows (2010) Phys. Rev. E, 82; Kale, B.S., Bhole, K., Parametric Analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell In IOP Conference Series: Materials Science and Engineering, 577 (1). , IOP Publishing, November 2019; Shuwang, L., Lowengrub, J., Fontana, J., Muhoray, P.P., Control of viscous fingering patterns in a radial Hele-Shaw Cell (2009) Phys. Rev. E., 102 (17), p. 174501; Dias, E.O., Parisio, F., Miranda, J.A., Suppression of viscous fluid fingering: A piecewise-constant injection process (2010) Phys. Rev. E., 82 (6), p. 067301; Kale, B.S., Bhole, K., Controlling the instabilities in the radial Hele-Shaw cell (2020) Int. J. Theoret Appl. Multiscale Mech., 3 (3), pp. 245-260; Bhole, K.S., Kale, B., Sublimation technique for minimisation of stiction induced during fabrication of closely spaced microstructures (2022) Adv. Mater. Process. Technol.; Kale, B.S., Bhole, K., Sharma, C., Effect of anisotropies in formation of viscous fingering in lifting plate Hele-Shaw cell (2021) Adv. Mater. Process. Technol.; Devkare, S.S., Bhole, K.S., Kale, B.S., Sharma, C., Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell (2020) Mater. Today: Proc., 28, pp. 1920-1926; Islam, T.U., Gandhi, P.S., Viscous fingering in multiport Hele shaw cell for controlled shaping of fluids (2017) Sci. Rep., 7 (1), pp. 1-9; Kabiraj, S.K., Tarafdar, S., Finger velocities in the lifting Hele Shaw cell (2003) Phys. A: Statist. Mech. Appl., 328, pp. 3-4; Holloway, K.E., De Bruyn, J.R., Viscous fingering with a single fluid (2005) Can. J. Phys., 83 (5), pp. 551-564; Lindner, A., Bonn, D., Amar, M.B., Meunier, J., Kellay, H., Controlling viscous fingering (1999) Euro Phys. 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Technol., 29 (3), pp. 1486-14874","Oza, A.; Department of Computer Sciences and Engineering, Gujarat, India; email: ankit.oza@iar.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85137211245
"Kasambe P.V., Bhole K.S., Raykar N.R., Oza A.D., Ramesh R., Bhoir D.V.","56539919200;55485785300;19934528100;57205608034;56723617600;36917814700;","Mechanical modeling, numerical investigation and design of cantilever beam for low pull-in MEMS switch",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,1,"10.1007/s12008-022-01024-7","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85137028270&doi=10.1007%2fs12008-022-01024-7&partnerID=40&md5=a604104f848611b67d6104e9c7be1188","Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandra, Mumbai, 400050, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Mechanical Engineering, Sree Vidyanikethan Engineering College, Tirupati, India","Kasambe, P.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandra, Mumbai, 400050, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Raykar, N.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Ramesh, R., Department of Mechanical Engineering, Sree Vidyanikethan Engineering College, Tirupati, India; Bhoir, D.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandra, Mumbai, 400050, India","The pull-in voltage of an electrostatically actuated cantilever-based series type MEMS switch suitable as a switching device in several applications can be lowered by reducing its cantilever beam stiffness constant (k). However, it is a challenging task to lower the pull-in voltage without adversely affecting its mechanical performance parameters like stiffness constant (k), resonance frequency (f0), and stress (σ) while meeting manufacturing constraints. Therefore, the design objective of this study is to address by appropriately selecting the cantilever beam profile and its geometric dimensions. cantilever beam profile and its geometric dimensions appropriately. These design objectives are further identified as highly interdisciplinary, involving identifying design variables and advanced modeling of design and manufacturing issues. This work focuses on developing a mechanical (analytical) model of the performance parameters of the cantilever beam based on its profile, properties of materials used for its manufacturing, and dimensions of the geometric variables. The investigation is done through design optimization methodology, which comprises preliminary approximating geometrical dimensions using mechanical modeling, and subsequently fixing these dimensions using 3D modeling and FEM analysis. It is concluded that the unconventional single-step variable-width cantilever beam design is the most suitable design for the low pull-in potential of 11.20 V with performance parameters like k, f0 and σ as 2.18 N/m, 15.84 kHz and 14.8 MPa, respectively. Furthermore, the methodological steps adopted in this work can address the challenges of MEMS design and manufacturing for any chosen application. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Electrostatic actuation; FEM; Low pull-in; Mechanical modeling; Ohmic switch; Resonance frequency; RF MEMS switch; Stiffness constant; Variable width cantilever","3D modeling; Cantilever beams; Design; Electric switches; Electrostatic actuators; Geometry; Manufacture; Nanocantilevers; Natural frequencies; Stiffness; Electrostatic actuation; Low pull-in; Mechanical modeling; Ohmic switch; Pull-in; Resonance frequencies; RF-MEMS switches; Stiffness constants; Variable width; Variable width cantilever; Finite element method",,,,,,,,,,,,,,,,"Bhole, K., Ekshinge, S., Gandhi, P., Fabrication of continuously varying thickness micro-cantilever using bulk lithography process In: International Manufacturing Science and Engineering Conference, 45806. , V001T01A009. American Society of Mechanical Engineers (2014); Raju, R., Manikandan, N., Palanisamy, D., Arulkirubakaran, D., Binoj, J.S., Thejasree, P., Ahilan, C., A review of challenges and opportunities in additive manufacturing (2022) Recent Adv. Mater. Mod. Manuf., 1, pp. 23-29; Varma, M., Baghel, P.K., Raju, R., Additive manufacturing of thermosetting resins in-situ carbon fibers: a review (2022) Recent Adv. Mater. Mod. Manuf., 1, pp. 97-105; Thirugnanasambantham, K.G., Francis, A., Ramesh, R., Reddy, M.K., Investigation of erosion mechanisms on IN-718 based turbine blades under water jet conditions (2022) Int. J. Interact. Des. Manuf. (IJIDeM), 1, pp. 1-6; Rebeiz, G.M., Muldavin, J.B., RF MEMS switches and switch circuits (2001) IEEE Microw. Mag., 2 (4), pp. 59-71; Jaafar, H., Beh, K., Yunus, N.A.M., Hasan, W.Z.W., Shafie, S., Sidek, O., A comprehensive study on RF MEMS switch (2014) Microsyst. Technol., 20 (12), pp. 2109-2121; Lysenko, I.E., Tkachenko, A.V., Ezhova, O.A., Konoplev, B.G., Ryndin, E.A., Sherova, E.V., The mechanical effects influencing on the design of RF MEMS switches (2020) Electron. MDPI, 9 (2), p. 207; Rahman, H.U., Ramer, R., Experimental considerations for fabrication of RF MEMS switch (2010) 2Nd Asia Symposium on Quality Electronic Design (ASQED), pp. 49-55; Han, L., Xiao, S., The study of a high-isolation single-pole-double-throw RF MEMS switch (2018) Mod. Phys. Lett. B, 32 (30), p. 1850362; Zhang, W.M., Meng, G., Chen, D., Stability, nonlinearity and reliability of electrostatically actuated MEMS devices (2007) Sensors, 7 (5), pp. 760-796; Singh, T., Rangra, K.J., Compact low-loss high-performance single-pole six-throw RF MEMS switch design and modeling for DC to 6 GHz (2015) Microsyst. Technol., 21 (11), pp. 2387-2396; De Rosa, M., Franciosi, C., The optimized Rayleigh method and mathematical vibrations and buckling problems (1996) J. Sound Vib., 191 (5), pp. 795-808; Angira, M., Rangra, K., A novel design for low insertion loss, multi-band RF-MEMS switch with low pull-in voltage (2016) Eng. Sci. Technol. Int. J., 19 (1), pp. 171-177; Rahman, H.U., Chan, K., Ramer, R., Cantilever beam designs for RF MEMS switches (2010) J. Micromech. Microeng., 20 (7); Zhu, J., Yao, K., Dong, X., Huang, Q., Liu, R., Pull-in behavior of electrostatically actuated stepped microbeams (2018) Int. J. Mod. Phys. B, 32 (15), p. 1850180; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Design and Simulation of High SNR Varying Thickness Embedded Strain Sensing Polymer Microcantilever for Biosensing Application (2018) ASME 2018 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, pp. 1-7; Parsediya, D.K., Singh, J., Kankar, P.K., Variable width based stepped MEMS cantilevers for micro or pico level biosensing and effective switching (2015) J. Mech. Sci. 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Technol., 1, pp. 1-8; Rao, K.S., Chand, C.G., Sravani, K.G., Prathyusha, D., Naveena, P., Lakshmi, G.S., Ashok Kumar, P., Narayana, T.L., Design, modeling and analysis of perforated RF MEMS capacitive shunt switch (2019) IEEE access, 7, pp. 74869-74878; https://coventor.com/mems-solutions/products/coventorware/,2019, CoventorWare, CoSolve, MemMECH Solver; https://www.comsol.co.in/(2019), COMSOL Multiphysics MEMS Module; Intellisense FEM MEMS RF Devices, , http://www.intellisense.com/Solutions/RFDevices.html(2019); https://ansys.com/en-in/products/electronics/ansys-hfss(2018); Kaajakari, V., (2009) Practical MEMS: Design of microsystems, accelerometers, gyroscopes, RF MEMS, optical MEMS, and microfluidic systems, , Small Gear Publishing, Las Vegas, NV; O’Brien, G., Monk, D.J., Lin, L., MEMS cantilever beam electrostatic pull-in model (2001) Design, Characterization, and Packaging for MEMS and Microelectronics II, Vol. 4593, pp. 31-42; Sharma, A.K., Gupta, N., Material selection of RF-MEMS switch used for reconfigurable antenna using ashby's methodology (2012) Progress Electromagn. 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In: IEEE International Behavioral Modeling and Simulation Workshop, pp. 56-60","Kasambe, P.V.; Department of Electronics Engineering, India; email: Prashant_kasambe@spit.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85137028270
"Rane S.B., Narvel Y.A.M.","56149402100;57192108846;","Developing strategies to prioritise and mitigate the risks occurring in project management practices for an agile organisation - a perspective of Industry 4.0 technologies",2022,"International Journal of Productivity and Quality Management","36","2",,"208","241",,,"10.1504/IJPQM.2021.10037073","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136795124&doi=10.1504%2fIJPQM.2021.10037073&partnerID=40&md5=d92b358cc27e7cf8268016c6ebe4fe87","Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400058, India","Rane, S.B., Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400058, India; Narvel, Y.A.M., Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400058, India","The traditional methods of PMP lacked the capability of dealing with fast-moving, complex and varying environments. Later, agility emerged as a concept of a faster and more flexible way of working, leading towards maximising the positive outcomes and enhancing the performance of the organisation in a highly volatile environment. There are a few risks associated with agility improvement of organisations, which have been identified and prioritised in this research for strategising their mitigation. Various risks that agile organisations encounter were identified from the literature and also from the experts' survey. The identified risks were further analysed using total-ISM and fuzzy-MICMAC analysis. Lastly, strategies were developed to mitigate the risks by leveraging Industry 4.0 technologies. Risk of replicating agile models, insufficient capability building, and intellectual property risks were identified as key risks leading to other identified risks. These risks need to be mitigated to have a flawless agile organisation. © 2022 Inderscience Enterprises Ltd.","agile organisation; business intelligence; Industry 4.0; project management practices; risks of agility",,,,,,,,,,,,,,,,,"Aghina, W., De Smet, A., Murarka, M., Collins, L., The keys to organizational agility (2015) McKinsey, , https://www.mckinsey.com/business-functions/organization/our-insights/the-keys-to-organizational-agility#, [online] (accessed 24 September 2019); Aghina, W., Handscomb, C., Ludolph, J., West, D., Yip, A., How to select and develop individuals for successful agile teams: a practical guide (2018) McKinsey & Company, , https://www.mckinsey.com/business-functions/organization/our-insights/how-to-select-anddevelop-individuals-for-successful-agile-teams-a-practical-guide, [online] (accessed 12 October 2019); Ahlback, K., Comella-Dorda, S., Mahadevan, D., (2018) 'The drawbacks of agility, , https://www.mckinsey.com/business-functions/organization/our-insights/theorganization-blog/the-drawbacks-of-agility, McKinsey [online] (accessed 24 September 2019); Ali, M., Khan, U.W., Implementation issues of AGVs in flexible manufacturing: a review (2012) Global Journal of Flexible systems Management, 11 (1-2), pp. 55-62. , Nos; Beck, K., Beedle, M., Cockburn, A., Cunningham, W., Fowler, M., Grenning, J., van Bennekum, A., (2001) Manifesto for agile software development, , http://agilemanifesto.org/, [online] (accessed 23 September 2019); Bi, R., Davidson, R., Kam, B., Smyrnios, K., Developing organizational agility through IT and supply chain capability (2013) Journal of Global Information Management, 21 (4), pp. 38-55; Chidambaranathan, S., Muralidharan, C., Deshmukh, S.G., Analyzing the interaction of critical factors of supplier development using interpretive structural modeling - an empirical study (2009) Int. 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Technol, 43, p. 1081. , https://doi.org/10.1007/s00170-008-1788-7; Christopher, M., The agile supply chain: competing in volatile markets (2000) Industrial Marketing Management, 29 (1), pp. 37-44; Citrin, R., Resilience and agility: two skills that equip people to respond to change (2017) American Management Association, , https://playbook.amanet.org/training-articlesresilience-agility-respond-change/, [online] (accessed 16 September 2019); Coronado, A.E., Sarhadi, M., Miller, C., Defining a framework for information systems requirements for agile manufacturing (2002) International Journal of Production Economics, 72 (1-2), pp. 57-68. , Nos; Dandage, R.V., Mantha, S.S., Rane, S.B., Bhoola, V., Analysis of interactions among barriers in project risk management (2017) Journal of Industrial Engineering International, 14 (1), pp. 153-169; Rewriting the rules for the digital age (2017) Deloitte Global Human Capital Trends, , https://www2.deloitte.com/content/dam/Deloitte/lu/Documents/human-capital/lu-hc2017-global-human-capital-trends-gx.pdf, Deloitte [online] (accessed 24 November 2019); Managing risk in digital transformation (2018) Risk Advisory, , https://www2.deloitte.com/content/dam/Deloitte/in/Documents/risk/in-ra-managing-risk-indigital-transformation-1-noexp.pdf, Deloitte [online] (accessed 1 January 2020); Denning, D., The 12 stages of the agile transformation journey (2018) Forbes, , https://www.forbes.com/sites/stevedenning/2018/11/04/the-twelve-stages-of-the-agiletransformation-journey/#6cf4d83e3dd4, [online] (accessed 24 November 2019); Denning, D., Understanding the agile mindset (2019) Forbes, , https://www.forbes.com/sites/stevedenning/2019/08/13/understanding-the-agile-mindset/#1fe635d55c17, [online] (accessed 13 October 2019); Denning, D., The five biggest challenges facing agile (2019) Forbes, , https://www.forbes.com/sites/stevedenning/2019/09/08/the-five-biggest-challenges-facingagile/#12debdb47b04, [online] (accessed 13 October 2019); Dubey, R., Ali, S.S., Identification of flexible manufacturing system dimensions and their interrelationship using total interpretive structural modelling and fuzzy MICMAC analysis (2014) Glob. 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(2005) Academy of Management Executive, 19 (4), pp. 51-62; Handscomb, C., Jaenicke, A., Kaur, K., Vasquez-McCall, B., Zaidi, A., How to mess up your agile transformation in seven easy (mis)steps (2018) McKinsey Insights, , https://www.mckinsey.com/business-functions/organization/our-insights/how-to-mess-upyour-agile-transformation-in-seven-easy-missteps, [online] (accessed 15 November 2019); Holbeche, L.S., Shifts in organizational culture when implementing agility (2019) Journal of Creating Value, , https://doi.org/10.1177/2394964319853164; Hurst, D.K., (2012) The New Ecology of Leadership: Business Mastery in a Chaotic World, , Columbia Business School Publishing, New York, NY; Jadhav, J., Mantha, S., Rane, S., Roadmap for lean implementation in Indian automotive component manufacturing industry: comparative study of UNIDO Model and ISM model (2015) J. Ind. Eng. 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J. Prod. Qual. Manage.",Article,"Final","",Scopus,2-s2.0-85136795124
"Mepani M.M., Gala K.B., Mishra T.A., Suresh Bhole K., Gholave J., Daingade S.","57850956600;57850956700;57850956800;55485785300;37072312800;56136566000;","Design of robot arm for domestic culinary assistance",2022,"Materials Today: Proceedings","68",,,"1930","1945",,,"10.1016/j.matpr.2022.08.140","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136312928&doi=10.1016%2fj.matpr.2022.08.140&partnerID=40&md5=6a2310ea991d88ce0d89253cb6304f48","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Mepani, M.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Gala, K.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Mishra, T.A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Suresh Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Gholave, J., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Daingade, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Robotic arms, by virtue of their versatility, find extensive usage in industry-level applications; from mechanical operations like welding and assembling to painting and sorting. Capitalizing on their relative absence in the household domain, and the increasing pervasiveness of domestic automation, this paper seeks to propose a robot arm designed for carrying out operations involved in independently cooking a wide variety of food. The design, which aims to minimize cost while maximizing versatility; has been explained thoroughly, including choice of materials, degrees of freedom, actuators, linkage cross-sections, and sensors. The purview of necessary elementary motions is narrowed down by targeting specific recipes that the arm will be expected to cook. Further, a mechanism for dispensing appropriately proportioned ingredients has also been described, including bulk matter like vegetables as well as minor ingredients like spices and seasoning. Stress-Deformation Analysis has been carried out for verification of structural integrity of the most crucial components in the structure of the arm. The ultimate objective of the paper is to develop a proof of concept for a household cooking robot by building on existing research in the domain. © 2022","Automatic Cooking Station; Automation; Modeling; Robotics; Simulation","Cooking; Degrees of freedom (mechanics); Machine design; 'spice'; Automatic cooking station; Bulk-matter; Deformation analysis; Mechanical operations; Modeling; Proof of concept; Robot arms; Simulation; Stress deformations; Robotic arms",,,,,,"We thank Dr. N. Raykar, for providing feedback & suggestions which helped during the design phase; Mr. Sanjeev Sarnaik, for providing industrial feedback & future manufacturing & fabrication support.",,,,,,,,,,"Blöcher, K., Alt, R., AI and robotics in the European restaurant sector: Assessing potentials for process innovation in a high-contact service industry (2021) Electronic Markets, 31 (3), pp. 529-551; Zemke, D.M.V., Tang, J., Raab, C., Kim, J., How to build a better robot. for quick-service restaurants (2020) J. Hospital. Tour. Res., 44 (8), pp. 1235-1269; Li, B., Chen, Y., Deng, Z., Xu, W., Conceptual design and analysis of the 2T1R mechanism for a cooking robot (2011) Rob. Auton. Syst., 59 (2), pp. 74-83; Moran, M.E., Evolution of robotic arms (2007) J. Rob. Surg., 1 (2), pp. 103-111; Wallén, J., The history of the industrial robot (2008), Linköping University Electronic Press; Noh, D., Liu, Y., Rafeedi, F., Nam, H., Gillespie, K., Yi, J.S., Hong, D., (2020) Minimal Degree of Freedom Dual-Arm Manipulation Platform with Coupling Body Joint for Diverse Cooking Tasks, pp. 225-232. , IEEE; Kafuko, M., Singh, I., Wanyama, T., Design of a Robotic Arm for Teaching Integrated Design (2015), Education Association (CEEA); Yue, H., Miao, J., Zhang, J., Fan, C., Xu, D., Simulation for senior undergraduate education of robot engineering based on Webots (2021) Computer Appl. Eng. Ed., 29 (5), pp. 1176-1190; Kirkpatrick, S., Gelatt, C.D., Jr, Vecchi, M.P., Optimization by simulated annealing (1983) Science, 220 (4598), pp. 671-680; Kohnke, P.C., Ansys (1982) Finite Element Systems, pp. 19-25. , C.A. Brebbia Springer Berlin Heidelberg Berlin, Heidelberg; Kaitwanidvilai, S., Buthgate, S., Aoyama, H., Konghuayrob, P., Robot Arm Structure Design Using Polyamide Evaluated by Finite Element Analysis (2020) Sens. Mater., 32 (2), pp. 487-497; Kucuk, S., Bingul, Z., Robot kinematics: Forward and inverse kinematics (2006), INTECH Open Access Publisher; Denavit, J., Hartenberg, R.S., (1955), A kinematic notation for lower-pair mechanisms based on matrices; Deshpande, V., George, P.M., Kinematic modelling and analysis of 5 DOF robotic arm (2014) Int. J. Rob. Res. Develop. (IJRRD), 4 (2), pp. 17-24; Xu, D., Calderon, C.A.A., Gan, J.Q., Hu, H., Tan, M., An analysis of the inverse kinematics for a 5-DOF manipulator (2005) Int. J. Autom. Comput., 2 (2), pp. 114-124; Tsumaki, Y., Kotera, S., Nenchev, D.N., Uchiyama, M., (1997) Singularity-consistent inverse kinematics of a 6-DOF manipulator with a non-spherical wrist, 4, pp. 2980-2985; Nie, L., Huang, Q., December). Inverse kinematics for 6-DOF manipulator by the method of sequential retrieval (2012) In the Proceedings of the International Conference on Mechanical Engineering and Material Science, pp. 255-258; Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., “ ON-AXIS” linear focused spot scanning microstereolithography system: optomechatronic design, analysis and development (2013) J. Adv. Manuf. Syst., 12 (1), pp. 43-68; Bollini, M., Tellex, S., Thompson, T., Roy, N., Rus, D., Interpreting and executing recipes with a cooking robot (2013) Experimental Robotics, pp. 481-495. , Springer Heidelberg; Livinsa, Z.M., Valantina, G.M., Premi, M.G., Sheeba, G.M., A Modern Automatic Cooking Machine Using Arduino Mega and IOT (2021) J. Phys.: Conf. Ser., 1770 (1), p. 012027","Mishra, T.A.; Department of Mechanical Engineering, India; email: mishra.tanish.tm@gmail.com",,,"Elsevier Ltd",,,,,22147853,,,,"English","Mater. Today Proc.",Article,"Final","",Scopus,2-s2.0-85136312928
"Farooqui T.A., Belwanshi V., Rane K., Bhole K.S., Oak S.","57849988300;57105631700;57850225400;55485785300;57849276000;","Numerical Analysis of Joule Heating in a Ni–Ti Segmented Wire used in Sensing Applications",2022,"Journal of The Institution of Engineers (India): Series D",,,,"","",,,"10.1007/s40033-022-00392-4","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136224793&doi=10.1007%2fs40033-022-00392-4&partnerID=40&md5=8d4563905569f03ac98d694d46de2894","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; School of Physics and Astronomy, College of Science and Engineering, University of Glasgow, Glasgow, G12 8QQ, United Kingdom; National Manufacturing Institute, 85 Inchinnan Dr, Inchinnan RenfrewPA4 9LJ, United Kingdom","Farooqui, T.A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Belwanshi, V., School of Physics and Astronomy, College of Science and Engineering, University of Glasgow, Glasgow, G12 8QQ, United Kingdom; Rane, K., National Manufacturing Institute, 85 Inchinnan Dr, Inchinnan RenfrewPA4 9LJ, United Kingdom; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Oak, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Use of shape memory alloy (SMA) has been extensively increased to fabricate sensors and actuators. It is because of its inherently unique properties such as pseudo-elasticity and shape memory effect. Among various SMA’s, Ni–Ti SMA has received a prime interest in various applications. However, Ni–Ti SMA-based sensors suffer from the Joule heating effect as their performance is impacted due to an increase in the temperature. This work presents a finite element analysis approach to estimate a rise in temperature in Ni–Ti SMA sensors. A numerical model was developed in COMSOL, considering a Ni–Ti with Cu segment. Electro-thermal boundary conditions were set to assess the thermal response of the segmented wire. Multiple simulation runs were carried out by varying material and geometric characteristics of segmented wire. The results are validated against the literature and quantitative estimation of thermal characteristics through physics driven analytical model. Simulation results show that the Joule heating effect has a significant effect on the properties of the material which can be considered while designing and selecting the sensor application. This study further brought a few mitigation actions which can minimize the Joule heating effect without hindering the performance of Ni–Ti SMA-based sensors. © 2022, The Institution of Engineers (India).","Finite element analysis; Joule heating; Ni–Ti; Segmented wire; SMA","Finite element method; Heating; Joule heating; Shape-memory alloy; Finite element analyse; Joule heating effect; Joules heating; NiTi shape memory alloys; Ni–ti; Performance; Property; Segmented wire; Sensing applications; Sensors and actuators; Wire",,,,,,,,,,,,,,,,"Humbeck, V., Non-medical applications of shape memory alloys (1999) Mater. Sci. Eng., 273-275, pp. 134-148; Duerig, T., Pelton, A., Stöckel, D., An overview of Ni-Tinol medical applications (1999) Mater. Sci. Eng., 273-275, pp. 149-160; Biscarini, A., Mazzolai, G., Tuissi, A., Enhanced Ni-Tinol properties for biomedical applications (2008) Recent patents on biomed. Eng., 1, pp. 180-196; Nespoli, A., Besseghini, S., Pittaccio, S., Villa, E., Viscuso, S., The high potential of shape memory alloys in developing miniature mechanical devices: a review on shape memory alloy mini-actuators (2010) Sens. Actuators, 158, pp. 149-160; Kohl, M., Skrobanek, K.D., Sensors and Actuators (1997) Proceedings of International Solid State Sensors and Actuators Conference, 2, pp. 785-788; Balakrishnan, V., Phan, H.-P., Dinh, T., Dao, D.V., Nguyen, N.-T., Thermal flow sensors for harsh environments (2017) Sensors, 17 (9), p. 2061; Dibbern, U., A substrate for thin-film gas sensors in microelectronic technology (1990) Sens. Actuators B, 2 (1), pp. 63-70; Hung, S.-T., Wong, S.-C., Fang, W., The development and application of microthermal sensors with a mesh-membrane supporting structure (2000) Sens. Actuators A, 84 (1), pp. 70-75; Dai, C.-L., A capacitive humidity sensor integrated with micro heater and ring oscillator circuit fabricated by cmos–mems technique (2007) Sens. Actuators B, 122 (2), pp. 375-380; Nahm, S.H., Kim, Y.I., Kim, J.M., A study on the application of Ni-Ti shape memory alloy as a sensor (2005) Mater. Sci. Forum., 475-479, pp. 2043-2046; Ahmad, A., Yu, S., Mohamed, A., Effect of joule heating and temperature-dependent zeta potential on electroosmotic flow measurements in calorimetric flow sensors (2019) IET, 14 (9), pp. 1007-1012; Casati, R., Passaretti, F., Tuissi, A., Effect of electrical heating conditions on functional fatigue of thin Ni-Ti wire for shape memory actuators (2011) Procedia Eng., 10, pp. 3423-3428; Tan, Z.-Q., Chen, Y.-C., Size-dependent electro-thermo-mechanical analysis of multilayer cantilever microactuators by Joule heating using the modified couple stress theory (2019) Compos. B, 161, pp. 183-189; Jaureguizahar, S.M., Chapetti, M.D., Yawny, A., A novel experimental method for assessment of intrinsic functional and structural fatigue of pseudoelastic NiTi wires (2018) Int. J. Fatigue, 116, pp. 300-305; Parvizi, S., Hashemi, S.M., Asgariniaa, F., Nematollahib, M., Elahinia, M., Effective parameters on the final properties of NiTi-based alloys manufactured by powder metallurgy methods: a review (2021) Prog. Mater Sci., 117, p. 100739; Wanga, X., Yua, J., Liub, J., Chenc, L., Yangd, Q., Weie, H., Sunb, J., Van Humbeeckc, J., Effect of process parameters on the phase transformation behavior and tensile properties of NiTi shape memory alloys fabricated by selective laser melting (2020) Addit. Manuf., 36, p. 101545; Patel, S.K., Swain, B., Roshan, R., Sahu, N.K., Behera, A., A brief review of shape memory effects and fabrication processes of NiTi shape memory alloys (2020) Mater. Today Proc., 33 (8), pp. 5552-5556; Jiang, X., Jiang, D., Zheng, Y., Cui, L., Transformation behavior of explosively welded TiNi/TiNi laminate after diffusion annealing and aging (2013) Mater. Res. Bull., 48 (12), pp. 5033-5035; Gen Satohandrew Birnbaumlawrence Yao, Y., Effect of annealing parameters on the shape memory properties of NiTi thin films (2008) ICALEO, p. 126; Abbas Raza, S., Imran Khan, M., Ramzan Abdul Karim, M., Ali, R., UmairNaseer, M., Zameer Abbas, S., Ahmad, M., Effect of Zirconium Oxide Reinforcement on microstructural electrochemical, and mechanical properties of tini alloy produced via powder metallurgy route (2022) J. Eng. Mater. Technol., 144 (3), p. 041009; Wayman, C.M., Shimizu, K., The shape memory (‘Marmem’) effect in alloys (1972) Metal Sci. J., 6 (1), pp. 175-183","Farooqui, T.A.; Department of Mechanical Engineering, India; email: tareqahmedf@gmail.com",,,"Springer",,,,,22502122,,,,"English","J. Inst. Eng. Ser. D",Article,"Article in Press","",Scopus,2-s2.0-85136224793
"Panchal M., Khare S., Khamkar P., Suresh Bhole K.","57848930100;57848930200;57847573300;55485785300;","Dental implants: A review of types, design analysis, materials, additive manufacturing methods, and future scope",2022,"Materials Today: Proceedings","68",,,"1860","1867",,,"10.1016/j.matpr.2022.08.049","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136156862&doi=10.1016%2fj.matpr.2022.08.049&partnerID=40&md5=563d00e240a414e557f5b3076402fd95","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Panchal, M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Khare, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Khamkar, P., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Suresh Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Dental implants are becoming a common practice in the field of dentistry. There has been extensive research in this field, and efforts are being made to improve quality while minimizing costs. A comprehensive study was conducted on diverse dental implants, their design procedures, manufacturing methods using additive manufacturing, and materials as well as future developments. The following types of dental implants were discussed: Single Tooth Dental Implant, Implant-Supported Bridge, Implant-Retained Denture. For the design and force analysis, Mastication and occlusion processes were the focus of the study. The materials that are used for manufacturing these implants were also discussed. Since additive manufacturing is currently a leading manufacturing technology, various methods of manufacturing these implants using additive manufacturing have been studied and discussed. Furthermore, future research and development efforts within the dental implant industry were discussed. © 2022","Additive Manufacturing; Dental Implants; Retained Denture; Single Tooth; Supported Bridge","Additives; Dental prostheses; Additive materials; Design Analysis; Design procedure; Force analysis; Manufacturing methods; Minimizing costs; Retained denture; Single tooth; Supported bridges; Type designs; 3D printers",,,,,,,,,,,,,,,,"Mura, M.D., Dini, G., Lanzetta, M., Rossi, A., An experimental analysis of laser machining for dental implants (2018) Procedia CIRP, 67, pp. 356-361; Turkyilmaz, I., Wilkins, G.N., 3D printing in dentistry – exploring the new horizons (2021) J. Dent. Sci., 16 (3), pp. 1037-1038; Warreth, A., Ibieyou, N., O'Leary, R.B., Cremonese, M., Abdulrahim, M., Dental implants: an overview (2017) Dent. Update, 44 (7), pp. 596-620; Sutter, F., Schroeder, A., Buser, D.A., The new concept ITI hollow cylinder and hollow screw implants: part I. Engineering and design. Int J Oral Maxilofac Implants 1988;3:162e72; Buser, D., Schroder, A., Suter, F., Murphy, K.G., The new concept ITI hollow cylinder and hollow screw implants: part II clinical aspects, indications, and early clinical results (1988) Int. J. Oral Maxilofac. Implants, 3, p. 173e83; El-Gendy, A.M., Nassar, M.M., Saudi, H.I., Immediate hollow versus solid screw implants augmented with bone graft in the extracted socket of hemisected mandibular molars: clinical and radiographic study (2014) Tanta Dent. J., 11 (1), pp. 56-62; Telleman, G., Meijer, H.J.A., Raghoebar, G.M., Long-term evaluation of hollow screw and hollow cylinder dental implants: clinical and radiographic results after 10 years (2006) J. Periodontol., 77 (2), pp. 203-210; (2017), Yenumula, Manikyamba & Sajjan, M C Suresh & Raju, Rama & Professor, A & Rao, Donimukkala & Nair, Chandrasekharan. Implant thread designs: An overview. 8; Shafi, A.A., Kadir, M.R.A., Sulaiman, E., Kasim, N.H.A., Kassim, N.L.A., The effect of dental implant materials and thread profiles—a finite element and statistical study (2013) J. Med. Imaging Health Info., 3 (4), pp. 509-513; Nandal, D.S., Ghalaut, D.P., Shekhawat, D.H., Nagar, D.P., Osseointegration in dental implants: a literature ReviewOsseointegration in dental implants: a literature review (2011) IJAR, 4 (7), pp. 411-413; Shah, R., Aras, M., Chitre, V., Implant abutment selection: a literature review (2014) Int. J. Oral Implantol. Clin. Res., 5, pp. 43-49; Hung, H.-C., Huang, C.-S., Pan, Y.-H., The compressive strength of implant-abutment complex with different connection designs (2019) J. Dent. Sci., 14 (3), pp. 318-324. , Epub 2019 Mar 28. PMID: 31528261; PMCID: PMC6739501; Muley, N., Prithviraj, D.R., Gupta, V., Evolution of external and internal implant to abutment connection (2012) Int. J. Oral Implantol. Clin. 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Mater., 37 (8), pp. 1227-1236; van Riet, T.C.T., Chin Jen Sem, K.T.H., Ho, J.-P., Spijker, R., Kober, J., de Lange, J., Robot technology in dentistry, part one of a systematic review: literature characteristics (2021) Dent. Mater., 37 (8), pp. 1217-1226; Chopra, D., Jayasree, A., Guo, T., Gulati, K., Ivanovski, S., Advancing dental implants: bioactive and therapeutic modifications of zirconia (2022) Bioact. Mater., 13, pp. 161-178","Khare, S.; Department of Mechanical Engineering, India; email: shreyasak07@gmail.com",,,"Elsevier Ltd",,,,,22147853,,,,"English","Mater. Today Proc.",Article,"Final","",Scopus,2-s2.0-85136156862
"Shinde S.M., Lekurwale R.R., Bhole K.S., Oza A.D., Patil A.S., Ramesh R.","56539425300;56436699200;55485785300;57205608034;57193512391;56723617600;","On efficient electrode design and manufacturing techniques for hot die steel inserts",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,2,"10.1007/s12008-022-00994-y","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136146878&doi=10.1007%2fs12008-022-00994-y&partnerID=40&md5=7347f5c9a2449a7753bcbfd7af4f4486","Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400078, India; Department of Mechanical Engineering, K. J. Somaiya College of Engineering, Vidyavihar, Mumbai, 400077, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Bhavans College Rd, Munshi Nagar, Andheri West, Mumbai, 400058, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhrapradesh, Tirupathi, 517102, India","Shinde, S.M., Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400078, India; Lekurwale, R.R., Department of Mechanical Engineering, K. J. Somaiya College of Engineering, Vidyavihar, Mumbai, 400077, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Bhavans College Rd, Munshi Nagar, Andheri West, Mumbai, 400058, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Patil, A.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Bhavans College Rd, Munshi Nagar, Andheri West, Mumbai, 400058, India; Ramesh, R., Department of Mechanical Engineering, Sree Vidyanikethan Engineering College (Autonomous), Andhrapradesh, Tirupathi, 517102, India","This paper focuses on providing economical methods for manufacturing of aluminum die casting inserts, for various optimized solutions developed the constraint of the existing manufacturing setup is also considered. The techniques are implemented on a die casting inserts of Honda Activa-Mission Case component which are made from hot die steel. The present optimized solution is derived for minimization of manufacturing rope length of the die casting dies to get an optimized solution at every stage of manufacturing. The implementation of the optimize techniques and the strategies are carried in three segments. Combine electrode concept and Re-born concept are the two segments which reduce the total physical operational time of the die which will ultimately leads to saving the overall manufacturing cost and increase the profit. The proposed solution opens up new avenues for similar automobile components by setting benchmark to reduce the manufacturing rope length and increase the profit. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","Cluster plate concept; Combined electrode concept; Electrode design; Multi place electrodes; Re-born concept; Re-machining of electrodes","Design; Die casting; Dies; Cluster plate concept; Combined electrode concept; Combined electrodes; Design technique; Electrode design; Hot die steel; Multi place electrode; Optimized solutions; Re-born concept; Re-machining of electrode; Electrodes",,,,,,,,,,,,,,,,"Adamane, A.R., Arnberg, L., Fiorese, E., Timelli, G., Bonollo, F., Evaluating the tensile properties of aluminium foundary alloys through references casting-a review (2017) Weld. Join. Cast. Adv. Mater., 10 (9), pp. 1-12; Aluminium and aluminium alloys. 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Lecture notes in mechanical engineering, , Palani IA, Sathiya P, Palanisamy D, (eds), Springer, Singapore; Varma, M.M.M.K., Baghel, P.K., Raju, R., Additive manufacturing of thermosetting resins in-situ carbon fibers: a review (2022) Recent advances in materials and modern manufacturing. Lecture notes in mechanical engineering, , Palani IA, Sathiya P, Palanisamy D, (eds), Springer, Singapore; Thirugnanasambantham, K.G., Francis, A., Ramesh, R., Aravind, M., Medagam, K.R., Investigation of erosion mechanisms on IN-718 based turbine blades under water jet conditions (2022) Int. J. Interact. Des. Manuf.","Shinde, S.M.; Department of Mechanical Engineering, Airoli, India; email: sachin.shinde@dmce.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85136146878
"Shinde S.M., Lekurwale R.R., Bhole K.S., Oza A.D., Patil A.S., Ramesh R.","56539425300;56436699200;55485785300;57205608034;57193512391;56723617600;","5-axis virtual machine tool centre building in PLM environment",2022,"International Journal on Interactive Design and Manufacturing",,,,"","",,1,"10.1007/s12008-022-00974-2","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85134480152&doi=10.1007%2fs12008-022-00974-2&partnerID=40&md5=d09e53dc4c1dd1d67c5e2fa188ce6851","Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400 078, India; Department of Mechanical Engineering, K. J. Somaiya College of Engineering, Vidyavihar, Mumbai, 400 077, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Bhavans College Rd, Munshi Nagar, Andheri West, Mumbai, 400058, India; Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Department of Mechanical Engineering, SreeVidyanikethan Engineering College (Autonomous), Andhrapradesh, Tirupathi, 517102, India","Shinde, S.M., Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400 078, India; Lekurwale, R.R., Department of Mechanical Engineering, K. J. Somaiya College of Engineering, Vidyavihar, Mumbai, 400 077, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Bhavans College Rd, Munshi Nagar, Andheri West, Mumbai, 400058, India; Oza, A.D., Department of Computer Sciences and Engineering, Institute of Advanced Research, The University for Innovation, Gujarat, Gandhinagar, 382426, India; Patil, A.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Ramesh, R., Department of Mechanical Engineering, SreeVidyanikethan Engineering College (Autonomous), Andhrapradesh, Tirupathi, 517102, India","Programs for 5 axis machining is not complex task but also tedious to understand and implement for new CNC programmers. Hence for making the concept of 5-axis easy for understanding at zero damage of the machine tool it is necessary for developing virtual platform which will give real time feel of the actual CNC machine. The concept of 5 axis simultaneous machining is not as the same as that of the 3 axis programming as there is two more axis operating simultaneously. This constraint makes 5 axis program is bit complex for the new programmers it is needed to be done in virtual environment. This paper explains a systematic procedure of developing a virtual 5 axis machine tool in PLM platform (Product lifecycle Management). This virtual platform is not only used for training purpose but also for identifying collision detection between the machine components and work piece. Standard procedure is applied to 5-axis table-table configuration builded in SIEMENS NX 12 software. This process implies 3 major steps. The first step is simplifying the hierarchy based kinematic chain. The second step implies assignment of specific movements of the machine components. The last step is the assignment of the virtual controller and its respective post processor. On completion of the above procedure validation is done by same by generating by the 5 axis program on gear bracket component. © 2022, The Author(s), under exclusive licence to Springer-Verlag France SAS, part of Springer Nature.","5 axis machine tool; Collision detection; Common simulation engine; Gear bracket; Kinematic chain; Machine simulations; Product lifecycle management; Virtual machine tool","Computer control systems; Kinematics; Life cycle; Machine components; Network security; Virtual machine; Virtual reality; 5-axis machine tool; Collision detection; Common simulation engine; Gear bracket; Kinematic chain; Machine simulation; Product life cycle management; Simulation engine; Virtual machine tools; Virtual platform; Machine tools",,,,,,,,,,,,,,,,"Sanchez Gomez, C.A., Gil Castiblanco, L.E., Arroyo Osorio, J.M., Building a virtual machine tool in a standard PLM platform (2017) Int. J. Interact. Des. Manuf., 11 (2), pp. 445-455; Guerra-Zubiaga, D.A., Contero, M., Orta, P., Molina, A., Guerra, D., Contero, M., Orta, P., Molina, A., Industrial applications of PLM: Automotive and aerospace sectors (2006) Proceedings of Virtual Concept, pp. 1-4. , Springer-Verlag; Gandhi, P.S., Deshmukh, S., A 2D optomechanical focused laser spot scanner: analysis and experimental results for microstereolithography P S Gandhi and S Deshmukh (2009) J. MIicromechanics Microengineering., 15035, pp. 1-11; Deshmukh, S., Gandhi, P.S., Optomechanical scanning systems for microstereolithography (MSL): analysis and experimental verification (2009) J. Mater. Process. Technol., 9 (209), pp. 1275-1285; Chan, D.S.K., Simulation modelling in virtual manufacturing analysis for integrated product and process design (2003) Assem. Autom., 23 (1), pp. 69-74; Fischer, X., Coutellier, D., The interaction: a newway of designing (2006) Research in Interactive Design, pp. 1-15. , Fischer X, Coutellier D, (eds), Springer, France; Abdul Kadir, A., Xu, X., Hämmerle, E., Virtual machine tools and virtual machining-A technological review (2011) Robot. Comput. Integr. Manuf., 27 (3), pp. 494-508; Kumar, K., Zindani, D., Davim, J.P., Introduction to Virtual Manufacturing (2018) Advanced Machining and Manufacturing Processes, pp. 169-180. , https://doi.org/10.1007/978-3-319-76075-9_11, Springer, Cham; Altintas, Y., Brecher, C., Week, M., Witt, S., Virtual machine tool (2005) CIRP Ann.; Shinde, S.M., Lekurwale, R.R., Radial stiffness computation of single Archimedes spiral plane supporting spring loaded in flexural mechanism mounted in spindle head of micro drilling machine tool (2022) Mech. Based Des. Struct. 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Tools Manuf., 42 (4), pp. 505-520; Lin, G., (2013) System and Method for Constructing Virtual NC Controllers for Machine Tool Simulation; Guzeev, V.I., Pimenov, D.Y., Methodology of designing integrated technological processes for manufacturing CNC machined parts (2018) MATEC Web Conferences, p. 224. , https://doi.org/10.1051/matecconf/201822401057; Fanuc, G., GE Fanuc Automation (1998) North America; Suh, S.-H., Kang, S.-K., Chung, D.-H., Stroud, I., (2008) Theory and Design of CNC Systems -, , Springer, London; Raju, R., Manikandan, N., Palanisamy, D., Arulkirubakaran, D., Binoj, J.S., Thejasree, P., Ahilan, C., A Review of Challenges and Opportunities in Additive Manufacturing (2022) Recent Advances in Materials and Modern Manufacturing Lecture Notes in Mechanical Engineering, , Palani IA, Sathiya P, Palanisamy D, (eds), Springer, Singapore; Varma, M.M.M.K., Baghel, P.K., Raju, R., Additive manufacturing of thermosetting resins in-situ carbon fibers: a review (2022) Recent Advances in Materials and Modern Manufacturing. Lecture Notes in Mechanical Engineering, , Palani IA, Sathiya P, Palanisamy D, (eds), Springer, Singapore; Thirugnanasambantham, K.G., Francis, A., Ramesh, R., Aravind, M., Reddy, M.K., Investigation of erosion mechanisms on IN-718 based turbine blades under water jet conditions (2022) Int. J. Interact. Des. Manuf.","Shinde, S.M.; Department of Mechanical Engineering, Airoli, India; email: sachin.shinde@dmce.ac.in",,,"Springer-Verlag Italia s.r.l.",,,,,19552513,,,,"English","Int. J. Interact. Des. Manuf.",Article,"Article in Press","",Scopus,2-s2.0-85134480152
"Patil A.S., Sunnapwar V.K., S. Bhole K., Ray M.P., More Y.S.","57193512391;6504099005;55485785300;57780960100;57240361600;","Effective cooling methods for Ti6Al4V CNC milling: a review",2022,"Advances in Materials and Processing Technologies",,,,"","",,1,"10.1080/2374068X.2022.2094073","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85133416292&doi=10.1080%2f2374068X.2022.2094073&partnerID=40&md5=ac5431ceec4e5c92ad6b7f793b650d97","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Kopar Khairane, Navi Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Mechanical Engineering, Institute of Engineering, Adgaon, Nashik, India","Patil, A.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Sunnapwar, V.K., Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Kopar Khairane, Navi Mumbai, India; S. Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Ray, M.P., Department of Mechanical Engineering, Institute of Engineering, Adgaon, Nashik, India; More, Y.S., Department of Mechanical Engineering, Institute of Engineering, Adgaon, Nashik, India","The Ti6Al4V is an eminent material by its high strength, dimensional stability, lower weight and corrosion resistance. Its lower thermal conductivity leads to poor machinability by exhibiting metallurgical alterations. This article discusses the details of dry, wet, cryogenic, minimum quantity lubrication and hybrid cooling methods in the milling of Ti6Al4V. Dry cooling has a worse acute effect on tool life and surface quality by thermal degradation. The widespread high-pressure cooling controls heat dissipation, but cutting tools are affected by chipping and adhesion under long-run milling. In the first instance, cryogenic cooling like liquid nitrogen and liquid carbon dioxide assisted cooling shows excellent tool life and surface integrity; however, excessive uncontrolled chilling and abnormal lubrication affect milling performance. Minimum quantity lubrication with nanoparticles and their combination with multi-wall carbon nanotubes improves the machinability by balanced cooling and lubrication under the concept of green manufacturing engineering. Indirect hybrid cryogenic cooling is a new era in superalloy’s cooling methods for long-run applications. The prime drive of this review is to formulate a bridge between cooling and performance under sustainability concerns and propounds the hybrid nanofluids and indirect hybrid cryogenic cooling being the future of Ti6Al4V milling under the mapping of sustainable scale. © 2022 Informa UK Limited, trading as Taylor & Francis Group.","cryogenic cooling; dry cooling; high-pressure cooling; hybrid nanofluids; indirect hybrid cooling; minimum quantity lubrication with nanoparticles; multi-wall carbon nanotubes; sustainability; Ti6Al4V",,,,,,,"The authors would like to acknowledge the support of Supra Techno Services, Authorized Distributors for Seco Tools India Ltd. Pune and also thanks to the Department of Mechanical Engineering, Institute of Engineering, Bhujbal Knowledge City, Adgaon, Nashik to carry out this review.",,,,,,,,,,"Patil, A.S., Ingle, S.V., More, Y.S., Machining challenges in Ti-6Al-4V -A review (2015) Int J Innov Eng Technol, 5, pp. 6-23. , Internet; Pervaiz, S., Rashid, A., Deiab, I., Influence of tool materials on machinability of titanium- and nickel-based alloys: a review (2014) Mater Manuf Process, 29 (3), pp. 219-252; Kale, A., Khanna, N., A review on cryogenic machining of super alloys used in aerospace industry (2017) Procedia Manuf, 7, pp. 191-197; Dhal, A.K., Panda, A., Kumar, R., Different machining environments impact analysis for Ti-6Al-4V alloy (Grade 5) turning process: a scoping review (2021) Mater Today Proc, 44, pp. 2342-2347. , https://linkinghub.elsevier.com/retrieve/pii/S221478532040149X, [Internet]. 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"Gokhale P.N., Patil B.R.","57478848200;57478848300;","Correlation between Renal Tracer Parameters Derived for Recognition of Renal Obstruction with 99mTc-DTPA Scintigraphy",2022,"International Conference on Emerging Trends in Engineering and Technology, ICETET","2022-April",,,"","",,,"10.1109/ICETET-SIP-2254415.2022.9791778","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85132306504&doi=10.1109%2fICETET-SIP-2254415.2022.9791778&partnerID=40&md5=b397bde078bbd25dc4ba053977abb45a","Sardar Patel College of Engineering, University of Mumbai, Department of Electrical Engineering, Maharashtra, India; VIMEET, University of Mumbai, Maharashtra, India","Gokhale, P.N., Sardar Patel College of Engineering, University of Mumbai, Department of Electrical Engineering, Maharashtra, India; Patil, B.R., VIMEET, University of Mumbai, Maharashtra, India","Renal obstructions with blockages may be fractional or complete, it affects one side or both sides of urinary system. It progresses speedily (acutely) or gradually (chronically). Renal tracer transit time is important in detecting of renal obstruction levels which is linked with terms like hydronephrosis, Pelvic ureteric Junction (PUJ) obstruction etc. For renal tracer transit time measurements, type of radiotracer like DTPA or MAG3 etc. doesn't matter as all carried through the kidney by urine stream. Assessments of renal function are useful in recognizing the existence of renal disease, monitoring the response of kidneys to medications, and determining the development of renal disease. 99mTc-DTPA scan helps to differentiate PUJ obstruction from multi-cystic kidney and determine the level of renal obstruction. The objective of this research study was to determine correlation between renal function parameters peak time (Tmax), half time (T1/2) and GFR with 99mTc-DTPA dynamic renal scintigraphy. For this study, the effects of age, gender, both side of urinary system, stages of obstruction levels of 73 patients were considered and found noticeable correlations among renal function parameters defining presence of hydronephrosis in left and right kidneys called as renal obstructions. © 2022 IEEE.","correlation; DTPA; hydronephrosis; renal obstruction; renal scintigraphy","Nuclear medicine; Correlation; DTPA; Function parameters; Hydronephrosis; Renal disease; Renal functions; Renal obstruction; Renal scintigraphy; Transit-time; Urinary system; Diseases",,,,,,,,,,,,,,,,"Tantawy, M.N., Jiang, R., Wang, F., Takahashi, K., Peterson, T.E., Zemel, D., Assessment of renal function in mice with unilateral ureteral obstructionusing 99mTc-MAG3 dynamic scintigraphy (2012) BMC Nephrology, 13, p. 168. , December 10; Blum, E.S., Early detection of ureteropelvic junction obstruction using signal analysis and machine learning: A dynamic solution to a dynamic problem (2018) J. Urol, 199 (3), pp. 847-852; More, S.S., Lazarus, J., Brink, A., Renal cortical transit time as a predictor for pyeloplasty in paediatric patients with unilateral hydronephrosis (2020) World J Nucl Med, 19, pp. 341-346; Rathod, K.J., (2012) Hydronephrosis Due to PUJ Narrowing:Utility Oof Urinary Enzymes to Predict the Need for Surgical Management and Follow Up, 17 (1), pp. 1-5. , J.Indian Assoc.Padiatric Surg Jan-March; Taylor, A.T., Brandon, D.C., SNMMI procedure standard/EANM practice guideline for diuretic renal scintigraphy in adults with suspected upper urinary tract obstruction 1.0 (2018) ELSEVIER, Seminars in Nuclear Medicine; Durand, E., Blaufox, M.D., International scientific committee of radionuclides in nephrourology (ISCORN) consensus on renal transit time measurements (1892) Seminars in Nuclear Medicine, 2, pp. 82-102. , ELSEVIER, 2007 J. Clerk Maxwell, A Treatise on Electricity and Magnetism, 3rd ed. Oxford: Clarendon. pp. 68-73; Petersen, L.J., Petersen, J.R., Glomerular filteration rate estimted from the uptake phase of 99mTc DTPA renography in chronic renal failure (1999) Nephrology Dialysis Transplantation, 14, pp. 1673-1678; Demir, F., Demir, M., Comparison of 99mTc-DMSA, 99mTc-DTPA and 99mTc-MAG3 renal scintigraphy in the calculation of relative renal function (2020) Journal of Urological Surgery, 7 (2), pp. 130-133; Lia, Q., Zhanga, C.-L., Fua, Z.-L., Wanga, R.-F., Mab, Y.-C., Zuob, L., Development of formulae for accurate measurement of the glomerular filtration rate by renal dynamic imaging (2007) Nuclear Medicine Communication, 28 (5), pp. 407-413; Danilczuk, A., Nocun, A., Chrapko, B., Normal ranges of renal function parameters for 99mTc-EC renal scintigraphy (2020) Nuclear Medicine Review, 23 (2). , 53- 57; Madsen, C.J., Moller, M.L., Determination of kidney function with 99mTc-DTPArenography using a dual-head camera (2013) Nuclear Medicine Communications, 34, pp. 322-327; Blum, E.S., Porras, A.R., Early detection of ureteropelvic junction obstruction using signal analysis and machine learning: A dynamic solution to a dynamic problem (1892) The Journal of Urology, 2, pp. 68-73. , March 2018, Vol.199, 847-852.J. Clerk Maxwell, A Treatise on Electricity and Magnetism, 3rd ed. Oxford: Clarendon; Gutte, H., Moller, M.L., Estimating GFR in children with 99mTc-DTPA renography: A comparison with single-sample 51Cr- EDTA clearance (2010) Clinical Physiological Function Imaging, 30, pp. 169-174; Sugawara, S., Ishii, S., Feasibility of gamma camera- based GFR measurement using renal depth evaluated by lateral scan of 99mTc-DTPA renography (2020) Annals of Nuclear Medicine; Maisey, M.N., Britton, K.E., (1998) Clinical Nuclear Medicine, pp. 388-422. , 3rd ed., Springer-Science+Business Media, B.V",,,"IEEE Nagpur Subsection","IEEE Computer Society","10th International Conference on Emerging Trends in Engineering and Technology - Signal and Information Processing, ICETET-SIP-22 2022","29 April 2022 through 30 April 2022",,180073,21570477,9781665467414,,,"English","Int. Conf. Emerg. Trends Eng. Technol., ICETET",Conference Paper,"Final","",Scopus,2-s2.0-85132306504
"Kasambe P.V., S. Bhole K., Bage A.A., Raykar N.R., Bhoir D.V.","56539919200;55485785300;8839723800;19934528100;36917814700;","Analytical modeling and numerical investigation of a variable width piezoresistive multilayer polymer micro-cantilever air flow sensor",2022,"Advances in Materials and Processing Technologies","8","4",,"4365","4383",,,"10.1080/2374068X.2022.2076974","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85130881823&doi=10.1080%2f2374068X.2022.2076974&partnerID=40&md5=79f56f0ae9b4eac55b2818518d3ecdd2","Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, India","Kasambe, P.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India; S. Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bage, A.A., Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, India; Raykar, N.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bhoir, D.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India","Measurement of air flow is a vital concern in diverse domains. Piezoresistive micro-cantilever-based air flow sensing is a promising research domain within MEMS technology due to its several advantages. Displacement, bending stress, sensitivity, resolution and stability are significant challenges in the design of this sensor. These parameters are also affected by the cantilever profile and its materials. Hence, the purpose of this study is to investigate the performance of a piezoresistive multilayer polymer variable width profile micro-cantilever structure and propose its materials, fabrication process flow, optimisation of geometric dimensions, piezoresistors placement and piezoresistors circuit connections to address challenges in the design. Methodical steps towards design optimisation of the proposed sensor under the applied pressure due to its interaction with air flow comprise preliminary approximation of geometrical dimensions through analytical models developed using Conjugate Beam and Rayleigh methods, subsequently, 3D modelling numerical simulation using the COMSOL Multiphysics FEM tool. It is observed that numerical simulation results agree with the results of analytical modelling. It is concluded that the proposed study contributes to the development of accurate analytical models and design optimisation of a low-cost and stable micro-cantilever-based air flow sensor that performs yet equally well compared to previously published designs in terms of sensitivity. © 2022 Informa UK Limited, trading as Taylor & Francis Group.","Bending stress; cantilever; deflection; optimisation; variable width",,,,,,,,,,,,,,,,,"Clarence, W., Silva, D., (2015) Sensors and actuators: engineering System Instrumentation, , Second, Boca Raton Florida: CRC Press, Taylor & Francis, ed; Roger, C.B., (2017) “flow measurement handbook”, , Second, UK: Cambridge University Press, ed; Abebe, B., Murthy, H.C.A., Zereffa, E.A., Multifunctional application of PVA-aided Zn-Fe-Mn coupled oxide nanocomposite (2021) Nanoscale Res Lett, 16 (1), pp. 1-21; Ricardo, G.J., Romero, D., Grilo, A., An Internet-of-Things (IoT) based cyber manufacturing framework for the assembly of microdevices (2019) Int J Computer Integr Manuf, 32 (4-5), pp. 430-440; Nguyen, N., Micromachined flow sensors a review (1997) Flow Meas Instrum, 8 (1), pp. 7-16; Qiu, L., Hein, S., Obermeier, E., Micro gas-flow sensor with integrated heat sink and flow guide”, sensors and actuators a: physical, Elsevier (1996) Pharmacology, Biochemistry, and Behavior, 54 (1-3), pp. 547-551; Neda, T., Nakamura, K., Takumi, T., A polysilicon flow sensor for gas flow meters (1996) Sens Actuators A, 54 (1-3), pp. 626-631; Makinwa, K.A.A., Huijsing, J.H., A wind-sensor interface using thermal sigma delta modulation techniques (2001) Sens Actuators A, 92 (1-3), pp. 280-285; Mailly, F., Giani, A., Bonnot, R., Anemometer with hot platinum thin film (2001) Sens Actuators A, 94 (1-2), pp. 32-38; Kim, S., Nam, T., Park, S., Measurement of flow direction and velocity using a micromachined flow sensor”, sensors and actuators a: physical, Elsevier (2004) The Journal of Clinical Investigation, 114 (2-3), pp. 312-318; Kolchuzhin, V.A., Shaporin, A.V., Simulation and design of the silicon drag-force-gas flow sensor based on piezoresistive effect (2002) Sensors, 2002. Proceedings of IEEE, 1, pp. 627-632. , Orlando, FL, USA; Du, L., Zhao, Z., Pang, C., “Design and fabrication MEMS-based micro solid state cantilever wind speed sensor (2007) Proc of International Conference on Information Acquisition, IEEE, Seogwipo, Korea (South), pp. 336-340; Zhang, S., Lou, L., Park, W.-T., Characterization of a silicon nanowire-based cantilever air-flow sensor (2012) J Micromech Microeng IOP Publ, 22 (9), p. 095008; Su, Y., Evans, A., Brunnschweiler, A., Characterization of a highly sensitive ultra-thin piezoresistive silicon cantilever probe and its application in gas flow velocity sensing (2002) J Micromech Microeng, 12 (6), pp. 780-785; Wang, Y.H., Lee, C.Y., Chiang, C.M., A MEMS-based air flow sensor with a free-standing micro-cantilever structure (2007) Sensors, 7 (10), pp. 2389-2401; Young Ho, S., Kim, B., A self-resonant micro flow velocity sensor based on a resonant frequency shift by flow-induced vibration (2010) J Micromech Microeng IOP Publ, 20 (7), p. 075024; Stemme, G.N., A monolithic gas flow sensor with polyimide as thermal insulator (1986) IEEE Trans Electron Devices, 33 (10), pp. 1470-1474; Tai, Y.-C., Muller, R.S., Lightly-doped polysilicon bridge as a flow meter (1988) Sens Actuators, 15 (1), pp. 63-75; Fan, Z., Chen, J., Zou, J., Design and fabrication of artificial lateral line flow sensors (2002) J Micromech Microeng, 12, pp. 655-661; Aviru Kumar, B., Basu, A., Bhattacharya, S., Micro/Nano fabricated cantilever based biosensor platform: a review and recent progress (2020) Enzyme Microb Technol, 139, p. 109559; Mathew, R., Sankar, A.R., A review on surface stress-based miniaturized piezoresistive SU-8 polymeric cantilever sensors (2018) Nano-Micro Lett, 10 (2), pp. 1-21; Alunda, B.O., Lee, Y.J., Cantilever-based sensors for high speed atomic force microscopy (2020) Sensors, Multidisciplinary Digital Publishing Institute, 20 (17), p. 4784. , 1-49; Emadi, T.A., Shafai, C., Thomson, D.J., Polymer-based gas sensor on a thermally stable micro-cantilever (2010) Procedia Eng, 5 (21-24); Kale, N.S., Nag, S., Pinto, R., Fabrication and characterization of a polymeric microcantilever with an encapsulated hotwire CVD polysilicon piezoresistor (2009) IEEE J Microelectromech Syst, 18 (1), pp. 79-87; Patkar, R.S., Apte, P.R., Rao, V., A novel SU8 polymer anchored low temperature HWCVD nitride polysilicon piezoresistive cantilever (2014) IEEE J Microelectromech Syst, 23 (6), pp. 1359-1365; Nordström, M., Keller, S., Lillemose, M., SU-8 cantilevers for bio/chemical sensing; fabrication, characterization and development of novel read-out methods (2008) J Sens, 8, pp. 1595-1612; Gerdes, H., Bandorf, R., Heckmann, U., Sputter deposition of strain gauges using ITO/Ag (2009) J Plasma Polym, 6, pp. S813-S816; Wisitsoraat, A., Patthanasetakul, V., Lomas, T., Low cost thin film based piezoresistive MEMS tactile sensor (2007) J Sens Actuators, A 139, pp. 17-22; Akhtar, J., Dixit, B.B., Pant, B.D., Polysilicon piezoresistive pressure sensors based on MEMS technology (2015) IETE J Res, 49 (6), pp. 365-377; Grech, D., Tarazona, A., Theresa De Leon, M., Large gauge factor of hot wire chemical vapour deposition in-situ boron doped polycrystalline silicon (2016) Mater Res Express IOP Publ, 3 (4), p. 045702; Shi, C., Liu, X., RongyanChuai, Piezoresistive sensitivity, linearity and resistance time drift of polysilicon nanofilms with different deposition temperatures (2009) Sensors (Basel), 9 (2), pp. 1141-1166. , Published online, 2009 Feb23; Shaw, J., Gelorme, J., LaBianca, N., Negative photoresists for optical lithography (1997) IBM J Res Develop, 41 (1-2), pp. 81-94; Lidong, D., Zhao, Z., Pang, C., Design and fabrication MEMS-based micro solid state cantilever wind speed sensor (2007) Procd. of International Conference on Information Acquisition, pp. 336-340. , Seogwipo, Korea (South): IEEE, 754; Kale, N.S., Rao, V.R., Design and fabrication issues in affinity cantilevers for bioMEMS applications (2006) J Microelectromech Syst, 15 (6), pp. 1789-1794. , h ttp://1 0.1 007/9 78-1-4613-08 85-0_4; Laghrouche, M., Adane, A., Boussey, J., A miniature Silicon hot wire sensor for automatic wind speed measurements (2005) Renewable Energy, 30, pp. 1881-1896; Dhonkal, A.K., Agarwal, V., Sengar, K., Sensitivity of the MEMS based piezoresistive wind speed sensor with comparative study of different shapes of paddles (2017) Int Res J Eng Technol, 4 (2), pp. 1693-1697; Agrawal, V., Patel, R., Boolchandani, D., Analytical modeling, simulation, and fabrication of a MEMS rectangular paddle piezo-resistive micro-cantilever-based wind speed sensor (2018) IEEE Sens J, 18 (18), pp. 7392-7398; Kishore Parsediya, D., Singh, J., Kumar Kankar, P., Variable width based stepped MEMS cantilevers for micro or pico level biosensing and effective switching (2015) J Mech Sci Technol, 29 (11), pp. 4823-4832; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Design and simulation of high SNR varying thickness embedded strain sensing polymer microcantilever for biosensing applications (2018) ASME 2018 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Quebec City, Quebec, Canada, pp. 1-7; Ur Rahman, H., Chan, K.Y., Ramer, R., Cantilever beam designs for RF MEMS switches (2010) J Micromech Microeng, 20 (7). , 075042-1-12; Kasambe, P.V., Barwaniwala, A., Sonawane, B., (2019), pp. 1-6. , Mathematical modeling and numerical simulation of novel cantilever beam designs for ohmic RF MEMS switch application, International Conference on Advances Computing, Communication and Control (ICAC3), Mumbai, India; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Analytical modelling, design optimisation and numerical simulation of a variable width cantilever beam MEMS switch (2021) Journal of advances in materials and processing technologies, pp. 1-21. , Taylor and Francis,. In:,. p; (2019) CoventorWare, CoSolve, Mem-MECH Solver, , https://coventor.com/mems-solutions/products/coventorware/, Accessed on 2022 Feb20th; https://www.comsol.co.in/,2019, Accessed on 2022 Jan25th,2019; (2019), http://www.intellisense.com/Solutions/RFDevices.html, Accessed on 2022 Jan20th; https://www.ansys.com/products/structures/ansys-mechanical,2018, Accessed on 2022 Jan25th,2018; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon gaussian laser exposure (2014) J Appl Phys, 116. , July, 043105-1-10; Gandhi, P., Bhole, K., Characterization of bulk lithography process for fabrication of 3D Micro-structures (2013) J Micro Nano Manuf, 1. , Dec, 041002-1-8; Gandhi, P., Bhole, K., 3D microfabrication using bulk lithography (2011) ASME international mechanical engineering congress and exposition, pp. 393-400. , Denver Colorado: USA, Nov; Bhole, K., Ekshinge, S., Gandhi, P., Fabrication of continuously varying thickness micro-cantilever using bulk lithography process (2014) ASME International Manufacturing Science and Engineering Conference, MSE, 100. , V001T01A009, Michigan, USA: June; Gandhi, P., Kamble, S., Bhole, K., Novel fabrication and characterization of diaphragm micromirror using bulk lithography (2012) ASME international mechanical engineering congress and exposition, Houston Texas USA, pp. 549-554. , Nov; Gandhi, P., Chaudhari, N., Bhole, K., Fabrication of Textured 3D Microstructures using Bulk Lithography ASME International Manufacturing Science and Engineering Conference, MSEC Notre Dame, pp. 959-964. , USA: 2012 Jun4-8; Kiran, S.B., Kale, B., Sublimation technique for minimization of stiction induced during fabrication of closely spaced microstructures (2022) Adv Mater Process Technol, 1-6; Pytel, A., Singer, F., (1999) “Strength of materials”, pp. 228-232. , Singapore: Addison Wesley,. p; De Rosa, M.A., Franciosi, C., The optimized Rayleigh method and mathematical vibrations and buckling problems (1996) J Sound Vib, 191 (5), pp. 795-808; Balagopal, R., Prasad Rao, N., Rokade, R.P., Simplified model to predict detection and natural frequency of steel pole structures (2018) J Inst Eng (India): Series A, 99 (3), pp. 595-607","Kasambe, P.V.; Department of Electronics Engineering, India; email: prashant_kasambe@spit.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Article,"Final","",Scopus,2-s2.0-85130881823
"Antrolia A., Shahare K., Manjardekar P., Raykar N.","57696826100;57696511000;57697140200;19934528100;","Multi-objective optimization of centre locking hub bolt of automobile wheel under conflicting objectives",2022,"Materials Today: Proceedings","56",,,"425","432",,,"10.1016/j.matpr.2022.01.394","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85130213855&doi=10.1016%2fj.matpr.2022.01.394&partnerID=40&md5=42fe6f3b7a87138ce8cb78835d422a42","Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Antrolia, A., Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Shahare, K., Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Manjardekar, P., Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Raykar, N., Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","The need for quick detachment and replacement of tires in the motorsports and Formula racing industry is achieved by the use of Central Locking (CL) hub bolt. The present work implements the concept of CL hub bolt for Formula Student Car where the use the conventional 4-bolt wheel hubs is more prevalent among many student teams. This modification leads to a simplified version for a Formula Student Car design in which the time for wheel assembly considerably reduces. The present work focuses on the optimization of a CL hub bolt design for Formula Student Car. The bolt design variables are constrained to satisfy two requirements which are conflicting: first, to minimize weight by maintaining stresses within the limits governed by different materials and second, to restrict bending deflection of the bolt. This situation demands use of the multi-objective optimization techniques. The bounded objective function method and utility function method based on stochastic random search are used for optimizing the design variables and to achieve the best balance between the values of weight and deflection. The results from two methods are presented in the form of variation in weight and deflection against the bounds and weighting factor respectively for bounded objective function method and utility function method. The selection of parameters like bounds and weighting factor is observed to be an important criterion in multi-objective optimization. An approach to help in the selection process is established based on several iterations. The developed approach allows users to fine-tune the results to achieve the desired values within the set constraints. © 2022","Bounded objective function method; Centre locking hub bolt; Multi-objective optimization; Random search; Stochastic optimization; Utility function method","Bending (forming); Locks (fasteners); Students; Wheels; Bounded objective function method; Center locking hub bolt; Function methods; Multi-objectives optimization; Objective functions; Random searches; Stochastic optimizations; Utility function method; Utility functions; Multiobjective optimization",,,,,,,,,,,,,,,,"Bhandari, V.B., Machine Design Data Book (2014), pp. 179-240. , Machine Design Data Book, New Delhi, Mc Graw Hill Education(India); Materials, A.Z.O., https://www.azom.com/article.aspx?ArticleID=6115, AISI 1018 Mild/Low Carbon Steel, July 2012. [Online]. Available: [Accessed 14 July 2021]; Materials, A.Z.O., https://www.azom.com.article.aspx?ArticleID=6636, Aluminium/Aluminium 6061 Alloy (UNS A96061), September 2012. [Online]. Available: [Accessed 14 July 2021]; Materials, A.Z.O., https://www.azo.com/properties.aspx?ArticleID=1547, Titanium Alloys - Ti6Al4V Grade 5, July 2002. [Online]. Available: [Accessed 14 July 2021]; Rao, S.S., Engineering Optimization: Theory and Practice (2020), pp. 721-737. , 5th ed. John Wiley & Sons Florida; Arora, J.S., Introduction to Optimum Design (2016), pp. 771-781. , 4th ed. Academic Press Iowa; Milliken, D.L., Milliken, W.F., Race car vehicle dynamics: problems, answers, and experiments (2003) SAE International; https://mechanicalc.com/reference/bolted-joint-analysis#hardware-sizes-inch, MechaniCalc, “Bolted Joint Analysis,” [Online]. Available: [Accessed 23 March 2021]; Srinath, L.S., Advanced Mechanics of Solids (2009), pp. 97-140. , 3rd ed. Tata McGraw-Hill Publishing Company Limited New Delhi; Dayal, M., (2017), pp. 113-244. , Strength of Materials, 6th ed., Mumbai","Antrolia, A.; Mechanical Engineering Department, Andheri, India; email: m1810002@spce.ac.in",,,"Elsevier Ltd",,,,,22147853,,,,"English","Mater. Today Proc.",Article,"Final","",Scopus,2-s2.0-85130213855
"Shaikh N.S., Lokhande V.C., Ji T., Ubale S., Mane V.J., Lokhande C.D., Shaikh H.M., Shaikh J.S., Praserthdam S., Sabale S., Kanjanaboos P.","57195916172;57004711800;8963396200;57213002480;57213002252;7006350368;57628064200;36538079100;57220081891;16320013000;36521096600;","Rational La-doped hematite as an anode and hydrous cobalt phosphate as a battery-type electrode for a hybrid supercapacitor",2022,"Dalton Transactions",,,,"","",,1,"10.1039/d1dt04164a","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85128799935&doi=10.1039%2fd1dt04164a&partnerID=40&md5=6febe39737b57de6d12b3b44694da99f","School of Materials Science and Innovation, Mahidol University, Faculty of Science, Nakhon Pathom, 73170, Thailand; Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea; Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Sardar Patel College of Engineering, Maharashtra, Andheri West Mumbai400053, India; Deparment of Chemical Engineering, Chulalongkorn University, Faculty of Engineering, Bangkok, 10330, Thailand; Jaysingpur College, P.G. Department of Chemistry, Maharashtra, Jaysingpur, 416101, India; Center of Excellence for Innovation in Chemistry (PERCH-CIC), Research and Innovation, Science, Ministry of Higher Education, Bangkok, 10400, Thailand","Shaikh, N.S., School of Materials Science and Innovation, Mahidol University, Faculty of Science, Nakhon Pathom, 73170, Thailand, Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Lokhande, V.C., Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea, Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Ji, T., Department of Electronics and Computer Engineering, Chonnam National University, Gwangju, 61186, South Korea, Department of ICT Convergence System Engineering, Chonnam National University, Gwangju, 61186, South Korea; Ubale, S., Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Mane, V.J., Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Lokhande, C.D., Centre of Interdisciplinary Research, D. Y. Patil University, Maharashtra, Kolhapur, 416006, India; Shaikh, H.M., Sardar Patel College of Engineering, Maharashtra, Andheri West Mumbai400053, India; Shaikh, J.S., Deparment of Chemical Engineering, Chulalongkorn University, Faculty of Engineering, Bangkok, 10330, Thailand; Praserthdam, S., Deparment of Chemical Engineering, Chulalongkorn University, Faculty of Engineering, Bangkok, 10330, Thailand; Sabale, S., Jaysingpur College, P.G. Department of Chemistry, Maharashtra, Jaysingpur, 416101, India; Kanjanaboos, P., School of Materials Science and Innovation, Mahidol University, Faculty of Science, Nakhon Pathom, 73170, Thailand, Center of Excellence for Innovation in Chemistry (PERCH-CIC), Research and Innovation, Science, Ministry of Higher Education, Bangkok, 10400, Thailand","In recent years, modern appliances require high energy density with a burst power supply. Hybrid supercapacitors show high performance based on high energy density without compromising power density and stability over thousands of charge-discharge cycles. In this work, the optimized hybrid electrodes using lanthanum-doped hematite (lanthanum-doped iron oxide) noted as 7.5%La-HMT as a negative electrode and hydrous cobalt phosphate (CoPO) as a battery-type positive electrode have been successfully fabricated via a simple hydrothermal method and a facile co-precipitation method, respectively. The 7.5%La-HMT showed excellent electrochemical performance due to doping of rare-earth La3+ metal ions, resulting in improvised active sites and reduction in the equivalent resistance. The 7.5%La-HMT operated at a high potential window (0 to −1.2 V) with an ultra-high specific capacitance (Sp) of 1226.7 F g−1 at 1 A g−1 with capacitance retention of 89.3% over 1000 cycles. CoPO could be operated at a high working window (0 to 0.45 V) with a specific capacity of 121.7 mA h g−1 at a current density of 2 A g−1 with capacitance retention of 85.4% over 1000 cycles. The configured CoPO//KOH//10%La-HMT aqueous hybrid capacitor device (Aq-HSC) could be operated at a potential window of 1.6 V and delivered a maximum energy density (E.D) of 83.6 W h kg−1 at a power density (P.D) of 3.2 kW kg−1 with Sp of 235.0 F g−1 at 2 A g−1 and 89.0% Sp retention over 5000 cycles. The simplicity of the synthesis methods for CoPO and 7.5%La-HMT along with their superior super-capacitive properties make them suitable for advanced electrical devices and hybrid vehicles. © 2022 The Royal Society of Chemistry",,"Capacitance; Cobalt compounds; Electric discharges; Electrodes; Lanthanum compounds; Metal ions; Metals; Precipitation (chemical); Rare earths; Secondary batteries; Supercapacitor; Capacitance retention; Haematite; Higher energy density; Hybrid supercapacitors; Lanthana doped; Performance based; Potential windows; Power densities; Power stability; Power supply; Hematite",,,,,"National Research Council of Thailand, NRCT: N41A640095; Center of Excellence for Innovation in Chemistry, PERCH-CIC; Ministry of Higher Education, Science, Research and Innovation, Thailand, MHESRI","This project is funded by the National Research Council of Thailand (NRCT) with the grant number N41A640095. We acknowledge the Center of Excellence for Innovation in Chemistry (PERCH-CIC), Ministry of Higher Education, Science, Research and Innovation, Thailand.",,,,,,,,,,"Djurišić, A.B., Liu, F.Z., Tam, H.W., Wong, M.K., Ng, A., Surya, C., Chen, W., He, Z.B., (2017) Prog. Quantum Electron., 53, pp. 1-37; Ferreira, A.C., Silva, J., Teixeira, S., Teixeira, J.C., Nebra, S.A., (2020) Renewable Energy, 154, pp. 581-597; Rani, P., Mishra, A.R., Mardani, A., Cavallaro, F., Alrasheedi, M., Alrashidi, A., (2020) J. Clean. Prod., 257, p. 120352; Yan, S., Luo, S., Feng, J., Li, P., Guo, R., Wang, Q., Zhang, Y., Bao, S., (2020) Chem. Eng. J., 381, p. 122695; Alberizzi, J.C., Frigola, J.M., Rossi, M., Renzi, M., (2020) Energy Convers. Manage., 223, p. 113303; Eladl, A.A., El-Afifi, M.I., Saeed, M.A., El-Saadawi, M.M., (2020) Int. J. Electr. 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China Mater.; Marje, S.J., Patil, V.V., Parale, V.G., Park, H.-H., Shinde, P.A., Gunjakar, J.L., Lokhande, C.D., Patil, U.M., (2022) Chem. Eng. J., 429, p. 132184; Mendoza, R., Oliva, J., Rodriguez-Gonzalez, V., (2022) Int. J. Energy Res.; Chadha, N., Bhat, M.Y., Hashmi, S.A., Saini, P., (2022) J. Energy Storage, 46, p. 103789; Pal, B., Yang, S., Ramesh, S., Thangadurai, V., Jose, R., (2019) Nanoscale Adv., 1, pp. 3807-3835; Ye, W., Wang, H., Ning, J., Zhong, Y., Hu, Y., (2021) J. Energy Chem., 57, pp. 219-232; Choudhary, N., Li, C., Moore, J., Nagaiah, N., Zhai, L., Jung, Y., Thomas, J., (2017) Adv. Mater., 29, p. 1605336; Poonam, Sharma, K., Arora, A., Tripathi, S.K., (2019) J. Energy Storage, 21, pp. 801-825; Zhang, W., Zhao, B., Yin, Y., Yin, T., Cheng, J., Zhan, K., Yan, Y., Li, J., (2016) J. Mater. Chem. 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J., 389, p. 123534; Kim, E., Kim, H., Park, B.-J., Han, Y.-H., Park, J.H., Cho, J., Lee, S.-S., Son, J.G., (2018) Small, 14, p. 1704209; Liu, M., Nan, H., Hu, X., Zhang, W., Qiao, L., Zeng, Y., Tian, H., (2021) J. Alloys Compd., 864, p. 158147; Li, J.-J., Liu, M.-C., Kong, L.-B., Shi, M., Han, W., Kang, L., (2015) Mater. Lett., 161, pp. 404-407; Shao, H., Padmanathan, N., McNulty, D., O′Dwyer, C., Razeeb, K.M., (2016) ACS Appl. Mater. Interfaces, 8, pp. 28592-28598; Mirghni, A.A., Momodu, D., Oyedotun, K.O., Dangbegnon, J.K., Manyala, N., (2018) Electrochim. Acta, 283, pp. 374-384","Ji, T.; Department of Electronics and Computer Engineering, South Korea; email: tji@chonnam.ac.kr
Kanjanaboos, P.; School of Materials Science and Innovation, Thailand; email: Pongsakorn.kan@mahidol.edu",,,"Royal Society of Chemistry",,,,,14779226,,DTARA,"35388825","English","Dalton Trans.",Article,"Article in Press","",Scopus,2-s2.0-85128799935
"Donde S., Maurya R.S.","57538765700;57225420052;","Characterizing soil's thermal property for earth air heat exchanger through experiment",2022,"Materials Today: Proceedings","51",,,"1516","1520",,1,"10.1016/j.matpr.2021.10.311","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85126647498&doi=10.1016%2fj.matpr.2021.10.311&partnerID=40&md5=77c5b96b502fdaca6e16f6f11edfa987","Department of Mechanical Engineering, SPCE, Mumbai, India","Donde, S., Department of Mechanical Engineering, SPCE, Mumbai, India; Maurya, R.S., Department of Mechanical Engineering, SPCE, Mumbai, India","The energy holding or dissipating capacity of soil is an important parameter for an earth air heat exchanger (EAHE). The present work deals with the experimental investigation of the thermal character of four distinct soil samples to assess the EAHE performance. The EAHE has been modelled as a heat source and the responses of soil samples as a function of time were recorded through a data logger. Results reveal that a soil sample has more effective thermal character compared to other samples for better performance of EAHE. For 6 h of continuous operation, the soil temperature was found to rise by 8 °C, which is the least among all the remaining samples. It is concluded that for longer continuous operation of EAHE, the soil with less thermal storage capacity, which has the potential to dissipate heat quickly, is better. The present study would be useful for EAHE designers to select an appropriate site. © 2022 Elsevier Ltd.","EAHE; Soil; Thermal- diffusivity; Thermal- saturation; Thermal-conductivity; thermal-storage","Digital storage; Heat exchangers; Heat storage; Soil surveys; Soils; Thermal diffusivity; Continuous operation; Earth-air heat exchangers; Energy; Experimental investigations; Heat exchanger performance; Soil sample; Soil thermal properties; Thermal; Thermal storage; Thermal- saturation; Thermal conductivity",,,,,"National Electronics and Computer Technology Center, NECTEC","The authors would like to thank Pharanakorn Rajabhat University for financial. The authors gratefully acknowledge Opto-Electrochemical Sensing Research Team (OEC), Spectroscopic and Sensing Devices Research Group, National Electronics and Computer Technology Center (NECTEC) for support of optical characterization instrumentation.",,,,,,,,,,"Hillel, D., (1982) Introduction to Soil Physics New, , York, Academic Press. 631.43 H54; Santamouris, M., Mihalakakou, G., Argiriou, A., Asimakopoulos, D.N., On the performance of buildings coupled with earth to air heat exchangers (1995) Solar Energy, 54 (6), pp. 375-380; de Paepe, M., Janssens, A., Thermo-hydraulic design of earth-air heat exchangers (2003) Energy and Buildings, 35 (4), pp. 389-397; Ghosal, M.K., Tiwari, G.N., Modeling and parametric studies for thermal performance of an earth to air heat exchanger integrated with a greenhouse (2006) Energy Conversion and Management, 47 (13-14), pp. 1779-1798; Darkwa, J., Kokogiannakis, G., Magadzire, C.L., Yuan, K., Theoretical and practical evaluation of an earth-tube (E-tube) ventilation system (2011) Energy and Buildings, 43 (2-3), pp. 728-736; Misra, R., Bansal, V., Agrawal, G.D., Mathur, J., Aseri, T.K., CFD analysis based parametric study of derating factor for Earth Air Tunnel Heat Exchanger (2013) Applied Energy, 103, pp. 266-277; Mathur, A., Srivastava, A., Agrawal, G.D., Mathur, S., Mathur, J., CFD analysis of EATHE system under transient conditions for intermittent operation (2015) Energy and Buildings, 87, pp. 37-44; Niu, F., Yu, Y., Yu, D., Li, H., Investigation on soil thermal saturation and recovery of an earth to air heat exchanger under different operation strategies (2015) Applied Thermal Engineering, 77, pp. 90-100; Akrouch, G.A., Sánchez, M., Briaud, J.-L., An experimental, analytical and numerical study on the thermal efficiency of energy piles in unsaturated soils (2016) Computers and Geotechnics, 71, pp. 207-220; Rodrigues, M.K., Coswig, F.S., Camargo, K.R., Isoldi, L.A., Brum, R.S., Ramalho, J.V.A., Vaz, J., dos Santos, E.D., Thermal performance simulations of Earth-Air Heat Exchangers for different soils of a coastal city using in-situ data (2018) Sustainable Energy Technologies and Assessments, 30, pp. 224-229; Kumar Agrawal, K., Yadav, T., Misra, R., Das Agrawal, G., Effect of soil moisture contents on thermal performance of earth-air-pipe heat exchanger for winter heating in arid climate: In situ measurement (2019) Geothermics, 77, pp. 12-23; Ahmad, H., Sakhri, N., Menni, Y., Omri, M., Ameur, H., Experimental study of the efficiency of earth-to-air heat exchangers: Effect of the presence of external fans Case Studies in Thermal Engineering, 28 (2021), p. 101461. , https://doi.org/10.1016/j.csite.2021.101461; Mostafaeipour, A., Goudarzi, H., Khanmohammadi, M., Jahangiri, M., Sedaghat, A., Norouzianpour, H., Chowdhury, S., Hosseini Dehshiri, S.J., Techno-economic analysis and energy performance of a geothermal earth-to-air heat exchanger (EAHE) system in residential buildings: A case study (2021) Energy Science & Engineering, 9 (10), pp. 1807-1825; Abu-Hamdeh, N.H., Thermal properties of soils as affected by density and water content (2003) Biosystems Engineering, 86 (1), pp. 97-102; Côté, J., Konrad, J.-M., Thermal conductivity of base-course materials (2005) Canadian Geotechnical Journal, 42 (1), pp. 61-78; Kline, S.J., McClintock, F.A., Describing uncertainties in single sample experiments (1953) Mech Eng, 75, pp. 3-8","Donde, S.; Department of Mechanical Engineering, India; email: swati.donde@nmims.edu","Shyam Kumar M.B.Karunamurthy K.Harish R.Feroskhan M.Gobinath N.",,"Elsevier Ltd","2nd International Conference on Sustainable Energy Solutions for a Better Tomorrow, SESBT 2021","23 July 2021 through 24 July 2021",,177457,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85126647498
"S. Bhole K., Kale B.","55485785300;57194765857;","Sublimation technique for minimization of stiction induced during fabrication of closely spaced microstructures",2022,"Advances in Materials and Processing Technologies","8","4",,"3889","3899",,2,"10.1080/2374068X.2022.2036445","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85125202335&doi=10.1080%2f2374068X.2022.2036445&partnerID=40&md5=564080b466746de17df1628ec57565cb","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India","S. Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kale, B., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India","Stiction effect during post-processing of the polymer-based microelectro mechanical systems (MEMS) is a major class of failure in which two arrayed microstructures adhere together. This stiction can be avoided by lowering the surface energy. One of the ways to have low surface energy is to have a mechanism of sublimation of solvent while releasing the microstructures. This paper presents the development of a sublimation technique for minimisation of the stiction effect, which gets induced between closely spaced microstructures. Solvent t-butyl alcohol is used as an enabler in the sublimation drying technique. Vacuum Pump for generation of low pressure for sublimation, Peltier chips acting as solid-state refrigerator and measurement systems like vacuum gauge and thermocouple are used in the developed system. This design of the system has laid generalised pathways for the development of the sublimation-based drying and releasing technique. To validate the concept of the process, test experiments are conducted on naturally available microfeatures (bird’s feather). The test experiments have shown the promise of releasing the microstructures without stiction. The proposed design is expected to open new avenues for post-processing of the microarrayed structures. © 2022 Informa UK Limited, trading as Taylor & Francis Group.","MEMS; micro-stereolithography; microfabrication; Stiction effect; sublimation drying",,,,,,,,,,,,,,,,,"Zaghloul, U., Papaioannou, G., Bhushan, B., On the reliability of electrostatic NEMS/MEMS devices: review of present knowledge on the dielectric charging and stiction failure mechanisms and novel characterization methodologies (2011) Microelectron Reliab, 51 (9-11); Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon gaussian laser exposure (2014) J Appl Phys, 116. , 043105-1-10; Gandhi, P., Bhole, K., Characterization of bulk lithography process for fabrication of 3D micro- structures (2013) J Micro Nano-Manuf, 1 (4). , 041002-1-8; Gandhi, P., Bhole, K., (2011) 3D microfabrication using bulk lithography, ASME international mechanical engineering congress and exposition, pp. 393-400. , Denver,. p; Zhang, X., Jiang, X.N., Sun, C., Microstereolithography of polymeric and ceramic microstructures (1999) Sensor Actuator, 77 (2), pp. 149-156; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Analytical modelling, design optimisation and numerical simulation of a variable width cantilever beam MEMS switch (2021) Adv Mater Process Technol, pp. 1-21; Maruo, S., Ikuta, K., Submicron stereolithography for production of freely movable mechanism by using single-photon polymerization (2002) Sensor Actuator A: Physical, 100, pp. 70-76; Gandhi, P., Deshmukh, S., Ramtekkar, R., On-axis linear focused spot scanning microstereolithography system: optomechatronic design, analysis and development (2013) J Adv Manuf Syst, 2, pp. 43-68; Deshmukh, S., Gandhi, P., Optomechanical scanning systems for microstereolithography (MSL): analysis and experimental verification (2009) J Mat Proc Tech, 209 (3), pp. 1275-1285; Deshmukh, S., Dubey, S., Gandhi, P., Optical analysis of scanning microstereolithography systems. Micromachining and microfabrication process technology XI (2006) Inter Soc Optics Photonics, p. 6109; Bhole, K.S., Kale, B., Techniques to minimise stair-stepping effect in micro-stereolithography process: a review (2021) Adv Mater Process Technol, pp. 1-20; Zhang, Y., Zhao, Y., Flexural contact in MEMS stiction (2012) Int J Solids Struct, 49, pp. 2203-2214; Rusu, F., Pustan, M., Bîrleanu, C., Analysis of the surface effects on adhesion in MEMS structures (2015) Appl Surf Sci, 358, pp. 634-640; María, D.C., Heath, W.P., Controller structure for plants with combined saturation and stiction (2019) Proc Inst Mech Eng Part I J Syst Control Eng, 233 (8), pp. 945-960; Kim, C.J., Kim, J.Y., Sridharan, B., Comparative evaluation of drying techniques for surface micromaching (1998) Sens Actuators A, 64, pp. 17-26; Mastrangelo, C.H., Hsu, C.H., Mechanical stability and adhesion of microstructures under capillary forces. I. Basic theory (1993) J Microelectromech S, 2 (1), pp. 33-43; Mastrangelo, C.H., Hsu, C.H., Mechanical stability and adhesion of microstructures under capillary forces Part II. Experiments (1993) J Microelectromech S, 2, pp. 44-55; Wu, D., Fang, N., Sun, C., Stiction problems in releasing of 3D microstructures and its solution (2006) Sensors Actuat A-phys, 128, pp. 109-115; Ramsak, M., Ravnik, J., Zadravec, M., Freeze-drying modelling of vial using BEM (2017) Eng Anal Bound Elem, 77, pp. 45-156; Hwang, Y., Candler, R.N., Fabrication process for integrating nanoparticles with released structures using photoresist replacement of sublimated p-dichlorobenzene for temporary support (2012) J Microelectromech S, 21 (6), pp. 1282-1284","S. Bhole, K.; Department of Mechanical Engineering, India; email: kiran_bhole@spce.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Article,"Final","",Scopus,2-s2.0-85125202335
"Pasi B.N., Mahajan S.K., Rane S.B.","57218911081;57197121288;56149402100;","Strategies for risk management in adopting Industry 4.0 concept in manufacturing industries",2022,"Journal of Science and Technology Policy Management",,,,"","",,1,"10.1108/JSTPM-04-2021-0057","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85125078896&doi=10.1108%2fJSTPM-04-2021-0057&partnerID=40&md5=3babaddeef39b579e71f3472d534f491","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Directorate of Technical Education, Maharashtra State, Mumbai, India; Department of Mechanical Engineering, Vishwaniketan’s iMEET, Navi Mumbai, India","Pasi, B.N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India, Department of Mechanical Engineering, Vishwaniketan’s iMEET, Navi Mumbai, India; Mahajan, S.K., Directorate of Technical Education, Maharashtra State, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: This paper aims to concentrate on classifying and analyzing the risks associated with the Industry 4.0 (I4.0) concept in manufacturing industries and developing strategies for managing risks. Design/methodology/approach: In this research paper, risks categories and their sub-components associated with the I4.0 concept are identified by performing a systematic literature survey of peer-reviewed journal articles and taking inputs from industry experts and academicians. Then, the importance of the identified risks and causal relations among risks are analyzed by using decision-making trial and evaluation laboratory (DEMATEL) method. Finally, the strategies are developed to mitigate the identified risks. Findings: From the literature survey, 6 risk categories and their 19 sub-components associated with the I4.0 concept are identified. The DEMATEL method resulted in economic risks and technical risks as the top two risk categories in the I4.0 concept. Ecological risks and legal and political risks are relatively low-ranked risk categories. Research limitations/implications: Causal relations and ranking among risk categories and their sub-components are obtained by analyzing responses received through questionnaires. There are other methods also available for risk analysis, which are beyond this study. Practical implications: This research paper will help the industrialists to effectively manage the risks involved in adopting I4.0 concept in manufacturing industries by adopting strategies. Originality/value: This research paper gives an idea about risks associated with the implementation of the I4.0 concept in manufacturing industries. Also, this paper uses the DEMATEL method for ranking the identified risk categories and their sub-components. © 2022, Emerald Publishing Limited.","DEMATEL; Industry 4.0; Manufacturing industries; Risk analysis; Risk management; Strategies",,,,,,,,,,,,,,,,,"Abedi, M., Torabi, S.A., Norouzi, G.H., Hamzeh, M., Elyasi, G.R., PROMETHEE II: a knowledge-driven method for copper exploration (2012) Computers and Geosciences, 46, pp. 255-263; Alexopoulos, K., Makris, S., Xanthakis, V., Sipsas, K., George, C., A concept for context-aware computing in manufacturing: the white goods case (2016) International Journal of Computer Integrated Manufacturing, 29 (8), pp. 839-849; Amaral, T.M., Costa, A.P., Improving decision-making and management of hospital resources: an application of the PROMETHEE II method in an emergency department (2014) Operations Research for Health Care, 3 (1), pp. 1-6; Ananthram, S., Chan, C., Challenges and strategies for global human resource executives: perspectives from Canada and the United States (2013) European Management Journal, 31 (3), pp. 223-233; Araujo, B.F., Tureta, C.A., Araujo, D.A., How do working mothers negotiate the work-home interface? 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Sci. Technol. Policy Manage.",Article,"Article in Press","",Scopus,2-s2.0-85125078896
"Rane S.B., Potdar P.R., Mishra N.","56149402100;57208580113;57202760964;","Design of experiments and Monte Carlo simulation-based prediction model for productivity improvement in printing industry",2022,"International Journal of Productivity and Quality Management","35","1",,"78","116",,,"10.1504/IJPQM.2022.120707","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85124842966&doi=10.1504%2fIJPQM.2022.120707&partnerID=40&md5=e68e169020830915c220865b6c091dc6","Sardar Patel College of Engineering (SPCE), Andheri West, Mumbai, 400058, India","Rane, S.B., Sardar Patel College of Engineering (SPCE), Andheri West, Mumbai, 400058, India; Potdar, P.R., Sardar Patel College of Engineering (SPCE), Andheri West, Mumbai, 400058, India; Mishra, N., Sardar Patel College of Engineering (SPCE), Andheri West, Mumbai, 400058, India","In today's cut-throat business competition, productivity improvement is essential for any organisation to reduce high production costs. The objective of this research is to improve the material productivity of the printing process by implementing Six Sigma methodology. In this study, define measure analysis improve and control (DMAIC) approach has been demonstrated with a combination of appropriate tools and techniques in Six Sigma methodology. A prediction model has been developed based on the design of experiment and Monte Carlo simulation (MCS). This study identified that start-up waste as a vital cause of less material productivity. This research concludes that every organisation should reinvestigate the process and explore the opportunity for productivity improvement by using the appropriate techniques. This case study has reduced print waste and electricity consumption annually by 89,064 kg and 648,000 kWh, respectively. This productivity improvement case creates an impact on the environment by reducing CO2 emission and chemical waste. © 2022 Inderscience Enterprises Ltd.","Cause and effect matrix; Design of experiment; DMAIC; DOE; FMEA; Monte Carlo simulation; Prediction model; Six Sigma",,,,,,,"Authors would like to thank Newspaper Printing organisation for this case study. Authors are grateful to all the experts for their support to identify the potential problem along with providing valuable inputs for developing the solutions. Authors are also thankful to the anonymous referees for their valuable and constructive comments which helped to improve the structure and quality of this paper. Authors are sincerely thank all researchers who made literature available, industry experts from printing industry for their comments, Sardar Patel College of Engineering and organisers for their intelligent efforts in making this event successful.",,,,,,,,,,"Abri, A.G., Mahmoudzadeh, M., Impact of information technology on productivity and efficiency in Iranian manufacturing industries (2015) Journal Ind. Eng. Int, 11, pp. 143-157; Alhuraish, I., Robledo, C., Kobi, A., A comparative exploration of lean manufacturing and Six Sigma in terms of their critical success factors (2017) J. Clean. 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Phys, 330, pp. 1022-1042","Potdar, P.R.; Sardar Patel College of Engineering (SPCE), Andheri West, India; email: prathameshpotdar122@gmail.com",,,"Inderscience Publishers",,,,,17466474,,,,"English","Int. J. Prod. Qual. Manage.",Article,"Final","",Scopus,2-s2.0-85124842966
"Pawar P., Buktar R.","57429953200;57205055392;","Detection and Classification of Defects in Ultrasonic Testing Using Deep Learning",2022,"Lecture Notes in Networks and Systems","237",,,"1","15",,1,"10.1007/978-981-16-6407-6_1","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123588796&doi=10.1007%2f978-981-16-6407-6_1&partnerID=40&md5=619393195cc27224471812253011c62e","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Pawar, P., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Buktar, R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Automated inspection systems are gaining importance for quick inspection and maintenance purpose for large volume of data in welding fields. Welding is very complex process and during the process defects may arise in weld zone. Identifying those defects requires skill and is impractical for large volume of data. This paper focuses to solve the problem by implementing deep learning model which is part of industrial 4.0 revolution, to classify seven common defects and locate them automatically for ‘v’ butt joint weld of 12 mm plate thickness for 19 angles from 2 groups by using ‘A’ scan signal of non-destructive testing method, phased array ultrasonic testing (PAUT). For feature extraction, discrete wavelet transform (DWT) is used with selection of proper mother wavelet. For supervised training, two architectures namely feed forward neural network (FFNN), convolutional neural network (CNN) are used. FFNN used features from DWT and for CNN we used both features and whole signal for training. Finally we discussed about implementation details for different models. It is observed that due to distribution of training data all the models achieves about 80% accuracy but for simple applications FFNN can give satisfactory results but if output is complex then CNN should be implemented. © 2022, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.","A-scan signals; Artificial neural networks; Convolutional neural networks (CNN); Deep learning; Discrete wavelet transform (DWT); Ultrasonic testing (UT)",,,,,,,,,,,,,,,,,"Gholizadeha, S., A review of non-destructive testing methods of composite materials (2016) Procedia Struct Integr, 1, pp. 50-57; Suh, D.M., Kim, W.W., A new ultrasonic technique for detection and sizing of small cracks in studs and bolts (1995) J Nondestruct Eval, 14 (4); Li B, Shen Y, Hu W (2011) The study on defects in aluminum 2219-T6 thick butt friction stir welds with the application of multiple non-destructive testing methods. 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In: 15th WCNDT, conference proceedings (2000) Roma; Ali, M.G.S., Elsayed, N.Z., Eid, A.M., Investigation of ultrasonic calibration using steel standard reference blocks (2012) Walailak J Sci Technol (WJST), 9 (4), pp. 417-424; Safari, A., Zhang, J., Velichko, A., Drinkwater, B.W., Assessment methodology for defect characterization using ultrasonic arrays (2017) NDT and E Int, 94, pp. 126-136","Pawar, P.; Department of Mechanical Engineering, India; email: pranavpawar77@gmail.com","Gunjan V.K.Zurada J.M.",,"Springer Science and Business Media Deutschland GmbH","2nd International Conference on Recent Trends in Machine Learning, IoT, Smart Cities and Applications, ICMISC 2021","28 March 2021 through 29 March 2021",,271059,23673370,9789811664069,,,"English","Lect. Notes Networks Syst.",Conference Paper,"Final","",Scopus,2-s2.0-85123588796
"S. Kale B., S. Bhole K., Sharma C.","57194765857;55485785300;57213588846;","Effect of anisotropies in formation of viscous fingering in lifting plate Hele-Shaw cell",2022,"Advances in Materials and Processing Technologies","8","4",,"3780","3793",,3,"10.1080/2374068X.2021.2013679","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85121444138&doi=10.1080%2f2374068X.2021.2013679&partnerID=40&md5=d5b86f406c1f9f09c81c175f9672e14c","Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","S. Kale, B., Department of Mechanical Engineering, Datta Meghe College of Engineering, Navi Mumbai, India; S. Bhole, K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Sharma, C., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","This study presents an experimental investigation of viscous fingering formation under anisotropies in Hele-Shaw cell. The lifting plate Hele-Shaw cell employed in this study comprises of two parallel plates firmly positioned one over another with a minuscule gap filled with high viscous fluid, and a low viscous fluid flows through this gap. Two fluids of different viscosity interact in this cell and instabilities are generated due to the viscosity difference. These instabilities need to be suppressed to get controlled and stabilised patterns. Literatures presented these instabilities and explored the various techniques to stabilise them. In this study, a novel strategy consists of use of anisotropy and protrusion on the lower plate of the cell to suppress instabilities is presented. The holes and protrusions explicitly generate the least resistance to the flow of low viscous fluid (air). This results in control flow and guided path for low viscous fluid (air) penetrating into a high viscous fluid. These methods have given excellent control over the instabilities, and beautifully controlled naturally inspired patterns are obtained. Microfractals present in nature, such as leaf venation, honeycomb pattern, are examined and imitated by the proposed method. Experimental results confirm the acceptability of this control strategy. © 2021 Informa UK Limited, trading as Taylor & Francis Group.","anisotropy; Lifting plate Hele-Shaw cell; microfractals; protrusion; viscous fingering",,,,,,,,,,,,,,,,,"Saffman, P., Viscous fingering in Hele-Shaw cells (1986) J Fluid Mech, 173, pp. 73-94; Taylor, G., Saffman, P., A note on the motion of bubbles in a Hele-Shaw cell and porous medium (1959) Q J Mech Appl Math, 12 (3), pp. 265-279; Kale, B., Bhole, K., Parametric Analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell (2018) IOP Conference Series: Materials Science and Engineering, 577, p. 012154. , Bangalore, India:. In:,. p; Kale, B.S., Bhole, K.S., Khond, P., Experimental modeling of Meso Fractals generated from non-newtonian fluid from Lifting Plate Hele-Shaw Cell (2019) Int J Adv Mater Manuf Charact, 9 (2), pp. 29-35; Kale, B.S., Bhole, K.S., Controlling the instabilities in the radial Hele-Shaw cell (2020) Int J Theoretical Appl Multiscale Mech, 3 (3), pp. 245-260; Singare, A.A., Kale, B.S., Bhole, K.S., Experimental Characterization of Meso-Micro fractals from nanoparticle seeded resin in Lifting Plate Hele-Shaw Cell (2018) Proceedings of Materials Today, pp. 24213-24220. , 5(11), Bangalore, India:. In:,. p; Lee, C.K., Abdullah, M.Z., Ismail, M.A., Enhancement of nanofluid heat transfer in a mini-tube using SiO2 nanoparticles (2019) Adv Mater Process Technol, 5 (4), pp. 607-616; Sabet, N., Hassanzadeh, H., Abedi, J., Control of viscous fingering by nanoparticles (2017) Phys Rev E, 6, p. 96; Islam, T.U., Gandhi, P.S., Viscous fingering in multiport Hele Shaw cell for controlled shaping of fluids (2017) Sci Rep, p. 7; Devkare, S.S., Bhole, K.S., Kale, B.S., Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell (2020) Proceedings of Materials Today, pp. 1920-1926. , 28, May, 29- 30, Chandigarh, India:. In:,./ p; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Analytical modelling, design optimisation and numerical simulation of a variable width cantilever beam MEMS switch (2021) Adv Mater Process Technol, pp. 1-21; Kale, B.S., Bhole, K.S., Devkare, S.S., Simulation of viscous fingers developed in Lifting Plate Hele-Shaw cell in volume of fluid model (2020) Int J Advanc Sci Technol, 29 (3), pp. 14867-14874; Chen, C., Huang, C., Wang, L., Controlling radial fingering patterns in miscible confined flows (2010) Phys Rev E, 5, p. 82; Zheng, Z., Kim, H., Stone, H., Controlling viscous fingering using time-dependent strategies (2015) Phys Rev Lett, 17, p. 115; Al-Housseiny, T., Tsai, P., Stone, H., Control of interfacial instabilities using flow geometry (2012) Nat Phys, 8 (10), pp. 747-750; Al-Housseiny, T., Stone, H., Controlling viscous fingering in tapered Hele-Shaw cells (2013) Phys Fluids, 25 (9), p. 092102; Pihler Puzović, D., Illien, P., Heil, M., Suppression of complex Fingerlike patterns at the interface between air and a viscous fluid by elastic membranes (2012) Phys Rev Lett, 7, p. 108; Pihler Puzović, D., Périllat, R., Russell, M., Modelling the suppression of viscous fingering in elastic-walled Hele-Shaw cells (2013) J Fluid Mech, 731, pp. 162-183; Segall, A., Vantzos, O., Ben Chen, M., Hele-Shaw flow simulation with interactive control using complex Barycentric coordinates (2016) Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation (SCA ‘16), pp. 85-95. , Eurographics Association, Goslar: DEU,. In; Gandhi, P.S., Deshmukh, S., A 2D optomechanical focused laser spot scanner: analysis and experimental results for microstereolithography (2009) J Micromech Microeng, 20 (1), p. 015035; Deshmukh, S., Gandhi, P.S., Optomechanical scanning systems for microstereolithography (MSL): analysis and experimental verification (2009) J Mater Process Technol, 209 (3), pp. 1275-1285; Manda, P., Radhya, R.J.H.M., Gowrishankar, M.C., Microstructure, texture and mechanical properties of metastable beta titanium alloy Ti–5Al–3.5Mo–7.2V– 3Cr (2020) Adv Mater Process Technol, 6 (2), pp. 206-232","S. Kale, B.; Department of Mechanical Engineering, Airoli, India; email: bharat.kale@dmce.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Article,"Final","",Scopus,2-s2.0-85121444138
"Bhole K.S., Kale B.","55485785300;57194765857;","Techniques to minimise stair-stepping effect in micro-stereolithography process: A Review",2022,"Advances in Materials and Processing Technologies","8","4",,"3615","3634",,7,"10.1080/2374068X.2021.1970997","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113761708&doi=10.1080%2f2374068X.2021.1970997&partnerID=40&md5=3eca8b4ae336ea911a8a74ea7647c2d0","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Maharashtra, Mumbai, India; Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Maharashtra, Navi Mumbai, India","Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Maharashtra, Mumbai, India; Kale, B., Department of Mechanical Engineering, Datta Meghe College of Engineering, Airoli, Maharashtra, Navi Mumbai, India","Recently, micro-stereolithography (MSL) has emerged as a promising fabrication process to develop three-dimensional (3D) micro-structures by photocuring 2D layers and stacking the same on the previous one as per the order of curing. Successful fabrications of 3D micro-structures are demonstrated by variants of the MSL. However, stair-stepping effect along the build direction is commonly observed in all the variants of the process due to the inherent characteristics of layer-by-layer fabrication. Various techniques are proposed to minimise stair-stepping effects inherently developed on the lateral surface (surface formed due to stacking of layers) of 3D micro-structures. This paper presents an exhaustive review of all reported techniques on minimisation of stair-stepping effect. The developed techniques are applicable for various types of micro-structures and variants of micro-stereolithography. This review lays the basic guidelines for the development of a process plan based on the micro-structures to be developed and the type of micro-stereolithography process to be deployed. © 2021 Informa UK Limited, trading as Taylor & Francis Group.","micro-electro mechanical systems (mems); micro-fabrication; micro-machining; Micro-stereolithography; stair-stepping effects",,,,,,,,,,,,,,,,,"Arnand, B., Bernhard, P., Renaud, P., Microstereolithography: concepts and applications (2001) 8th International Conference on Emerging Technologies and Factory Automation (ETFA), pp. 289-298. , Antibes-Juan les Pins, France: November, 2nd; Gandhi, P., Deshmukh, S., A 2D optomechanical focused laser spot scanner: analysis and Experimental results for microstereolithography (2009) J Micromech Microeng, 20 (1), pp. 1-11; Gandhi, P., Deshmukh, S., Ramtekkar, R., On-Axis Linear Focused Spot Scanning Microstereolithography System: optomechatronic Design Analysis and Development (2013) J Adv Manuf Syst, 12 (1), pp. 43-68; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon focused Gaussian laser exposure (2014) J Appl Phys, 116 (4), pp. 1-10; C E, C., Greco, A., Maffezzoli, A., Photopolymerization kinetics of an epoxy-based resin for stereolithography (2004) J Appl Polym Sci, pp. 3484-3491. , 72; Sun, C., Fang, N., Wu, D.M., Projection micro-stereolithography using digital micro-Mirror dynamic mask (2005) Sens Actuat, 121 (1), pp. 113-120; Zhang, X., Sun, C., Micro-stereolithography of polymeric and ceramic microstructures (1999) Sens Actuators A, 77, pp. 149-156; Maruo, S., Ikuta, K., Ogawa, M., Laser-driven multi-degrees-of-freedom nanomanipulators produced by two-photon microstereolithography (2004) Proceedings of Fifth International Symposium on Laser Precision Microfabrication, 5662, pp. 89-95. , October, Nara Japan; Farsari, M., Huang, S., Young, R., Four-wave mixing studies of UV curable resins for microstereolithography (1998) J Photochem Photobiol A, 115 (1), pp. 81-87; Serge, M., Virginie, L., Serge, C., Microstereolithography using a dynamic mask generator and a noncoherent visible light source (1999) Proceedings of SPIE, Design, Test, and Microfabrication of MEMS and MOEMS, 3680, pp. 553-561. , Paris, France; Oda, G., Miyoshi, T., Takaya, Y., Microfabrication of overhanging shape using LCD microstereolithography (2004) Proceedings of SPIE Fifth International Symposium on Laser Precision Microfabrication, 5662, pp. 649-655. , Nara, Japan; Bertsch, A., Zissi, S., Jezequel, J., Microstereolithography using a liquid crystal display as dynamic mask generator (1997) Microsyst Technol, 3 (2), pp. 42-47; Liang, E., Zhang, W., Chen, Y., Fabrication of chiral channel in three-dimensional photonic crystal using projection microstereolithography (2019) Optik, 185, pp. 1045-1050; Troksa, A., Eshelman, H., Chandrasekaran, S., 3D printed nanoporous ceramics: tunable feedstock for direct ink write and projection microstereolithography (2021) Mater Des, 198, pp. 1-8. , 109337; Lee, J., Lu, Y., Kashyap, S., Liquid bridge microstereolithography (2018) Additive Manuf, 21, pp. 76-83; Alamdari, A., Lee, J., Kim, M., Effects of surface energy reducing agents on adhesion force in liquid bridge microstereolithography (2020) Addit Manuf, 36, pp. 1-9. , 101522; Mao, H., Leung, Y., Li, Y., Multiscale stereolithography using shaped beams (2017) J Micro- Nano-Manuf, 5; Taufik, M., Jain, P., On the achieving uniform finishing allowance through identifying shape deviation for additive manufacturing (2021) Aust J Mech Eng, pp. 1-19; Wang, X., Zhou, Y., Zhou, L., Microstructure and properties evolution of silicon-based ceramic cores fabricated by 3D printing with stair-stepping effect control (2021) J Eur Ceramic Soc, 41, pp. 4650-4657; Maruo, S., Kawata, S., Two photon-absorbed near infrared photopolymerization for three Dimensional microfabrication (1998) J Microelectromech Syst, 7 (4), pp. 411-415; Maruo, S., Nakamura, O., Kawata, S., Three dimensional microfabrication with two photon absorbed photopolymerization (1997) Opt Lett, 22 (2), pp. 132-137; Lee, K., Kim, R., Yang, D., Advances in 3D nano/microfabrication using two- Photon initiated polymerization (2008) Progress Polym Sci, 33, pp. 631-681; Maruo, S., Ikuta, K., Korogi, H., Force-controllable optically driven micromachines fabricated by single step two-photon microstereolithography (2003) J Microelectromech Syst, 12 (5), pp. 533-539; Maruo, S., Ikuta, K., New microstereolithography (super-IH process) to create 3D freely movable micromechanism without sacrificial layer technique (1998) Proceedings of the 1998 International Symposium on Micromechatronics and Human Science. MHS ’98, pp. 115-120. , Nagoya, Japan; Benay, S., David, W.R., Use of parameter estimation for stereolithography surface finish improvement (2008) Rapid Prototyping J, 14, pp. 213-220; Adake, C., Gandhi, P., Bhargava, P., Effect of curing protocol on mechanical behaviour of green ceramic bodies fabricated in ceramic microstereolithography (2020) Trans Indian Ceramic Soc, 78 (4), pp. 232-238; Specifying non-uniform cusp heights as a potential for adaptive Slicing (2000) Rapid Prototyping J, 6, pp. 204-211. , D K U C, Sanni E; Tata, K., Fadel, G., Bagchi, A., Efficient slicing for layered manufacturing (1998) Rapid Prototyping J, 4 (4), pp. 151-167; Tyberg, J., Bohn, J., Local adaptive slicing (1998) Rapid Prototyping J, 4 (3), pp. 118-127; Hope, R., Jacobs, P., Roth, R., Rapid prototyping with sloping surfaces (1997) Rapid Prototyping J, 3, pp. 12-19; Sabourin, E., Houser, S., Bohn, J., Adaptive slicing using stepwise uniform refinement (1996) Rapid Prototyping J, 2, pp. 20-26; Pandey, P., Reddy, N., Dhande, S., Slicing procedures in layered manufacturing: a Review (2003) Rapid Prototyping J, 9 (5), pp. 274-288; Yayue, P., Yong, C., Smooth surface fabrication based on controlled meniscus and cured depth in microstereolithography (2015) J Micro Nano-Manuf, , 3(3; Farsari, M., Claret-Tournier, H.S., A novel high-accuracy microstereolithography method employing an adaptive electro-optic mask (1998) J Mater Process Technol, 107, pp. 167-172; Deshmukh, S., Gandhi, P., Optomechanical scanning systems for microstereolithography (MSL): analysis and experimental verification (2008) J Mater Process Technol, 209, pp. 1275-1285; Farsari, M., Huang, S., Young, R.C.D., Holographic characterization of epoxy resins at 351.1 nm (1998) Opt Eng, 37, pp. 2754-2760; Bertsch, A., Lorenz, H., Renaud, P., 3D microfabrication by combining microstereolithography and thick resist UV lithography (1994) Sens Actuators A, 73 (1), pp. 14-23; Schaeffer, P., Bertsch, A., Corbel, S., Industrial photochemistry xxiv relations between light flux and polymerized depth in laser stereolithography (1997) J Photochem Photobiol A, 107 (1-3), pp. 283-290; Rosa, F., Graziosi, S., A parametric and adaptive slicing (PAS) technique: general method and experimental validation (2019) Rapid Prototyping J, 25 (1), pp. 126-142; Gandhi, P., Bhole, K., 3D microfabrication using Bulk Lithography (2011) Proceedings of the International Mechanical Engineering Congress and Exposition, 11, pp. 393-399. , IMECE2011-62473, Denver, USA; Gandhi, P., Bhole, K., Characterization of Bulk Lithography process for fabrication of three-Dimensional micro-structures. ASME (2013) J Micro Nano-Manuf, 1; Gandhi, P., Bhole, K., Chaudhari, N., Fabrication of textured 3D microstructures using ‘Bulk Lithography (2012) MSEC2012-7357, pp. 959-964. , Notre Dame, Indiana, USA; Gandhi, P., Kamble, S., Bhole, K., Novel fabrication and characterization of diaphragm Micromirror using bulk lithography (2012) Proceedings of the International Mechanical Engineering Congress and Exposition, 9, pp. 549-554. , IMECE Houston, USA; Jariwala, A., Schwerzel, R.E., Rosen, D.W., Real-time interferometric monitoring system for exposure controlled projection lithography (2011) Proceedings of Solid Freeform Fabrication Symposium Austin, 22, pp. 99-110. , USA; Jariwala, A., Schwerzel, R.E., Harold, A.N., Exposure controlled projection lithography for microlens fabrication (2012) Proceedings of SPIE 8249 California, , USA: 824917–1–824917–13; Park, I., Ha, Y., Lee, S., Dithering method for improving the surface quality of a microstructure in projection microstereolithography (2011) Int J Adv Manuf Technol, 52, pp. 545-553; Slant beam rotation UV scanning to eliminate stair-steps in stereolithography fabrications (2009) Int J Adv Manuf Technol, 41 (5-6), pp. 527-537. , M A K, Tamotsu M; Maruo, S., Ikuta, K., Submicron stereolithography for the production of freely movable mechanisms by using single photon polymerization (2002) Sens Actuators A, 100 (1), pp. 70-76; Yayue, P., Xuejin, Z., Chi, Z., Smooth surface fabrication in mask projection based stereolithography (2012) J Manuf Processes, 14 (4), pp. 460-470; An analytical solution for a partially wetting Puddle and the location of the static contact angle (2010) J Colloid Interface Sci, 348, pp. 232-239. , D M E, Fuentes J, R L C, et al; Singare, A., Kale, B., Bhole, K., Experimental Characterization of Meso-Micro fractals from nanoparticle seeded resin in Lifting Plate Hele-Shaw Cell (2018) Proceedings of Materials Today, pp. 24213-24220. , May, 11, Bangalore, India: : p; Kale, B., Bhole, K., Parametric Analysis for forming meso fractals from nanoparticle Seeded resin in Hele Shaw cell (2019) IOP Conf Ser Mater Sci Eng, 577, p. 1; Kale, B., Bhole, K., Controlling the instabilities in the radial Hele-Shaw cell (2020) Int J Theoretical Appl Multiscale Mech, 3 (3), pp. 245-260; Devkare, S., Bhole, K., Kale, B., Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell (2020) Proceedings of Materials Today, pp. 1920-1926. , 28, May, 29–30, Chandigarh, India: : p","Bhole, K.S.; Department of Mechanical Engineering, Maharashtra, India; email: kiran_bhole@spce.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Review,"Final","",Scopus,2-s2.0-85113761708
"Kasambe P.V., Bhole K.S., Bhoir D.V.","56539919200;55485785300;36917814700;","Analytical modelling, design optimisation and numerical simulation of a variable width cantilever beam MEMS switch",2022,"Advances in Materials and Processing Technologies","8","3",,"2850","2870",,5,"10.1080/2374068X.2021.1945263","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85110807287&doi=10.1080%2f2374068X.2021.1945263&partnerID=40&md5=eeb386cf3a928b5c11c46e00c0ddcef5","Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Kasambe, P.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bhoir, D.V., Department of Electronics Engineering, Fr. Conceicao Rodrigues College of Engineering, Mumbai, India","Pull-in potential of electrostatic actuation ohmic cantilever beam type RF MEMS switch is lowered by reducing stiffness constant of its cantilever beam. However, this design objective is highly interlinked to major criteria like its mechanical, RF performance parameters, materials used and fabrication constraints. The purpose of this study is to address the design methodology of such interdisciplinary complex phenomenon to obtain global optimum solution. A variable width cantilever beam design is proposed to lower its pull-in potential. The design optimisation methodology adopted in this study uses analytical model of stiffness constant, major interlinked criteria based on cantilever beam profile and geometric dimensions of the switch. This methodology is further identified as a multivariable constraint optimisation problem to be solved using evolutionary optimisation algorithm for various geometric dimensions of the switch. 3-D modelling, simulation of the optimised device for pull-in potential, mechanical and RF performance parameters is carried out using CAD tools. The results obtained from simulation and analytical models are in agreement. The proposed optimised design opens a new avenue in RF MEMS switch design as it satisfies additional essential performance parameters compared to the results of previous published designs concluding significance of design optimisation methodology adopted in this work. © 2021 Informa UK Limited, trading as Taylor & Francis Group.","Cantilever; electrostatic actuation; low pull-in; optimisation; variable width",,,,,,,,,,,,,,,,,"Arora, J.S., (2017) Introduction to optimum design, , Academic Press Publishing; Boston, 3rd Edition; Verma, P., Punetha, D., Pandey, S.K., Sensitivity optimization of MEMS based piezoresistive pressure sensor for harsh environment (2020) Sil Springer, 12 (11), pp. 2663-2671; Pantano, M.F., Calusi, B., Mazzolai, B., Load sensor instability in MEMS-based tensile testing devices (2019) Front Mater, 6 (161), pp. 1-8; Alrashdan, M.H.S., Hamzah, A.A., Majlis, B.Y., Power density optimization for MEMS piezoelectric micro power generator below 100 Hz applications (2018) Microsyst Technol Springer, 24 (4), pp. 2071-2084; 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Iannacci, J., RF MEMS for high-performance and widely reconfigurable passive components -a review with focus on future telecommunications, internet of things (IoT) and 5G (2017) J King Saud Univ Sci, 29 (4), pp. 436-443; Kaajakari, V., (2009) Practical MEMS: design of microsystems, accelerometers, gyroscopes, RF MEMS, optical MEMS, and microfluidic systems, , Las Vegas, NV: Small Gear Publishing; Jaafar, H., Beh, K.S., Yunus, N.A.M., A comprehensive study on RF MEMS switch (2014) Microsyst Technol, 20 (12), pp. 2109-2121; Rahman, H.U., Ramer, R., Experimental considerations for fabrication of RF MEMS switches (2010) IEEE, 2nd Asia Symposium on Quality Electronic Design (ASQED), pp. 49-55. , Piscataway, USA, ; RF MEMS switches designed for high-performance uniplanar microwave and mm-wave circuits (2018) MEMS Sensors: Design and Application, pp. 117-146. , London,; p; Chang, H.-P., Qian, J., Cetiner, B.A., Design and process considerations for fabricating RF MEMS switches on printed circuit Boards (2005) J Microelectromech Syst, 14 (6), pp. 1311-1322; 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Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Design and simulation of high SNR varying thickness embedded strain sensing polymer microcantilever for biosensing applications (2018) ASME 2018 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, pp. 1-7. , Quebec City, Quebec, Canada; (2019) CoventorWare, CoSolve, Mem-MECH Solver, , https://coventor.com/mems-solutions/products/coventorware/, Accessed on 9th January 2021; (2019), https://www.comsol.co.in/, Accessed on 9th January 2021; (2019), http://www.intellisense.com/Solutions/RFDevices.html, Accessed on 15th January 2021; (2018), https://ansys.com/en-in/products/electronics/ansys-hfss, Accessed on 15th January 2021; Zhang, H., Lennox, B., Goulding, P.R., A float-encoded genetic algorithm technique for integrated optimization of piezoelectric actuator and sensor placement and feedback gains (2000) Smart Mater Struct, 9 (4), p. 552; Pham, D.T., Ghanbarzadeh, A., Koc, E., The bees algorithm-a novel tool for complex optimization problems (2006) Intelligent Production Machines and Systems, pp. 454-459. , Elsevier; 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Kluwer,; Netherlands; Vu, T.M., Prigent, G., Ruan, J., Design and fabrication of RF-MEMS switch for V-band reconfigurable application (2012) Prog Electromagnet Res, 39, pp. 301-318; De Rosa, M.A., Franciosi, C., The optimized Rayleigh method and mathematical vibrations and buckling problems (1996) J Sound Vib, 191 (5), pp. 795-808; Balagopal, R., Prasad Rao, N., Rokade, R.P., Simplified model to predict detection and natural frequency of steel pole structures (2018) J Inst Eng (India): Series A, 99 (3), pp. 595-607; Shekhar, S., Vinoy, K.J., Ananthasuresh, G.K., Switching and release time analysis of electrostatically actuated capacitive RF MEMS switches (2011) Sens Transd, 130 (7), pp. 77-90; (2018), https://in.mathworks.com/products/.html, Accessed on 15th January 2021; Spasos, M., Charalampidis, N., Mallios, N., On the design of an ohmic RF MEMS switch for reconfigurable microstrip antenna applications (2009) WSEAS Transact Communicat, 8 (1), pp. 153-161; Jia, S.X., Shi, Y., Yu, Y.W., A high isolation series-shunt RF MEMS switch (2009) Sensors (Basel), 9 (6), pp. 4455-4464; Choi, J.Y., RF MEMS switch using silicon cantilevers (2008) EKC2008 Proceedings of the EU-Korea Conference on Science and Technology, Springer Berlin, Heidelberg Proceedings in Physics, pp. 135-142. , Yoo S.D., (ed),. (eds).,; p","Kasambe, P.V.; Fr. Conceicao Rodrigues College of EngineeringIndia; email: prashant_kasambe@spit.ac.in",,,"Taylor and Francis Ltd.",,,,,2374068X,,,,"English","Adv. Mat. Proc. Tech.",Article,"Final","",Scopus,2-s2.0-85110807287
"Rane S.B., Narvel Y.A.M.","56149402100;57192108846;","Leveraging the industry 4.0 technologies for improving agility of project procurement management processes",2021,"International Journal of System Assurance Engineering and Management","12","6",,"1146","1172",,5,"10.1007/s13198-021-01331-4","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114783722&doi=10.1007%2fs13198-021-01331-4&partnerID=40&md5=c48375a8150ecbfcb5e0b7b9975e908e","Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Mumbai, Maharashtra  400058, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Mumbai, Maharashtra  400058, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Andheri West, Mumbai, Maharashtra  400058, India","Recently, due to continually varying demands and shorter time to market, the existing Project Procurement Management (PPM) processes are incapable of coping up with the pace. There is a need of an agile model to manage procurement projects effectively. This article aims to developing strategies for executing the PPM processes with more agility by leveraging the capabilities and merits of industry 4.0 technologies along with selective Critical Success Factors (CSFs). For improving agility in PPM, this study identifies CSFs from the literature and experts’ review, the CSFs were then prioritized based on their significance, followed by establishing relationships and exploring interactions among CSFs using Total Interpretitive Structureal Modelling (TISM) and Fuzzy Cross-Impact Matrix Multiplication Applied to Classification (MICMAC). Furthermore, an agile project implementation plan was developed based on the findings of TISM and FuzzyMICMAC, which provides a systematic approach for strategically achieving the CSFs. Lastly, strategies were developed to improve agility in key processes of PPM by utilizing the new-age technologies Industry 4.0 like Internet of Things (IOT), Mobility, Business Intelligence, Blockchain, Chatbot, Robotic Process Automation (RPA) and other technologies. The strategies and the agile project implementation plan thus developed as an outcome of this research can be leveraged by industries of various domains for improving agility in any of their business processes. © 2021, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Agility; Business intelligence; Industry 4.0; Project procurement management","Enterprise resource planning; Industrial robots; Industry 4.0; Critical success factor; Developing strategy; Internet of Things (IOT); MAtrix multiplication; Process automation; Procurement projects; Project implementation plans; Project procurement; Project management",,,,,"Chartered Society of Forensic Sciences, CSFS","We are thankful to all the practitioners and experts who helped us for providing valuable inputs for validating and rating the CSFs and also helped in developing the TISM and Fuzzy MICMAC, which is the foundation of this research work. We are also thankful to the anonymous referees for their valuable feedback and constructive comments which helped to improve the structure and quality of this paper. We sincerely thank all the authors who have made sufficient literature available in this domain that helped us and kept us in the right direction. The product of this research paper would not be possible without all of them.",,,,,,,,,,"Aazam, M., Zeadally, S., Harras, K.A., Deploying fog computing in industrial Internet of Things and Industry 4 (2018) 0. 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J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-85114783722
"Rane S.B., Thakker S.V., Kant R.","56149402100;57202855011;36147550000;","Stakeholders' involvement in green supply chain: a perspective of blockchain IoT-integrated architecture",2021,"Management of Environmental Quality: An International Journal","32","6",,"1166","1191",,21,"10.1108/MEQ-11-2019-0248","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091271257&doi=10.1108%2fMEQ-11-2019-0248&partnerID=40&md5=067e250059536f9cf26fc64169addbe1","Mechanical Department, Sardar Patel College of Engineering, Mumbai, India; Mechanical Department, K J Somaiya College of Engineering, Mumbai, India; Mechanical Department, Sardar Vallabhbhai National Institute of Technology, Surat, India","Rane, S.B., Mechanical Department, Sardar Patel College of Engineering, Mumbai, India; Thakker, S.V., Mechanical Department, K J Somaiya College of Engineering, Mumbai, India; Kant, R., Mechanical Department, Sardar Vallabhbhai National Institute of Technology, Surat, India","Purpose: Environmental sustainability has become a primary factor for organisations to compete globally. Stakeholders' involvement with necessary commitment at the right stage of supply chain management (SCM) plays a vital role in development of green supply chain. This paper aims to explore the involvement aspect of stakeholders towards greening of the supply chain. The purpose of this paper is to identify the critical success factors for stakeholder involvement in development of green supply chain and develop use cases for managers and practitioners planning to implement recent technologies to support stakeholders' involvement. Design/methodology/approach: After a thorough literature survey and interviews with experts from industry and academia, the factors for involvement of stakeholders for greening the supply chain were identified. A survey-based research has been used to collect primary data for effective people involvement in development of green supply chain. The decision-making trial and evaluation laboratory method is used for ranking the critical success factors. Effective implementation of success factors using merits of blockchain and internet of things (IoT) technologies are discussed. Use cases are developed for practitioners for using a blockchain IoT-integrated architecture. Findings: The results show that criterion C21 (cooperation with buyer for green initiatives) is the most important for green supply chain, and criterion C5 (global customers) has least effect on greening the supply chain. Involving stakeholders in the green product design ensures improved efficiency of the supply chain. Merits of technologies like blockchain and IoT may be reaped successfully for incorporating critical success factors to develop green supply chain. Research limitations/implications: The research can further be extended by developing the research model with hypothesis and conducting a survey for validation. Automobile industry use cases are considered for this research, and it may be further developed for different industry sectors like process industries, service, etc. Practical implications: Managers can make use of these 22 critical success factors and capabilities of the blockchain IoT-integrated architecture to successfully involve stakeholders. Practitioners/managers can dramatically change SCM with respect to the response speed, accuracy of decision-making, data acquisition, data storage and data accessibility, transparency, trust-building, opportunity of participation, communication quality, freedom in payment based on blockchain IoT-integrated architecture. Preventing pollution and converting the enterprises into green and sustainable organisations have created lot of concerns worldwide. This research addresses the issue of green initiatives and the role of stakeholders in improving the green status of industry. Originality/value: Though there is research on involving suppliers and customers in the supply chain activities, there is a significant delay in integrating human resource management in the supply chain. This research proposes integration of stakeholders using recent technologies for green supply chain. Use cases developed for the automobile industry gives path to future research in this domain. © 2020, Emerald Publishing Limited.","Blockchain IoT-integrated architecture; DEMATEL; Green supply chain (GSC); Human resource management; Stakeholders' involvement","environmental economics; green economy; human resource; Internet; local participation; stakeholder; supply chain management",,,,,,"This paper forms part of a special section “Green Supply Chains and Environmental Benchmarking – implications for emerging economies”, guest edited by Sachin Kumar Mangla.",,,,,,,,,,"Abeyratne, S.A., Monfared, R.P., Blockchain ready manufacturing supply chain using distributed ledger (2016) International Journal of Research Engineering and Technology, 5, pp. 1-10; Ahmed, W., Ahmed, W., Najmi, A., Developing and analyzing framework for understanding the effects of GSCM on green and economic performance (2018) Management of Environmental Quality, 29 (4), pp. 740-758; Anand, I., Gaur, S., Consequences of consumers' emotional responses to government's green initiatives (2019) Management of Environmental Quality, 30 (1), pp. 243-259; 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Vachon, S., Klassen, R.D., Environmental management and manufacturing performance: the role of collaboration in the supply chain (2008) International Journal of Production Economics, 111 (2), pp. 299-315; Wong, C.Y., Boonitt, S., Wong, C.W.Y., The contingency effects of environmental uncertainty on the relationship between supply chain integration and operational performance (2011) Journal of Operations Management, 29, pp. 604-615; Yang, D., Xiao, T., Pricing and green level decisions of a green supply chain with governmental interventions under fuzzy uncertainties (2017) Journal of Cleaner Production, 149, pp. 1174-1187","Thakker, S.V.; Mechanical Department, India; email: shivangiruparel@somaiya.edu",,,"Emerald Group Holdings Ltd.",,,,,14777835,,,,"English","Manage. Environ. Qual.",Article,"Final","",Scopus,2-s2.0-85091271257
"Kumar M.","57208853939;","A comparative investigation of thermodynamic performance and flow field structure of a modified Collins cycle-based helium turboexpander system",2021,"International Communications in Heat and Mass Transfer","127",,"105554","","",,4,"10.1016/j.icheatmasstransfer.2021.105554","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113341915&doi=10.1016%2fj.icheatmasstransfer.2021.105554&partnerID=40&md5=ec05f03181d4fcaef78e87cab883eb88","Department of Mechanical Engineering, Bharatiya Vidya Bhavan's Sardar Patel College of Engineering, Andheri (W), Mumbai  400058, India","Kumar, M., Department of Mechanical Engineering, Bharatiya Vidya Bhavan's Sardar Patel College of Engineering, Andheri (W), Mumbai  400058, India","The optimum design of radial expansion turbine and nozzle (turboexpander) have a remarkable effect on the thermophysical performance of gas liquefaction cycles. The present study proposes a new mean-line design, sensitivity analysis, and optimization method to develop three turboexpander systems for a modified Collins cycle-based helium liquefaction system. The proposed method deals with the real gas equation of state to determine the turboexpander configurations and their performance at off-design conditions. The mean-line design approach integrated with different loss correlations has been performed using an in-house code in Matlab® environment. Furthermore, sensitivity analysis and artificial neural network-based optimization process of thirteen design coefficients and non-dimensional variables has been carried out which improves the off-design performance of the turboexpander up to 4.43%, 12.57%, and 16.36% for total-to-static efficiency, total losses, and power output respectively. Applying the aforementioned procedure, three turboexpanders have been designed. After that, a three-dimensional transient blade-row turbulent flow simulations have been carried out to stimulate the rotor-stator interaction at different operating conditions (25 bar & 80 K, 7 bar & 50 K, and 25 bar & 30 K) and rotational speeds (2.84 × 105, 1.61 × 105, and 2.75 × 105 rpm) using k-ω shear stress transport turbulence model. The commercial Navier-Stokes finite volume solver ANSYS CFX® has been used to study a comparative thermodynamic performance and flow field structures at different streamwise and spanwise directions of the entire flow passage. Additionally, the present numerical results have been validated with available experimental and computational data in the open literature. The present design, optimization, and numerical procedure presented herein will be advantageous for the future development of efficient small-scale turboexpander systems subjected to wide operating ranges. © 2021","Modified Collins cycle; Numerical analysis; Optimization; Turboexpander","Flow fields; Helium; MATLAB; Navier Stokes equations; Neural networks; Optimization; Sensitivity analysis; Shear flow; Shear stress; Turbulence models; Flow field structure; Line design; Mean line; Modified collin cycle; Optimisations; Optimum designs; Radial expansions; Thermodynamic flows; Thermodynamic performance; Numerical analysis",,,,,,,,,,,,,,,,"Bahamonde, S., Pini, M., De Servi, C., Schiffmann, J., Colonna, P., Active subspaces for the optimal meanline design of unconventional turbomachinery (vol 127, pg 1108, 2017) (2019) Appl. 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Refrig., 81, pp. 111-122; Sam, A.A., Ghosh, P., Flow field analysis of high-speed helium turboexpander for cryogenic refrigeration and liquefaction cycles (2017) Cryogenics, 82, pp. 1-14; Chang, H.-M., Ryu, K.N., Baik, J.H., Thermodynamic design of hydrogen liquefaction systems with helium or neon Brayton refrigerator (2018) Cryogenics, 91, pp. 68-76; Jadhav, M.M., Chakravarty, A., Atrey, M.D., An enhanced midstream design method for cryogenic turbomachinery (2021) Cryogenics, 113, p. 103237; Otero Rodriguez, G.J., Smit, S.H.H.J., Pecnik, R., Three-dimensional unsteady stator-rotor interactions in high-expansion organic Rankine cycle turbines (2021) Energy, 217; Ke, C., Xiong, L., Peng, N., Dong, B., Li, K., Li, J., Liu, L., Performance analysis of high-speed cryogenic turbo-expander at cooling process based on numerical and experimental study (2021) Int. J. Refrig., 122, pp. 81-96; Sam, A.A., Ghosh, P., Trailing edge loss analysis of high-speed cryogenic microturbines used in helium applications (2020) Cryogenics, 106, p. 103052; Zou, Z., Xuan, L., Chen, Y., Shao, F., Effects of flow structure on heat transfer of squealer tip in a turbine rotor blade (2020) Int. Commun. Heat Mass Transf., 114, p. 104588; Kumar, M., Panda, D., Kumar, A., Sahoo, R.K., Behera, S.K., A methodology for the performance prediction: flow field and thermal analysis of a helium turboexpander (2019) J. Braz. Soc. Mech. Sci. Eng., 41 (11), pp. 1-31; Kumar, M., Panda, D., Sahoo, R.K., Behera, S.K., Preliminary design, flow field, and thermal performance analysis of a helium turboexpander: a numerical approach (2019) SN Appl. Sci., 1 (11), pp. 1-30; Kumar, M., Behera, S.K., Kumar, A., Sahoo, R.K., Rotational effect on flow field and thermal characteristics of a turboexpander for helium liquefaction system: a numerical perspective (2020) J. Heat Transf., 142 (11); Kumar, M., Biswal, R., Behera, S.K., Kumar, A., RK Sahoo. “Experimental and numerical analysis to predict the performance of a turboexpander at cryogenic temperature.” Eng. Rep.: e12346; Moustapha, H., Zelesky, M.F., Baines, N.C., Japikse, D., Axial and radial turbines (2003) Concepts NREC White River Junction, VT, 2; Kumar, M., Panda, D., Behera, S.K., Sahoo, R.K., Experimental investigation and performance prediction of a cryogenic turboexpander using artificial intelligence techniques (2019) Appl. Therm. Eng., 162, p. 114273; Kumar, M., Behera, S.K., Kumar, A., Sahoo, R.K., Numerical and experimental investigation to visualize the fluid flow and thermal characteristics of a cryogenic turboexpander (2019) Energy, 189, p. 116267; Meitner, P.L., Glassman, A.J., Off-design performance loss model for radial turbines with pivoting, variable-area stators (1980) National Aeronautics and Space Administration Cleveland OH Lewis Research Center; Shankar, T.N., Neural Networks (2008), vol. 78-81-318-0466-7. , University Science Press; Zheng, Y., Hu, D., Cao, Y., Dai, Y., Preliminary design and off-design performance analysis of an Organic Rankine Cycle radial-inflow turbine based on mathematic method and CFD method (2017) Appl. Therm. Eng., 112, pp. 25-37; Manoj, K., Sahoo, R.K., Behera, S.K., Design and numerical investigation to visualize the fluid flow and thermal characteristics of non-axisymmetric convergent nozzle (2019) Eng. Sci. Technol. Int. J., 22 (1), pp. 294-312; Costa Rocha, P.A., Barbosa Rocha, H.H., Moura Carneiro, F.O., Vieira da Silva, M.E., Valente Bueno, A., k-w SST (shear stress transport) turbulence model calibration: a case study on a small scale horizontal axis wind turbine (2014) Energy, 65, pp. 412-418; Kumar, M., Panda, D., Sahoo, R.K., Behera, S.K., Performance prediction, numerical and experimental investigation to characterize the flow field and thermal behavior of a cryogenic turboexpander (2020) Heat Mass Transf., 56 (3), pp. 1015-1036; Kumar, M., Sahoo, R.K., Panda, D., Behera, S.K., CFD analysis to envisage the fluid flow inside a turboexpander operating at cryogenic temperature (2021) Advances in Air Conditioning and Refrigeration, pp. 79-87. , Springer Singapore; Kumar, M., Kumar, P., Sahoo, R.K., Design and numerical analysis to visualize the fluid flow pattern inside cryogenic radial turbine (2019) Advances in Fluid and Thermal Engineering, pp. 179-187. , Springer Singapore","Kumar, M.; Department of Mechanical Engineering, India; email: manojbeg526@gmail.com",,,"Elsevier Ltd",,,,,07351933,,IHMTD,,"English","Int. Commun. Heat Mass Transf.",Article,"Final","",Scopus,2-s2.0-85113341915
"Mangrulkar A., Rane S.B., Sunnapwar V.","57219698086;56149402100;6504099005;","Automated skull damage detection from assembled skull model using computer vision and machine learning",2021,"International Journal of Information Technology (Singapore)","13","5",,"1785","1790",,6,"10.1007/s41870-021-00752-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85111492364&doi=10.1007%2fs41870-021-00752-5&partnerID=40&md5=2b79c515e159f38749d92e5e2435a2c5","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, Maharashtra, India","Mangrulkar, A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, Maharashtra, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, Maharashtra, India; Sunnapwar, V., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, Maharashtra, India","In the biomedical domain, the technologies like 3D computer vision and Bio-CAD arriving significant attention for computerized diagnosis, analysis and treatment of head and neck fractures. The advanced medical scanning devices internally scan and assemble the fragmented geometric data of the human body. The assembled skull model frequently suffers from damages caused by the process of the skull assembly process. Such damaged skull data may lead to missing some vital data for further medical analysis. Thus it is necessary to have an automatic mechanism of skull prototyping or completion before detect damaged skull models and repair them automatically for medical investigation. Automatic skull damage detection approach proposed using computer vision and machine learning methods in this paper. The input skull model in 3D format converted into 2D followed by the pre-processing operation to denoise and enhance the image quality. Then the Region of Interest (ROI) performed a dynamic binary segmentation technique. The automatic and manual features extracted from ROI using Convolutional Neural Network (CNN) layers and hybrid methods respectively. The hybrid model includes the structural, regional, and histogram features followed by its concatenation and normalization. The hybrid feature set is feed to conventional machine learning methods for skull damage detection. Automatic damage detection in input skull image is performed by the consolidated deep learning model using CNN (For features extraction) and Long-Short Term Memory (LSTM) for categorization called CNN-LSTM. The experimental outcomes show the high classification accuracy using the deep learning model compared to other machine learning techniques. © 2021, Bharati Vidyapeeth's Institute of Computer Applications and Management.","Bio-cad; Biomedical image processing; Computer vision methods; Convolutional neural network; Geometric data; Skull damage detection",,,,,,,,,,,,,,,,,"Kral, T., Zentner, J., Vieweg, U., Solymosi, L., Schramm, J., Diagnosis and treatment of frontobasal skull fractures (1997) Neurosurg Rev, 20 (1), pp. 19-23; Chen, X.-L., Jiang, L., Recurrent bacterial meningitis caused by an occult basilar skull fracture (2010) World J Pediat, 7 (2), pp. 179-181; Gupta, N., Varshney, S., Bist, S.S., Bhatia, R., A study of temporal bone fractures (2008) Indian J Otolaryngol Head Neck Surg, 60 (3), pp. 223-226; Ronning, P.A., Brommeland, T., Skull Fractures (2020) Management of severe traumatic brain injury, , Sundstrøm T, Grände PO, Luoto T, Rosenlund C, Undén J, Wester K, (eds), Springer, Cham; Kai, H., Hirose, T., Nishiura, T., Air in the right ventricle and vein after basilar skull fracture: a case report (2020) Int J Emerg Med, 13, p. 59; Gururaj, G., Epidemiology of traumatic brain injuries: Indian scenario (2002) Neurol Res, 24 (1), pp. 24-28; Shen, P., Dublin, A., Bobinski, M., Basic Imaging of Skull Base Trauma (2016) J Neurol Surg Part B Skull Base, 77 (5), pp. 381-387; Ringl, H., Schernthaner, R.E., Schueller, G., Balassy, C., Kienzl, D., Botosaneanu, A., Schima, W., The skull unfolded: a cranial CT visualization algorithm for fast and easy detection of skull fractures (2010) Radiology, 255 (2), pp. 553-562; Yamada, A., (2016) 8Th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)—preliminary Study on the Automated Skull Fracture Detection in CT Images Using Black-Hat Transform, pp. 6437-6440. , https://doi.org/10.1109/EMBC.2016.7592202; Yin, Z., Wei, L., Li, X., Manhein, M., An automatic assembly and completion framework for fragmented skulls (2011) 2011 International Conference on Computer Vision, pp. 2532-2539. , https://doi.org/10.1109/ICCV.2011.6126540; Cooper, D.B., ACM Press the 2001 conferenc—Glyfada, Greece (2001.11.28–2001.11.30) (2001) Proceedings of the 2001 Conference on Virtual Reality, Archeology, and Cultural heritage—VAST '01—Assembling Virtual Pots from 3D Measurements of Their Fragments, p. 241. , https://doi.org/10.1145/584993.585032; Mitra, N.J., Guibas, L.J., Pauly, M., Partial and approximate symmetry detection for 3D geometry (2006) ACM Trans Graph; Yu, W., Li, M., Li, X., Fragmented skull modeling using heat kernels (2012) Graph Models, 74 (4), pp. 140-151; Zhang, K., (2015) IEEE International Conference on Computer Vision (ICCV)—3D Fragment Reassembly Using Integrated Template Guidance and Fracture-Region Matching, pp. 2138-2146. , https://doi.org/10.1109/iccv.2015.247; Mahoney, P.F., Carr, D.J., Delaney, R.J., Hunt, N., Harrison, S., Breeze, J., Gibb, I., Does preliminary optimisation of an anatomically correct skull-brain model using simple simulants produce clinically realistic ballistic injury fracture patterns? (2017) Int J Legal Med, 131 (4), pp. 1043-1053; Zhang, K., Yu, W., Manhein, M., Waggenspack, W., Li, X., 3D fragment reassembly using integrated template guidance and fracture-region matching (2015) 2015 IEEE International Conference on Computer Vision (ICCV), , https://doi.org/10.1109/iccv.2015.247; Idram, I., Bintara, R.D., Lai, J.Y., Development of mesh-defect removal algorithm to enhance the fitting of 3D-printed parts for comminuted bone fractures (2019) J Med Biol Eng, 39, pp. 855-873; Wan Zaki, W.M.D., Ahmad Fauzi, M.F., Besar, R., A New Approach of Skull Fracture Detection in CT Brain Images (2009) Visual informatics: bridging research and practice. IVIC 2009. Lecture notes in computer science, 5857. , Badioze Zaman H, Robinson P, Petrou M, Olivier P, Schroder H, Shih TK, (eds), Springer, Berlin Heidelberg; Yamada, A., Teramoto, A., Otsuka, T., Kudo, K., Anno, H., Fujita, H., Preliminary study on the automated skull fracture detection in CT images using black-hat transform (2016) 2016 38Th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC, , https://doi.org/10.1109/embc.2016.7592202; Yilmaz, B., Durdu, A., Emlik, G.D., A new method for skull stripping in brain MRI using multistable cellular neural networks (2016) Neural Comput Appl, 29 (8), pp. 79-95; Dimililer, K., IBFDS: intelligent bone fracture detection system (2017) Proc Comput Sci, 120, pp. 260-267; Rehman, H.Z.U., Hwang, H., Lee, S., Conventional and deep learning methods for skull stripping in brain MRI (2020) Appl Sci, 10 (5), p. 1773; Dehbozorgi, A., Mousavi-Roknabadi, R.S., Hosseini-Marvast, S.R., Diagnosing skull fracture in children with closed head injury using point-of-care ultrasound vs computed tomography scan (2021) Eur J Pediatr, 180, pp. 477-484; Kalmet, P.H.S., Deep learning in fracture detection: a narrative review (2020) Acta Orthop, 91 (2), pp. 215-220; Otsu, N., A Threshold Selection Method from Gray-Level Histograms (1979) IEEE Trans Syst Man Cybern, 9 (1), pp. 62-66; Zhang, K., (2015) IEEE International Conference on Computer Vision (ICCV)—3D Fragment Reassembly Using Integrated Template Guidance and Fracture-Region Matching, pp. 2138-2146. , https://doi.org/10.1109/iccv.2015.247","Mangrulkar, A.; Department of Mechanical Engineering, Andheri (W), India; email: a.mangrulkar@gmail.com",,,"Springer Science and Business Media B.V.",,,,,25112104,,,,"English","Int. J. Inf. Technol.",Article,"Final","",Scopus,2-s2.0-85111492364
"Kadam S.S., Umale S.","57264864400;55318982400;","Effect of various fin geometries on heat dissipation of traction motors used in Electric vehicles",2021,"Journal of Physics: Conference Series","2007","1","012021","","",,,"10.1088/1742-6596/2007/1/012021","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85115262105&doi=10.1088%2f1742-6596%2f2007%2f1%2f012021&partnerID=40&md5=6f0453d53e7964b48f27abfb057efec7","Sardar Patel College of Engineering, Mumbai, India; Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Kadam, S.S., Sardar Patel College of Engineering, Mumbai, India; Umale, S., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","The traction motor is one of the major component in an electric vehicle subjected to high temperature variations and thermal stresses. In order to cool the motor, fins are proposed on the housing. Present study investigates effect of various fin geometries such as rectangular fin, rectangular fin with a rectangular protrusion, tapered pin fin integrated with rectangular fin, step fin and wavy fin on heat dissipation of an electric motor by developing numerical model and the comparative study is presented. 3D geometrical model of the motor housing is developed using CATIA V5 and analyzed using ANSYS Workbench 2019 R3. Steady-state temperature distribution in the housing cross section is obtained. The obtained results were found in satisfactory quantitative agreement with the published literature results and deviated not more than 7 percent. Research confirmed that rectangular fin with rectangular protrusions gives the greatest heat transfer comparatively and it is concluded that the life of an electric motor increases as there is decrease in temperature of the motor. © 2021 Institute of Physics Publishing. All rights reserved.",,"3D modeling; Electric traction; Electric vehicles; Fins (heat exchange); Geometry; Heat transfer; Housing; Temperature distribution; 3D geometrical model; Ansys workbenches; Comparative studies; Fin geometry; High temperature; Pin-fins; Quantitative agreement; Steady-state temperature; Traction motors",,,,,,,,,,,,,,,,"Sabri Sidik, M., Afiq Azidin, N., Rezal, M., Nasir, Faiza M., Heat transfer analysis of in-wheel electric motor housing with differentcooling fin arrangement using ANSYS (2014) Colloquium of Education, Engineering & Technology; Singh, Pardeep, lal, Harvinder, Ubhi, Baljit Singh, Design and analysis for heat transfer through fin with extensions (2014) International Journal of Innovative Research in Science, Engineering and Technology, 5 (5). , ISSN(Online): 2319-8753; Grabowski, Mirosław, Urbaniec, Krzysztof, Wernik, Jacek, Wołosz, Krzysztof J., Numerical simulation and experimental verification of heat transfer from a finned housing of an electric motor (2016) Energy Conversion and Management; Unger, Sebastian, Beyer, Matthias, Gruber, Samira, Willner, Robin, Hampel, Uwe, Experimental study on the air-side thermal-flow performance of additively manufactured heat exchangers with novel fin designs (2019) International Journal of Thermal Sciences; Patel, Mr Mehul S., Vora, Mr N.M., Thermal analysis of I C Engine cylinder fins array using CFD (2014) International Journal of Advance Engineering and Research Development (IJAERD), 1 (5). , e-ISSN: 2348 4470, print-ISSN:2348-6406; Patil, Malagouda, Alur, Dr S. A., Steady-state thermal analysis of rectangular fin with different cavities (2016) Journal of Advances in Science and Technology, 12 (25). , Issu ISSN 2230-9659; Patel, Deep N., Modi, Maulik A., CFD analysis of finned cylinder for heat transfer rate by changing fin profiles (2017) International Journal of Advance Research and Innovative Ideas in Education, 3 (2). , Prof ISSN(O)-2395-4396; Rajagopal, M. S., Transient CFD analysis of different cross-section fins under free-convection conditions (2019) International Journal of Engineering Research & Technology (IJERT), 8. , Lakshminarasimha. N, Dr ISSN: 2278-0181, 06; Ali, Mohsin A., Kherde, S.M, Design modification and analysis of two-wheeler engine cooling fins by CFD (2015) International Journal of Science, Engineering and Technology Research (IJSETR), 4 (2). , and Prof. (Dr), ISSN: 2278 7798; Nag, P.K., (2006) Heat and Mass Transfer, , Third Edition. The McGraw-Hill Education; Anderson John, D., (2017) Computational Fluid Dynamics The Basics with Applications, , The McGraw-Hill Education","Kadam, S.S.; Sardar Patel College of EngineeringIndia; email: er.suhaskadam@gmail.com",,,"IOP Publishing Ltd","3rd International Conference on Computational and Experimental Methods in Mechanical Engineering, ICCEMME 2021","11 February 2021 through 13 February 2021",,171685,17426588,,,,"English","J. Phys. Conf. Ser.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85115262105
"Gupta A.K., Kumar M., Sahoo R.K., Sarangi S.K.","55988542900;57208853939;35243243400;57219554620;","Analytical and experimental investigation of a plate fin heat exchanger at cryogenics temperature",2021,"International Journal of Heat and Technology","39","4",,"1225","1235",,3,"10.18280/ijht.390420","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85116531728&doi=10.18280%2fijht.390420&partnerID=40&md5=00a16de72cff822521c02db912a2168c","Dept. of Mechanical Engineering, Shri Rawatpura Sarkar University, Raipur, 493661, India; Dept. of Mechanical Engineering, Bharatiya Vidya Bhavan's Sardar Patel College of Engineering, Mumbai, Andheri (W), 400058, India; Cryogenics Engineering Laboratory, Dept. of Mechanical Engineering, NIT Rourkela, 769008, India; Cryogenics Engineering Department, Indian Institute of Technology, Kharagpur, 721302, India","Gupta, A.K., Dept. of Mechanical Engineering, Shri Rawatpura Sarkar University, Raipur, 493661, India; Kumar, M., Dept. of Mechanical Engineering, Bharatiya Vidya Bhavan's Sardar Patel College of Engineering, Mumbai, Andheri (W), 400058, India; Sahoo, R.K., Cryogenics Engineering Laboratory, Dept. of Mechanical Engineering, NIT Rourkela, 769008, India; Sarangi, S.K., Cryogenics Engineering Department, Indian Institute of Technology, Kharagpur, 721302, India","Plate-fin heat exchangers provide a broad range of applications in many cryogenic industries for liquefaction and separation of gasses because of their excellent technical advantages such as high effectiveness, compact size, etc. Correlations are available for the design of a plate-fin heat exchanger, but experimental investigations are few at cryogenic temperature. In the present study, a cryogenic heat exchanger test setup has been designed and fabricated to investigate the performance of plate-fin heat exchanger at cryogenic temperature. Major parameters (Colburn factor, Friction factor, etc.) that affect the performance of plate-fin heat exchangers are provided concisely. The effect of mass flow rate and inlet temperature on the effectiveness and pressure drop of the heat exchanger are investigated. It is observed that with an increase in mass flow rate effectiveness and pressure drop increases. The present setup emphasis the systematic procedure to perform the experiment based on cryogenic operating conditions and represent its uncertainties level. © 2021 International Information and Engineering Technology Association. All rights reserved.","Cryogenics; Effectiveness; Friction factor; Plate fin heat exchanger","Drops; Fins (heat exchange); Friction; Mass transfer; Pressure drop; Analytical investigations; Compact size; Cryogenic temperatures; Effectiveness; Experimental investigations; Friction factors; Mass-flow rate; Performance; Plate-fin heat exchanger; Test setups; Cryogenics",,,,,,,,,,,,,,,,"Norris, R., Spofford, W., High-performance fins for heat transfer (1942) Trans. ASME, 64, pp. 489-496; Joyner, U.T., (1943) Experimental Investigation of Entrance-Region Heat-Transfer Coefficients, , DTIC Document; Manson, S., (1950) Correlations of heat-transfer data and of friction data for interrupted plane fins staggered in successive rows; Kays, W., London, A., Heat transfer and flow friction characteristics of some compact heat exchanger surfaces Part I. Test system and procedure (1950) Trans. ASME, 72, pp. 1075-1097; Kays, W., London, A., Heat transfer and flow friction characteristics of some compact heat exchanger surfaces Part II. Design data for thirteen surfaces (1950) Trans. ASME, 72, pp. 1075-1097; Kays, W.M., London, A.L., (1955) Compact Heat Exchangers: A Summary of Basic Heat Transfer and Flow Friction Design Data, , National Press; Kays, W., The basic heat transfer and flow friction characteristics of six compact high-performance heat transfer surfaces (1960) Journal of Engineering for Gas Turbines and Power, 82 (1), pp. 27-34. , https://doi.org/10.1115/1.3672713; Briggs, D., London, A.L., (1964) The heat transfer and flow friction characteristics of five offset rectangular and six plain triangular plate-fin heat transfer surfaces, , Technical Report No. 49., Stanford Univ., Calif; Kays, W.M., London, A.L., (1964) Sun. ""Compact Heat Exchangers, , United States; London, A.L., Shah, R.K., Offset rectangular plate-fin surfaces-heat transfer and flow friction characteristics (1968) Journal of Engineering for Gas Turbines and Power, 90 (3), pp. 218-228. , https://doi.org/10.1115/1.3609175; Voronin, G., Dubrovsky, E., (1973) Effective Heat Exchangers, , Mashinostroenie, Moscow; Wieting, A.R., Empirical correlations for heat transfer and flow friction characteristics of rectangular offset-fin plate-fin heat exchangers (1975) Journal of Heat Transfer, 97 (3), pp. 488-490. , https://doi.org/10.1115/1.3450412; Mochizuki, S., Yagi, Y., Heat transfer and friction characteristics of strip fins (1977) Heat Transfer-Jpn. Res, 6 (3), pp. 36-59; Sparrow, E., Hajiloo, A., Measurements of heat transfer and pressure drop for an array of staggered plates aligned parallel to an air flow (1980) Journal of Heat Transfer, 102 (3), pp. 426-432. , https://doi.org/10.1115/1.3244317; Webb, R., Joshi, H., (1982) Friction factor correlation for the offset strip-fin matrix, , Pennsylvania State Univ., University Park (USA). Dept. of Mechanical Engineering; Webb, R., Joshi, H., (1983) Prediction of the friction factor for the offset strip-fin matrix, , Pennsylvania State Univ., University Park (USA). Dept. of Mechanical Engineering; Joshi, H.M., Webb, R.L., Heat transfer and friction in the offset stripfin heat exchanger (1987) International Journal of Heat and Mass Transfer, 30 (1), pp. 69-84. , https://doi.org/10.1016/0017-9310(87)90061-5; Mochizuki, S., Yagi, Y., Yang, W.J., Transport phenomena in stacks of interrupted parallel-plate surfaces (1987) Experimental Heat Transfer an International Journal, 1 (2), pp. 127-140. , https://doi.org/10.1080/08916158708946336; Dubrovsky, E., Vasiliev, V.Y., Enhancement of convective heat transfer in rectangular ducts of interrupted surfaces (1988) International Journal of Heat and Mass Transfer, 31 (4), pp. 807-818. , https://doi.org/10.1016/0017-9310(88)90138-X; Brockmeier, U., Guentermann, T., Fiebig, M., Performance evaluation of a vortex generator heat transfer surface and comparison with different high performance surfaces (1993) International Journal of Heat and Mass Transfer, 36 (10), pp. 2575-2587. , https://doi.org/10.1016/S0017-9310(05)80195-4; Dubrovsky, E.V., Highly effective plate-fin heat exchanger surfaces from conception to manufacturing (1993) Proceedings of the First International Conference on Aerospace Heat Exchanger Technology, pp. 501-548. , Palo Alto, CA, United States; Dubrovsky, E.V., Experimental investigation of highly effective plate-fin heat exchanger surfaces (1995) Experimental Thermal and Fluid Science, 10 (2), pp. 200-220. , https://doi.org/10.1016/0894-1777(94)00100-M; Manglik, R.M., Bergles, A.E., Heat transfer and pressure drop correlations for the rectangular offset strip fin compact heat exchanger (1995) Experimental Thermal and Fluid Science, 10 (2), pp. 171-180. , https://doi.org/10.1016/0894-1777(94)00096-Q; Waiters, F., (1969) Hypersonic Research Engine Project-Phase IIA, Category I Test Report on Fin Heat Transfer and Pressure Drop Testing, , Data Item; Youcef-Ali, S., Study and optimization of the thermal performances of the offset rectangular plate fin absorber plates, with various glazing (2005) Renewable Energy, 30 (2), pp. 271-280. , https://doi.org/10.1016/j.renene.2004.04.009; Youcef-Ali, S., Desmons, J.Y., Numerical and experimental study of a solar equipped with offset rectangular plate fin absorber plate (2006) Renewable Energy, 31 (13), pp. 2063-2075; Peng, H., Ling, X., Li, J., Performance investigation of an innovative offset strip fin arrays in compact heat exchangers (2014) Energy Conversion and Management, 80, pp. 287-297. , https://doi.org/10.1016/j.renene.2005.10.008; Dong, J., Chen, J., Chen, Z., Zhou, Y., Air-side thermal hydraulic performance of offset strip fin aluminum heat exchangers (2007) Applied Thermal Engineering, 27 (2-3), pp. 306-313. , https://doi.org/10.1016/j.applthermaleng.2006.08.005; Dong, J., Chen, J., Chen, Z., Flow and heat transfer in compact offset strip fin surfaces (2008) Frontiers of Energy and Power Engineering in China, 2 (3), pp. 291-297. , https://doi.org/10.1007/s11708-008-0061-y; Robertson, J., Boiling heat transfer with liquid nitrogen in brazed-aluminum plate-fin heat exchangers (1979) AIChE Symposium Series; Robertson, J., Boiling heat transfer with Freon-l 1 in brazed-aluminum plate-fin heat exchangers (1981) AIChE Symposium Series; Roadman, R., Loehrke, R., Low Reynolds number flow between interrupted flat plates (1981) Journal of Heat Transfer, 105 (1), pp. 166-171. , https://doi.org/10.1115/1.3245536; Brinkmann, R., Ramadhyani, S., Incropera, F.P., Enhancement of convective heat transfer from small heat sources to liquid coolants using strip fins (1987) Experimental Heat Transfer, 1 (4), pp. 315-330. , https://doi.org/10.1080/08916158708946349; Hou, K.S., (1989) Thermal performance of offset strip fins under unsymmetrical heating condition for various fluids, pp. 0139-0139. , (1989); Marr, Y., Correlating data on heat-transfer in plate-fin heat-exchangers with short offset fins (1990) Thermal Engineering, 37 (5), pp. 249-252; Tinaut, F.V., Melgar, A., Ali, A.R., Correlations for heat transfer and flow friction characteristics of compact plate-type heat exchangers (1992) International Journal of Heat and Mass Transfer, 35 (7), pp. 1659-1665. , https://doi.org/10.1016/0017-9310(92)90136-G; LeVasseur, R., Liquid cooled approaches for high density avionics (1991) IEEE/AIAA 10th Digital Avionics Systems Conference, pp. 147-152. , https://doi.org/10.1109/DASC.1991.177157, Los Angeles, CA, USA, 1991; Hu, S., Herold, K.E., Prandtl number effect on offset fin heat exchanger performance: Experimental results (1995) International Journal of Heat and Mass Transfer, 38 (6), pp. 1053-1061. , https://doi.org/10.1016/0017-9310(94)00220-P; Herold, K.E., Sridhar, S., Hu, S., Cooling of electronic boards using internal fluid flows (1992) ASME, NEW YORK, NY(USA), 1, pp. 285-290; DeJong, N.C., Jacobi, A., An experimental study of flow and heat transfer in offset strip and louvered-fin heat exchangers (1995), Air Conditioning and Refrigeration Center. College of Engineering. University of Illinois at Urbana-Champaign; Peng, H., Ling, X., Numerical modeling and experimental verification of flow and heat transfer over serrated fins at low Reynolds number (2008) Experimental Thermal and Fluid Science, 32 (5), pp. 1039-1048. , https://doi.org/10.1016/j.expthermflusci.2007.11.021; Peng, H., Ling, X., Analysis of heat transfer and flow characteristics over serrated fins with different flow directions (2011) Energy Conversion and Management, 52 (2), pp. 826-835. , https://doi.org/10.1016/j.enconman.2010.08.008; Alur, S., (2012) Experimental studies on plate fin heat exchangers, , PhD diss; Jiang, Q., Zhuang, M., Zhang, Q., Zhu, Z., Geng, M., Sheng, L., Zhu, P., Experimental study on the thermal hydraulic performance of plate-fin heat exchangers for cryogenic applications (2018) Cryogenics, 91, pp. 58-67. , https://doi.org/10.1016/j.cryogenics.2018.02.006; Kumar, M., Biswal, R., Kumar, A., Experimental investigation of solidification and remelting over cryocooled sphere using different concentrations of brine solution as phase change material (2019) International Journal of Heat and Technology, 37 (1), pp. 22-32. , https://doi.org/10.18280/ijht.370103; Maiti, D.K., Sarangi, S.K., (2002) Heat transfer and flow friction characteristics of plate fin heat exchanger surfaces- a numerical study, , PhD Dissertation, Indian Institute of Technology, Kharagpur; Kumar, M., Behera, S.K., Kumar, A., Sahoo, R.K., Numerical and experimental investigation to visualize the fluid flow and thermal characteristics of a cryogenic turboexpander (2019) Energy, 189, p. 116267. , https://doi.org/10.1016/j.energy.2019.116267; Kumar, M., Panda, D., Behera, S.K., Sahoo, R.K., Experimental investigation and performance prediction of a cryogenic turboexpander using artificial intelligence techniques (2019) Applied Thermal Engineering, 162, p. 114273. , https://doi.org/10.1016/j.applthermaleng.2019.114273; Gupta, A.K., Kumar, M., Panda, D., Sahoo, R.K., Experimental analysis to predict the performance of a plate fin heat exchanger at cryogenics temperature (2018) Instrumentation, Mesure, Metrologie, 17 (2), p. 315. , https://doi.org/10.3166/i2m.17.315-329","Kumar, M.; Dept. of Mechanical Engineering, Mumbai, India; email: manoj.kumar@spce.ac.in",,,"International Information and Engineering Technology Association",,,,,03928764,,HETEE,,"English","Int. J. Heat Technol.",Article,"Final","All Open Access, Bronze",Scopus,2-s2.0-85116531728
"Godse L.S., Karkaria V.N., Bhalerao M.J., Karandikar P.B., Kulkarni N.R.","55948079200;57202980905;57215597583;35791861700;57192955846;","Process-Based Statistical Modeling for Ball Mill Machine to Improve Performance of Nylon Ultracapacitor",2021,"Journal of The Institution of Engineers (India): Series B","102","4",,"819","828",,1,"10.1007/s40031-021-00570-0","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103612751&doi=10.1007%2fs40031-021-00570-0&partnerID=40&md5=6368e4c2a5a99248f9a0df211d95a8a7","Electrical Department, Researcher- PES MCoE and Faculty- AISSMS CoE, Pune, Maharashtra, India; Mechanical Department, College of Engineering, Pune, Maharashtra, India; Mechanical Department, Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Electronics and Telecommunication Dept, Army Institute of Technology, Pune, Maharashtra, India; Head of Electrical Department, PES Modern College of Engineering, Pune, Maharashtra, India","Godse, L.S., Electrical Department, Researcher- PES MCoE and Faculty- AISSMS CoE, Pune, Maharashtra, India; Karkaria, V.N., Mechanical Department, College of Engineering, Pune, Maharashtra, India; Bhalerao, M.J., Mechanical Department, Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Karandikar, P.B., Electronics and Telecommunication Dept, Army Institute of Technology, Pune, Maharashtra, India; Kulkarni, N.R., Head of Electrical Department, PES Modern College of Engineering, Pune, Maharashtra, India","The generation of electrical energy from renewable energy sources is rapidly increasing across the world due to its many advantages. Renewable energy source is also known as clean energy source. The energy storage devices are playing an important role in both renewable generation and distribution of power. The energy storing devices also helps to improve stability of electrical power grid. The electrode, electrolyte and separators are the main components of ultracapacitors. The performance of ultracapacitors mainly depends on the properties of electrode material, the type of separator used, properties of electrolyte used and its concentration level. Nylon as a separator material for ultracapacitors is investigated. Various parameters of nylon-based ultracapacitors are compared with conventional polyethylene-based ultracapacitors. Very less research work has been done on the processing of electrode material. Ball milling is the most commonly used material processing method in energy storage devices such as ultracapacitors, battery and fuel cells. The effect of ball milling parameters on the performance of ultracapacitors needs to be investigated. Most significant factors of ball milling parameters of electrode material for ultracapacitor are identified. Modeling of ball milling process on electrode material is done by using the statistical method- design of the experiment. The novel ball mill machine with some unique features is also presented. Pulse current density is taken as new output parameters which is more important than an internal resistance and specific capacitance. Most significant ball mill machine parameters are taken as input parameters and specific capacitance, internal resistance along with pulse current density are taken as output parameters for the modeling of nylon-based ultracapacitors. © 2021, The Institution of Engineers (India).","Ball milling; Electrode material; Modeling; Process; Ultracapacitor","Ball milling; Capacitance; Electric power system stability; Electric power transmission networks; Electrodes; Electrolytes; Energy storage; Fuel cells; Fuel storage; Land vehicle propulsion; Milling (machining); Natural resources; Polyamides; Rayon; Renewable energy resources; Separators; Statistical methods; Supercapacitor; Ball milling parameters; Clean energy sources; Concentration levels; Conventional polyethylenes; Design of the experiment; Generation of electrical energy; Pulse current densities; Renewable energy source; Ball mills",,,,,"Amano Institute of Technology","The authors gratefully acknowledge and thank to Green vision Technologies Pvt. Ltd., Bangalore, India and TATA Motors, Pune, India for useful inputs. The authors would also gratefully acknowledge Army Institute of Technology, Pune, India for their support.",,,,,,,,,,"Demirbas, A., Global renewable energy projections (2009) J Energy Sources Part-B Economics Plan Policy, 4 (2), pp. 212-224; Namik, A.K., AyhanDemirbas, Promising sources of energy in the near future (2017) J Energy sources Part- A Recover Utilization Environ Eff, 38 (12), pp. 1730-1738; Demirbas, A., SahinDemirbas, A., HilalDemirbas, A., Global energy sources, energy usage, and future developments (2004) J Energy sources, 26 (3), pp. 191-204; May, G.J., Davidson, A., Monahov, B., Lead batteries for utility energy storage: a review (2018) J Energy Storage, 15, pp. 145-157; Burke, A., Liu, Z., Zhao, H., Present and future applications of supercapacitors in electric and hybrid vehicles (2014) IEEE International Electric Vehicle Conference, 7 (5), pp. 353-368. , https://doi.org/10.1109/IEVC.2014.7056094; Jayalakshmi, M., Balasubramanian, K., Review-Simple capacitor to supercapacitor-An overview (2008) International Journal of Electrochemical Science, 3, pp. 1196-1217. , http://www.electrochemsci.org/papers/vol3/3111196.pdf; 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Sun, S., Jiang, G., Liu, Y., Bo, Y., Preparation of α-MnO2/Ag/RGO hybrid films for asymmetric supercapacitor (2018) J Energy Storage, 18, pp. 256-258; Shah, H.U., Wang, F., Ahmad, M.A., Muhammad, SufyanJaved, Li, Y., In-situ growth of MnO2 nano rods forest on carbon textile as efficient electrode material for supercapacitors (2018) J Energy Storage, 17, pp. 318-326; Sapkota, B.B., Mishra, S.R., A simple ball milling method for preparation of p-Cuo/n- Zno Nanocomposite photo catalyst with high photo catalytic activity (2013) J Nano sci nanotechnol, 13 (10), pp. 6588-6596; Yadav, T.P., Yadav, R.M., Singh, D.P., Mechanical milling: a top down approach for the synthesis of nanomaterials and nanocomposites (2012) Nanosci Nanotechnol, 2 (2), pp. 22-48; Pradip Mandake, P.B.K., Effect of separator thickness variation for supercappacitor with polythylene separator material (2016) IJSRSET, 2 (2), pp. 967-971. , http://ijsrset.com/IJSRSET1622232; Yao, B., Zhang, Z., Kou, T., Paper bsed electrodes for flexible energy storage devices (2017) Adv Sci, 4 (1), pp. 1-32; Minjae Kim, Kunsoo Lee, “ Nylon 6, 6/polyaniline based sheath nanofibres for high performance supercapacitors (2016) J Eletrochimica Acta, 213, pp. 124-131; Pham, C.-T., Månsson, D., Expeimental validation of a general energy storage modeling approach (partIII) (2018) J Energy Storage, 20, pp. 542-550; Stoller, M.D., Ruoff, R.S., Best practice methods for determining an electrode material’s performance for ultracapacitors (2010) Energy Environ Sci, 3 (9), pp. 1294-1301; Karandikar, P.B., Talange, D.B., Mhaskar, U., Bansal, R., Validation of capacitance and equivalent series resistance model of manganese oxide-based aqueous super-capacitor (2012) Electric Power Compon Syst, 40 (10), pp. 1105-1118; Ike, I.S., IakovosSigalas, Iyuke, S.E., Modeling and optimization of electrodes sutilization in symmetric electrochemical capacitors for high energy and power (2017) J Energy Storage, 12, pp. 261-275; Juang, L.W., Kollmeyer, P.J., Anders, A.E., Jahns, T.M., Gao, D., Investigation of the influence of superimposed AC current on lithium-ion battery aging statistical design of experiments (2017) J Energy Storage, 11, pp. 93-103; Karandikar, P.B., Talange, D.B., Uday Mhaskar, R.C., Bansal, Development, characterization and modeling of aquesous metal oxide based supercapacitor (2012) Energy, 40 (1), pp. 131-138; Karandikar, P.B., Talange, D.B., Mhaskar, U., Bansal, R., Investigations for parameter improvement of manganese oxide–based aqueous supercapacitor (2012) Mater Manuf Processes Taylor and Francis, 27 (11), pp. 1164-1170; Upreti, H., Dixit, A., Paul, A., Kumari, S., Karandikar, P.B., Optimization of electrode parameters of stack structured ultracapacitors (2014) ELSEVIER, Energy Procedia, 54, pp. 367-375. , https://cyberleninka.org/article/n/515860/viewer; Karandikar, P.B., Talange, D.B., (2010)","Godse, L.S.; Electrical Department, India; email: lsgodse@gmail.com",,,"Springer",,,,,22502106,,,,"English","J. Inst. Eng. Ser. B",Article,"Final","",Scopus,2-s2.0-85103612751
"Rane S.B., Potdar P.R., Rane S.","56149402100;57208580113;41762617600;","Data-driven fleet management using MOORA: a perspective of risk management",2021,"Journal of Modelling in Management","16","1",,"310","338",,7,"10.1108/JM2-03-2019-0069","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087641740&doi=10.1108%2fJM2-03-2019-0069&partnerID=40&md5=d0815d9652071b5824a6769625ed7b42","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Goa College of Engineering, Ponda, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Potdar, P.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rane, S., Department of Mechanical Engineering, Goa College of Engineering, Ponda, India","Purpose: The purpose of this study is to investigate the best fleet for a new purchase based on multi-objective optimization on the basis of ratio (MOORA), reference point and multi-MOORA methods. This study further identifies critical parameters for fleet performance monitoring and exploring optimum range of critical parameters using Monte Carlo simulation. At the end of this study, fleet maintenance management and operations have been discussed in the perspectives of risk management. Design/methodology/approach: Fleet categories and fleet performance monitoring parameters have been identified using the literature survey and Delphi method. Further, real-time data has been analyzed using MOORA, reference point and multi-MOORA methods. Taguchi and full factorial design of experiment (DOE) are used to investigate critical parameters for fleet performance monitoring. Findings: Fleet performance monitoring is done based on fuel consumption (FC), CO2 emission (CE), coolant temperature (CT), fleet rating, revenue generation (RG), fleet utilization, total weight and ambient temperature. MOORA, reference point and multi-MOORA methods suggested the common best alternative for a particular category of the fleet (compact, hatchback and sedan). FC and RG are the critical parameters for monitoring the fleet performance. Research limitations/implications: The geographical aspects have not been considered for this study. Practical implications: A pilot run of 300 fleets shows saving of Rs. 2,611,013/- (US$36,264.065), which comprises total maintenance cost [Rs. 1,749,033/- (US$24,292.125)] and FC cost [Rs. 861,980/- (US$11,971.94)] annually. Social implications: Reduction in CE (4.83%) creates a positive impact on human health. The reduction in the breakdown maintenance of fleet improves the reliability of fleet services. Originality/value: This study investigates the most useful parameters for fleet management are FC, CE, CT. Taguchi DOE and full factorial DOE have identified FC and RG as a most critical parameters for fleet health/performance monitoring. © 2020, Emerald Publishing Limited.","Data analysis; Decision-making; Full factorial DOE and Monte Carlo simulation; MOORA; Multi-MOORA; Project risk management; Risk analysis; Taguchi DOE",,,,,,,"Authors are grateful to all the experts for their support to identify the potential problem along with providing valuable inputs for developing the solutions. The authors are also thankful to the anonymous referees for their valuable and constructive comments which helped to improve the structure and quality of this paper. The authors sincerely thank all the authors who have made sufficient literature available in this domain that helped the authors and kept the authors in the right direction. 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Model. Manage.",Article,"Final","",Scopus,2-s2.0-85087641740
"Gadhari N.S., Gholave J.V., Patil S.S., Patil V.R., Upadhyay S.S.","36571700400;37072312800;57212424792;7103355761;57210742482;","Enantioselective high performance new solid contact ion-selective electrode potentiometric sensor based on sulphated γ-cyclodextrin‑carbon nanofiber composite for determination of multichiral drug moxifloxacin",2021,"Journal of Electroanalytical Chemistry","882",,"114981","","",,13,"10.1016/j.jelechem.2021.114981","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85100135835&doi=10.1016%2fj.jelechem.2021.114981&partnerID=40&md5=05e8a4d15e9065ff435c2e16b4387e54","Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (East), Mumbai, 400 098, India; Department of Applied Chemistry, Sardar Patel College of Engineering, Andheri (W), Mumbai, MS  400058, India; Regional Forensic Science Laboratory, Biology Division Aurangabad, Home Department, Government of Maharashtra, India","Gadhari, N.S., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (East), Mumbai, 400 098, India; Gholave, J.V., Department of Applied Chemistry, Sardar Patel College of Engineering, Andheri (W), Mumbai, MS  400058, India; Patil, S.S., Regional Forensic Science Laboratory, Biology Division Aurangabad, Home Department, Government of Maharashtra, India; Patil, V.R., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (East), Mumbai, 400 098, India; Upadhyay, S.S., Department of Chemistry, University of Mumbai, Vidyanagari, Santacruz (East), Mumbai, 400 098, India","Multiple chiral centered drugs not only pose greater risk than single center in asymmetric medium of human bodies but also beneficial to them in many ways. Therefore, online monitoring and rapid chiral sensing method is always desirable for both isomers as well as their impurities. In the present paper, we have developed a new solid-contact ion-selective electrode (SC-ISE) for enantioselective recognition of RR and SS moxifloxacin (RR-MX/SS-MX) based on chiral nanocomposite of sulphated γ-cyclodextrin (Sγ-CD) and carbon nanofibers (CNF) incorporated into a plasticized poly vinyl chloride (PVC) employing potentiometry. CNF are used for the first time to fabricate SC-ISE as the intermediate layer between an ionophore-doped polymeric membrane and a glassy carbon electrode (GC) for MX enantiomers. The host-guest interaction takes place between γ-CD and RR/SS isomer in the polymeric membrane of the solid-contact electrode forming 1:1 chelate complex where enantioselectivity is achieved in the terms of stability constant (SS-MX = 1786 M−1 and RR-MX = 390 M−1 and Gibbs free energy employing square wave voltammetry (SWV). The new electrode displays a Nernstian slope (60.10 ± 0.25 mV/decade) with the linear range obtained was 1 × 10−2 to 6.5 × 10−7 M and the detection limit of 1.5 ± 0.16 × 10−7 M. The developed solid-contact electrode shows very small drift in potential (EΔ/tΔ = 154 μVh−1) and fast response time of less than 5 s throughout the linear range. The assay of SS-MX in the presence of its antimer RR-MX was carried out using different ratios of both enantiomers, recovery of SS-MX in the presence of RR clearly demonstrate the enantioselectivity and stereospecificity of the proposed SC-ISE. The practical analytical utility of developed chiral potentiometric sensor was demonstrated by measurement of SS-MX in pharmaceutical formulations, urine and blood serum samples. Surface characterization of solid-contact electrode was performed using Frequency Response Analyzer (FRA), Scanning electron microscopy (SEM) and the effect of the interfacial water film was evaluated using potentiometric water layer test. © 2021 Elsevier B.V.","Chiral drugs; Host-guest interaction; Potentiommetry; Solid-contact ion-selective electrode; Sγ-CD-CNF","Carbon nanofibers; Chlorine compounds; Cyclodextrins; Drug delivery; Drug interactions; Enantiomers; Enantioselectivity; Free energy; Frequency response; Gibbs free energy; Glass membrane electrodes; Plants (botany); Polymeric membranes; Polyvinyl chlorides; Potentiometers (electric measuring instruments); Potentiometric sensors; Scanning electron microscopy; Voltammetry; Carbon nanofiber composites; Enantioselective recognition; Frequency response analyzers; Glassy carbon electrodes; Pharmaceutical formulation; Solid-contact electrodes; Square wave voltammetry; Surface characterization; Ion selective electrodes",,,,,"SR/S1/PC-14/2012","We are thankful to DST-SERB (Project SR/S1/PC-14/2012) for financial assistance.",,,,,,,,,,"Testa, B., Chiral aspects of drug metabolism (1986) Trends Pharmacol. 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B, 104, pp. 8201-8209; Upadhyay, S.S., Gadhari, N.S., Srivastava, A.K., Biomimetic sensor for ethambutol employing β-cyclodextrin mediated chiral copper metal organic framework and carbon nanofibers modified glassy carbon electrode (2020) Biosens. Bioelectron., 165, p. 112397","Patil, V.R.; Department of Chemistry, Vidyanagari, Santacruz (East), India; email: vishwanathrpatil03@gmail.com",,,"Elsevier B.V.",,,,,15726657,,JECHE,,"English","J Electroanal Chem",Article,"Final","",Scopus,2-s2.0-85100135835
"Verma A.R., Dagale M.D., Mahajan R.M., Bhole K.S.","57226694293;57226697933;57226689531;55485785300;","Hybrid Natural Fibers Composites with Jute and Banana Fibers: A Review",2021,"2021 International Conference on Nascent Technologies in Engineering, ICNET 2021 - Proceedings",,,"9487714","","",,1,"10.1109/ICNTE51185.2021.9487714","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85112388609&doi=10.1109%2fICNTE51185.2021.9487714&partnerID=40&md5=c053336d20ea3a8da365057a9fa095e9","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","Verma, A.R., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Dagale, M.D., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Mahajan, R.M., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Bhole, K.S., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","Exponential growth is reported recently in research and innovation in the area of natural fiber composites (NFC), one of such is hybridization of two or more natural fibers. Hybridization of different natural fibers are done in the view of enhancement of properties by selecting the natural fibers with required properties. Furthermore, many efforts are noted into enhancing overall performance to extend capabilities and applications of NFC. This review aims to provide an overview of mechanical and thermal properties of hybrid jute and banana fibers reinforced epoxy composites. The review study concludes that hybridization of banana fibers in the jute and epoxy composites results in better mechanical and thermal properties and shows improvement in water absorption property. © 2021 IEEE.","banana; epoxy; Hybridization; jute; natural fibres composites","Fruits; Reinforced plastics; Thermodynamic properties; Water absorption; Banana fibers; Epoxy composite; Exponential growth; In-water absorption; Mechanical and thermal properties; Natural fiber composites; Reinforced epoxy; Jute fibers",,,,,,,,,,,,,,,,"Kerni, L., Singh, S., Patnaik, A., Kumar, N., (2020) A Review on Natural Fiber Reinforced Composites, , April; Tang, P., (1998) Composite Material and Its Application Technology; Prakash Chaudhari, C., Bhole, K., A review on characteristics of natural fibre composite (2020) 2020 IOP Conference Series. : Materials Science and Engineering, 810, p. 012007; Walte, A.B., Bhole, K., Gholave, J., Mechanical characterization of coir fiber reinforced composite (2020) Materials Today Proceedings, 24, pp. 557-566; Boopalan, M., Niranjanaa, M., Umapathy, M.J., (2013) Study on the Mechanical Properties and Thermal Properties of Jute and Banana Fiber Reinforced Epoxy Hybrid Composites; Tamilarasan, U., Kishore Kumar, P., Mohamed Shafeeq, A., Vairava Sundaram, S., Pandiyan, U., (2019) Study of Mechanical Properties of Banana-jute Fibre Epoxy Composite with Carbon Fibers; Easwara, G.L., Megha, B.E., Keerthi Gowda, B.S., Study of mechanical characteristics of banana and jute fiber reinforced polyester composites (2019) Proceedings of the 2018 Annual Conference on Experimental and Applied Mechanics; Megha, B.E., Gowda, K., Easwara Prasad, B.S.G.L., Study of Mechanical Characteristics of Banana and Jute Fiber Reinforced Polyester Composites; Pujari, S., Ramakrishna, A., Balaram Padal, K.T., (2015) Experimental Investigation of Mechanical Properties of UNI Directional Jute and Banana Fiber Composites-5, , June",,,,"Institute of Electrical and Electronics Engineers Inc.","4th Biennial International Conference on Nascent Technologies in Engineering, ICNET 2021","15 January 2021 through 16 January 2021",,170703,,9781728190617,,,"English","Int. Conf. Nascent Technol. Eng., ICNET - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85112388609
"Gaikwad L., Sunnapwar V.","56198941700;6504099005;","Development of an integrated framework of LGSS strategies for Indian manufacturing firms to improve business performance: an empirical study",2021,"TQM Journal","33","1",,"257","291",,11,"10.1108/TQM-05-2020-0110","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85088819322&doi=10.1108%2fTQM-05-2020-0110&partnerID=40&md5=ce62af16edd482009042ad8b5c4db22c","Research Scholar, Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Lokmanya Tilak College of Engineering, Navi Mumbai, India","Gaikwad, L., Research Scholar, Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sunnapwar, V., Lokmanya Tilak College of Engineering, Navi Mumbai, India","Purpose: This article aims to explore synergies between Lean, Green and Six Sigma practices in order to propose an integrated LGSS framework for continuous and incremental improvement in the Indian manufacturing industries. The three-dimensional LGSS framework seeks to provide various combinations and support operational, financial, environmental and social needs. Design/methodology/approach: In the research method, first, the current problems faced by Indian manufacturing industries are considered and proposition of a conceptual framework that qualitatively integrates synergistic aspects of Lean, Green and Six Sigma practices, and second, the framework is checked by a survey taken from 203 Indian firms by using SPSS-AMOS. Findings: The hypothesized result suggests that the positive impact of integrated practices on firm performance in terms of operational, financial, social and environmental outcomes. It also provides a systemic and holistic approach to problem-solving through constant and incremental enhancement in the manufacturing sector. Research limitations/implications: In this research, only Indian manufacturing industries have been studied but can be extending into different geographical areas and sectors. Future research is also possible for different behavior and characteristics of companies that can lead to recommending strategies on how companies can improve performance. Most importantly, future research can try to understand which specific practice can contribute to competitive advantage and business success. Practical implications: Manufacturing firms that want to improve environmental sustainability should implement integrated LGSS practices into their supply chain. The set of combined practices improves operational, social, economical and environmental benefits. Social implications: The research presents an integrated approach of LSS for the manufacturing industry which leads their business processes to achieve economic sustainability through continuous growth and improved operational efficiency. Manufacturing industries result in outcomes like reduced cost, lead time, improved quality, sustainable market position, profitability, customer satisfaction, etc. Originality/value: This research is different from previous studies because it integrates Lean, Green and Six Sigma practices into a unique framework that fulfills a specific need of the Indian manufacturing sector that guides operational, social, environmental and financial issues in Indian industries. © 2020, Emerald Publishing Limited.","Business performances; Green manufacturing; Integrated framework; Lean manufacturing; Six Sigma; Structural equation modeling","Competition; Customer satisfaction; Economic and social effects; Finance; Green manufacturing; Process engineering; Process monitoring; Silicon; Six sigma; Supply chains; Sustainable development; Work simplification; Design/methodology/approach; Economic sustainability; Environmental benefits; Environmental sustainability; Incremental improvements; Manufacturing industries; Operational efficiencies; Social and environmental; Industrial research",,,,,,"The authors thank the manufacturing industries in India who had participated in this survey. 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Zhu, Q., Sarkis, J., Relationships between operational practices and performance among early adopters of green supply chain management practices in chinese manufacturing enterprises (2004) Journal of Operations Management, 22 (3), pp. 265-289; Zhu, Q., Sarkis, J., Geng, Y., Green supply chain management in China: pressures, practices and performance (2005) International Journal of Operations & Production Management, 25 (5), pp. 449-468; Zhu, Q., Sarkis, J., Lai, K., Confirmation of a measurement model for green supply chain management practices implementation (2008) International Journal of Production Economics, 111 (2), pp. 261-273; Zhu, Q., Sarkis, J., Lai, K.H., Green supply chain management innovation diffusion and its relationship to organizational improvement: an ecological modernization perspective (2012) Journal of Engineering and Technology Management, 29 (1), pp. 168-185; Zhu, Q., Sarkis, J., Lai, K.H., Institutional-based antecedents and performance outcomes of internal and external Green supply chain management practices (2013) Journal of Purchasing and Supply Management, 19 (2), pp. 106-117; Albliwi, S.A., Antony, J., Lim, S.A.H., A systematic review of Lean Six Sigma for the manufacturing industry (2015) Business Process Management Journal, 21 (3), pp. 665-691; Chien, M.K., Shih, L.H., An empirical study of the implementation of Green supply chain management practices in the electrical and electronic industry and their relation to organizational performances (2007) International journal of Environmental Science and Technology, 4 (3), pp. 383-394; Christopher, M., Towill, D.R., Supply chain migration from Lean and functional to agile and customized (2000) Supply Chain Management: An International Journal, 5 (4), pp. 206-213; Fullerton, R.R., Wempe, W., Lean manufacturing, non-financial performance measures, and financial performance (2009) International Journal of Operations and Production Management, 29 (3), pp. 214-240; Fullerton, R.R., McWatters, C.S., Fawson, C., An examination of the relation- ships between JIT and financial performance (2003) Journal of Operations Management, 21 (4), pp. 383-404; Galeazzo, A., Furlan, A., Vinelli, A., Lean and Green in action: interdependencies and performance of pollution prevention projects (2013) Journal of Cleaner Production, 85, pp. 191-200; Govindan, K., Azevedo, S.G., Carvalho, H., Machado, V.C., Lean, Green and resilient practices influence on supply chain performance: interpretive structural modeling approach (2015) International Journal of Environmental Science and Technology, 12 (1), pp. 15-34; Kumar, S., Luthra, S., Naveen, K., Haleem, A., Enablers of Lean Six Sigma implementation in business environment: a review (2013) Proceedings of International Conference on Smart Technologies for Mechanical Engineering, pp. 25-26. , Delhi Technological University, Delhi; Lucato, W.C., Vieira Júnior, M., Santos, J.C.D.S., Eco-Six Sigma: integration of environmental variables into the Six Sigma technique (2015) Production Planning and Control, 26 (8), pp. 605-616; Luthra, S., Mangla, S.K., Xu, L., Diabat, A., Using AHP to evaluate barriers in adopting sustainable consumption and production initiatives in a supply chain (2016) International Journal of Production Economics, 181 (B), pp. 342-349; Marco-Ferreira, A., Oliveira Stefanelli, N., Bruno Michel, R.P.S., Fidelis, R., Lean and Green: practices, paradigms and future prospects (2019) Benchmarking: An International Journal; Ringle, C.M., Wende, S., Will, A., (2005) Smart PLS 2.0.M3, , http://www.smartpls.com, Smart PLS, Hamburg; Rothenberg, S., Pil, F.K., Maxwell, J., Lean, Green, and the quest for superior environmental performance (2001) Production Operation Management, 10, pp. 228-243; Tyagi, S., Choudhary, A., Cai, X., Yang, K., Value stream mapping to reduce the lead-time of a product development process (2015) International Journal of Production Economics, 160 (C), pp. 202-212; Vachon, S., Klassen, R.D., Extending Green practices across the supply chain: the impact of upstream and downstream integration (2006) International Journal of Operations and Production Management, 26 (7), pp. 795-821","Gaikwad, L.; Research Scholar, India; email: lokpriya2004@yahoo.co.in",,,"Emerald Group Holdings Ltd.",,,,,17542731,,,,"English","TQM J.",Article,"Final","",Scopus,2-s2.0-85088819322
"Narayan J., Bhoir A.A., Borgohain A., Dwivedy S.K.","57201700373;57642636000;57227052700;6602812703;","Design and Analysis of a Stand-aided Lower-Limb Exoskeleton System for Pediatric Rehabilitation",2021,"2021 International Conference on Computational Performance Evaluation, ComPE 2021",,,,"950","955",,1,"10.1109/ComPE53109.2021.9752024","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85128980101&doi=10.1109%2fComPE53109.2021.9752024&partnerID=40&md5=c6090b602139552461e143aab825553f","Indian Institute of Technology Guwahati, Department of Mechanical Engineering, Assam, 781039, India; Sardar Patel College of Engineering Andheri, Department of Mechanical Engineering, Mumbai, 400058, India; Yantrabot Technologies Pvt. Ltd., Technology Incubation Centre, Indian Institute of Technology Guwahati, Assam, 781039, India","Narayan, J., Indian Institute of Technology Guwahati, Department of Mechanical Engineering, Assam, 781039, India; Bhoir, A.A., Sardar Patel College of Engineering Andheri, Department of Mechanical Engineering, Mumbai, 400058, India; Borgohain, A., Yantrabot Technologies Pvt. Ltd., Technology Incubation Centre, Indian Institute of Technology Guwahati, Assam, 781039, India; Dwivedy, S.K., Indian Institute of Technology Guwahati, Department of Mechanical Engineering, Assam, 781039, India","The effective movement of lower-body joints imparts a crucial role while performing the daily living activities (ADL). However, these movements become constrained in case of neuromuscular disorders due to the feeble muscles and damaged nerves. Moreover, in view of pediatric population, the limited mobility of lower-limb joints is majorly due to the post-stroke gait pathologies. In this work, the design, analysis, and prototyping of a novel 6-DOFs lower-limb exoskeleton system (LLES v2) is proposed for the pathological gait rehabilitation of pediatric subjects (8-12 years, 25-40 kg, 130±2cm). Primarily, the CAD of the stand-held system is proposed in SolidWorks software with required design features. Assigning the material as Aluminum alloy and Steel, finite element analysis (FEA) of the wheel-supported stand assembly is carried out for two different loading conditions, i.e., reaction period and single support phase in a gait cycle. Thereafter, the FEA of foot pad is carried out for maximum loading conditions with two different grades of Steel material. From the simulation results of stress and deformation, the most reliable material is selected for the safe design of the stand assembly and foot fad. Finally, invoking the design parameters and selected materials, the working prototype of the exoskeleton system is briefly presented. © 2021 IEEE.","finite element analysis; gait rehabilitation; lower-limb exoskeleton; stand assembly","Aluminum alloys; Computer aided design; Exoskeleton (Robotics); Joints (anatomy); Patient rehabilitation; Pediatrics; Daily living activities; Design and analysis; Exoskeleton systems; Finite element analyse; Gait rehabilitation; Loading condition; Low-limb exoskeleton; Lower body; Lower limb; Stand assembly; Finite element method",,,,,,,,,,,,,,,,"Roveda, A.C., Comin, M., Caires, A.R.L., Ferreira, V.S., A.G., (2011) World Health Organization, World report on disability 2021, , https://www.who.int/teams/noncommunicablediseases/sensory-functions-disability-and-rehabilitation/world-reporton-disability; Kurawa, S.S., The impact of disability on self and society: An agenda for research on rehabilitation of disabled in Nigeria (2010) Procedia Soc Behav Sci, (5), pp. 1804-1810. , Jan; Samuelsson, K., Wressle, E., User satisfaction with mobility assistive devices: An important element in the rehabilitation process (2008) Disabil. Rehabil, 30 (7), pp. 551-558. , Jan; Molteni, F., Gasperini, G., Cannaviello, G., Guanziroli, E., Exoskeleton and end-effector robots for upper and lower limbs rehabilitation: narrative review (2018) PM&R, 10 (9), pp. 174-188. , Sep; Kalita, B., Narayan, J., Dwivedy, S.K., Development of active lower limb robotic-based orthosis and exoskeleton devices: A systematic review (2020) Int. J. Soc. Robot, pp. 1-19. , Jun; Zoss, A.B., Kazerooni, H., Chu, A., Biomechanical design of the Berkeley lower extremity exoskeleton (BLEEX) (2006) IEEE ASME Trans Mechatron, 11 (2), pp. 128-138. , Apr; Neuhaus, P.D., Noorden, J.H., Craig, T.J., Torres, T., Kirschbaum, J., Pratt, J.E., Design and evaluation of Mina: A robotic orthosis for paraplegics (2011) IEEE international conference on rehabilitation robotics, pp. 1-8. , Zurich, Switzerland, Jun; Sankai, Y., HAL: Hybrid assistive limb based on cybernics (2010) Robotics Research, Springer Tracts in Advanced Robotics, 66, pp. 25-34. , M. Kaneko, Y. Nakamura (eds), Berlin, Heidelberg, Springer; Esquenazi, A., Talaty, M., Packel, A., Saulino, M., The ReWalk powered exoskeleton to restore ambulatory function to individuals with thoracic-level motor-complete spinal cord injury (2012) Am J Phys Med Rehabil, 91 (11), pp. 911-921. , Nov; Chen, G., Qi, P., Guo, Z., Yu, H., Mechanical design and evaluation of a compact portable knee-ankle-foot robot for gait rehabilitation (2016) Mech. Mach. Theory, 103, pp. 51-64. , Sep; Bortole, M., Venkatakrishnan, A., Zhu, F., Moreno, J.C., Francisco, G.E., Pons, J.L., Contreras-Vidal, J.L., The H2 robotic exoskeleton for gait rehabilitation after stroke: early findings from a clinical study (2015) J. Neuroeng Rehabil, 12 (1), pp. 1-14. , Dec; Junius, K., Degelaen, M., Lefeber, N., Swinnen, E., Vanderborght, B., Lefeber, D., Bilateral, misalignment-compensating, full-DOF hip exoskeleton: design and kinematic validation (2017) Appl Bionics Biomech, 2017. , Jul; Chen, B., Lanotte, F., Grazi, L., Vitiello, N., Crea, S., Classification of lifting techniques for application of a robotic hip exoskeleton (2019) Sensors, 19 (4), p. 963. , Jan 2019; Gams, A., Petri, T., Debevec, T., Babi, J., Effects of robotic knee exoskeleton on human energy expenditure (2013) IEEE. Trans. Biomed. Eng, 60 (6), pp. 1636-1644. , Jan; McDaid, A.J., Design, analysis, and multicriteria optimization of an overground pediatric robotic gait trainer (2017) IEEE ASME Trans Mechatron, 22 (4), pp. 1674-1684. , Apr; Sanz-Merodio, D., Cestari, M., Arevalo, J.C., Garcia, E., Control motion approach of a lower limb orthosis to reduce energy consumption (2012) Int. J. Adv. Robot. Syst, 9 (6), p. 232. , Dec; Aycardi, L.F., Cifuentes, C.A., Múnera, M., Bayón, C., Ramírez, O., Lerma, S., Rocon, E., Evaluation of biomechanical gait parameters of patients with Cerebral Palsy at three different levels of gait assistance using the CPWalker (2019) J. Neuroeng. Rehabil, 16 (1), pp. 1-9. , Dec; Eguren, D., Cestari, M., Luu, T.P., Kilicarslan, A., Steele, A., Contreras-Vidal, J.L., Design of a customizable, modular pediatric exoskeleton for rehabilitation and mobility (2019) IEEE International Conference on Systems, Man and Cybernetics (SMC), pp. 2411-2416. , Bari, Italy, Oct; Narayan, J., Kumar Dwivedy, S., Preliminary design and development of a low-cost lower-limb exoskeleton system for paediatric rehabilitation (2021) Proc Inst Mech Eng H, 235 (5), pp. 530-545. , May; Cigali, B.S., Uluçam, E., Bozer, C., 3D motion analysis of hip, knee and ankle joints of children aged between 7-11 years during gait (2011) Balk. Med. J, 2011 (2), pp. 197-201. , Jun; Narayan, J., Dwivedy, S.K., Towards neuro-fuzzy compensated PID control of lower extremity exoskeleton system for passive gait rehabilitation (2020) IETE J. Res, pp. 1-18. , Nov; Narayan, J., Dwivedy, S.K., Robust LQR-Based Neural-Fuzzy Tracking Control for a Lower Limb Exoskeleton System with Parametric Uncertainties and External Disturbances (2021) Appl Bionics Biomech, 2021. , Jun; Pan, L., He, C., Li, Q., Structural static characteristic analysis of lower limb exoskeleton based on finite element modeling (2015) Proceedings of the 3rd international conference on mechanical engineering and intelligent systems, pp. 15-16. , Yinchuan, China, Aug; Bergmann, G., Graichen, F., Rohlmann, A., Hip joint loading during walking and running, measured in two patients (1993) J. Biomech, 26 (8), pp. 969-990. , Aug; Weinhandl, J.T., Irmischer, B.S., A Sievert, Z.Z.A., Effects of gait speed of femoroacetabular joint forces (2017) Appl Bionics Biomech, 2017. , Feb",,"Paul S.Verma J.K.",,"Institute of Electrical and Electronics Engineers Inc.","2021 International Conference on Computational Performance Evaluation, ComPE 2021","1 December 2021 through 3 December 2021",,178756,,9781665436564,,,"English","Int. Conf. Comput. Perform. Eval., ComPE",Conference Paper,"Final","",Scopus,2-s2.0-85128980101
"Rane S., Pai R., Pai A., Rane S.B.","41762617600;57564029300;55532652900;56149402100;","Multiresponse maintenance modeling using desirability function and Taguchi methods",2021,"Safety and Reliability Modeling and Its Applications",,,,"353","372",,,"10.1016/B978-0-12-823323-8.00013-1","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85127667926&doi=10.1016%2fB978-0-12-823323-8.00013-1&partnerID=40&md5=c6ab04d39163b3c07a1825abd34b49e1","Mechanical Engineering Department, Goa College of Engineering, Goa, Farmagudi, 403401, India; Syngenta, Corlim, Ilhas, Goa403110, India; Computer Engineering Department, Padre Conceicao College of Engineering, Goa, Verna, 403722, India; Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Rane, S., Mechanical Engineering Department, Goa College of Engineering, Goa, Farmagudi, 403401, India; Pai, R., Syngenta, Corlim, Ilhas, Goa403110, India; Pai, A., Computer Engineering Department, Padre Conceicao College of Engineering, Goa, Verna, 403722, India; Rane, S.B., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Successful maintenance work goes a long way in deciding both the life and quality of machine performance. There is a need to satisfy many objectives simultaneously while taking decision regarding the maintenance task. This chapter presents an application involving study of multiple responses simultaneously in optimization of preventive maintenance process using desirability function approach and Taguchi method. The approach is illustrated with a case from a pharmaceutical industry. The input variables studied in this work are number of machines, number of standby machines, crew size and mean time between failure, for optimizing the two responses; equipment utilization and mean time-to-repair. The study resulted in improvement of response values. A regression model is developed by relating input variables with the overall desirability value. © 2021 Elsevier Inc. All rights reserved.","Desirability function; Equipment utilization; Preventive maintenance; Regression analysis; Taguchi method",,,,,,,,,,,,,,,,,"Ahmad, R., Kamaruddin, S., An overview of time-based and condition-based maintenance in industrial application (2012) Comput. Ind. Eng., 63, pp. 135-149; Azadeh, A., Sheikhalishahi, M., Mortazavi, S., Jooghi, E.A., Joint quality control and preventive maintenance strategy: A unique Taguchi approach (2017) Int. J. Syst. Assurance Eng. Manag., 8, pp. 123-134; Bouslah, B., Gharbi, A., Pellerin, R., Joint production, quality and maintenance control of a two-machine line subject to operation-dependent and quality-dependent failures (2018) Int. J. Produc. Econ., 195, pp. 210-226; Cassady, C.R., Bowden, R.O., Liew, L., Pohl, E.A., Combining preventive maintenance and statistical process control: A preliminary investigation (2000) IIE Trans., 32, pp. 471-478; Chalabi, N., Dahane, M., Beldjilali, B., Neki, A., Optimisation of preventive maintenance grouping strategy for multi-component series systems: Particle swarm based approach (2016) Comp. Ind. Eng., 102, pp. 440-451; Derringer, G., Suich, R., Simultaneous Optimization of Several Response Variables (1980) J. Qual. Technol., 12, pp. 214-219; Duffuaa, S., Kolus, A., Al-Turki, U., El-Khalifa, A., An integrated model of production scheduling, maintenance and quality for a single machine (2020) Comp. Ind. Eng., 142; Edwards, D.J., Holt, G.D., Harris, F.C., A comparative analysis between the multilayer perceptron “neural network’' and multiple regression analysis for predicting construction plant maintenance costs (2000) J. Qual. Maint. Eng., 6, pp. 45-60; Harrington, E.C., The desirability function (1965) Ind. Qual. Control, 21, pp. 494-498; Hsieh, K.L., Tong, L.I., Chiu, H.P., Yeh, H.Y., Optimization of a multi-response problem in Taguchi’s dynamic system (2005) Comput. Ind. Eng., 49, pp. 556-571; Hwang, H.J., Lee, J.H., Hwang, J.S., Jun, H.B., A study of the development of a condition-based maintenance system for an LNG FPSO (2018) Ocean Eng., 164, pp. 604-615; Jalal, M., Arabali, P., Grasley, Z., Bullard, J.W., Jalal, H., Behavior Assessment, Regression Analysis and Support Vector Machine (SVM) Modeling of Waste Tire Rubberized Concrete (2020) J. Cleaner Prod.; Jonge, B.D.S., Dijkstra, A., Romeijnders, W., Cost benefits of postponing time-based maintenance under lifetime distribution uncertainty (2015) Reliab. Eng. Syst. Safe., 140, pp. 15-21; Kim, J.-M., Kim, T., Yu, Y.-J., Son, K., Development of a Maintenance and Repair Cost Estimation Model for Educational Buildings Using Regression Analysis (2018) J. Asian Architect. Build Eng., 17, pp. 307-312; Leoni, L., Bahootoroody, A., Carlo, F.D., Paltrinieri, N., Developing a risk-based maintenance model for a Natural Gas Regulating and Metering Station using Bayesian Network (2019) J. Loss Prev. Process Ind., 57, pp. 17-24; Liang, Z., Liu, B., Xie, M., Parlikad, A.K., Condition-based maintenance for long-life assets with exposure to operational and environmental risks (2020) Int. J. Prod. Econ.; Mondal, N., Mandal, S., Mandal, M.C., FPA Based Optimization of Drilling Burr using Regression Analysis and ANN Model (2019) Measurement; Myers, R.H., Montgomery, D.C., Anderson-Cook, C.M., (2016) Response surface methodology: Process and product optimization using designed experiments, , John Wiley & Sons New Jersey; Navarro, I.J., Martí, J.V., Yepes, V., Reliability-based maintenance optimization of corrosion preventive designs under a life cycle perspective (2019) Environ. Impact Assess. Rev., 74, pp. 23-34; Nguyen, K.T.P., Do, P., Huynh, K.T., Bérenguer, C., Grall, A., Joint optimization of monitoring quality and replacement decisions in condition-based maintenance (2019) Reliab. Eng. Syst. Safe., 189, pp. 177-195; Pai, A., Joshi, G., Rane, S., Multi-response optimization based on desirability function and Taguchi method in agile software development (2019) Int. J. Syst. Assurance Eng. Manag., 10, pp. 1444-1452; Pandey, D., Kulkarni, M.S., Vrat, P., A methodology for simultaneous optimisation of design parameters for the preventive maintenance and quality policy incorporating Taguchi loss function (2012) Int. J. Prod. Res., 50, pp. 2030-2045; Paraschos, P.D., Koulinas, G.K., Koulouriotis, D.E., Reinforcement learning for combined production-maintenance and quality control of a manufacturing system with deterioration failures (2020) J. Manuf. Syst., 56, pp. 470-483; Phadke, M.S., (1989) Quality Engineering Using Robust Design, , Prentice Hall Englewood; Polotski, V., Kenne, J.-P., Gharbi, A., Joint production and maintenance optimization in flexible hybrid Manufacturing-Remanufacturing systems under age-dependent deterioration (2019) Int. J. Prod. Econ., 216, pp. 239-254; Pui, G., Bhandari, J., Arzaghi, E., Abbassi, R., Garaniya, V., Risk-based maintenance of offshore managed pressure drilling (MPD) operation (2017) J. Petroleum Sci. Eng., 159, pp. 513-521; Rahmati, S.H.A., Ahmadi, A., Karimi, B., Multi-objective evolutionary simulation based optimization mechanism for a novel stochastic reliability centered maintenance problem (2018) Swarm Evol. Comput., 40, pp. 255-271; Rivera-Gómez, H., Gharbi, A., Kenné, J.-P., Montañoarango, O., Corona-Armenta, J.R., Joint optimization of production and maintenance strategies considering a dynamic sampling strategy for a deteriorating system (2020) Comput. Ind. Eng., 140; Ross, P.J., (1998) Taguchi Techniques for Quality Engineering, , McGraw-Hill Publication New York; Rusin, A., Wojaczek, A., Improving the availability and lengthening the life of power unit elements through the use of risk-based maintenance planning (2019) Energy, 180, pp. 28-35; Sacco, T., Compare, M., Zio, E., Sansavini, G., Portfolio decision analysis for risk-based maintenance of gas networks (2019) J. Loss Prev. Process Ind., 60, pp. 269-281; Sait, A.N., Aravindan, S., Haq, A.N., Optimisation of machining parameters of glass-fibre-reinforced plastic (GFRP) pipes by desirability function analysis using Taguchi technique (2009) Int. J. Adv. Manuf. Technol., 43, pp. 581-589; Schlünz, E.B., Vuuren, J.H.V., An investigation into the effectiveness of simulated annealing as a solution approach for the generator maintenance scheduling problem (2013) Electr. Power Energy Syst., 53, pp. 166-174; Shi, Y., Zhu, W., Xiang, Y., Feng, Q., Condition-based maintenance optimization for multi-component systems subject to a system reliability requirement (2020) Reliab. Eng. System Safe., 202; Sin, I.H., Chung, B.D., (2019) Bi-objective optimization approach for energy aware scheduling considering electricity cost and preventive maintenance using genetic algorithm; Taguchi, G., (1990) Introduction to Quality Engineering, , Asian Productivity Organization Tokyo, Japan; Wang, L., Lu, Z., Ren, Y., Joint production control and maintenance policy for a serial system with quality deterioration and stochastic demand (2020) Reliab. Syst. Safe., p. 199; Xiao, L., Zhang, X., Tang, J., Zhou, Y., Joint optimization of opportunistic maintenance and production scheduling considering batch production mode and varying operational conditions (2020) Reliab. Eng. Syst. Safe., 202; Yan, T., Lei, Y., Wang, B., Han, T., Si, X., Li, N., Joint maintenance and spare parts inventory optimization for multi-unit systems considering imperfect maintenance actions (2020) Reliab. Eng. Syst. Safe., 202; Zakikhani, K., Nasiri, F., Zayed, T., Availability-based reliability-centered maintenance planning for gas transmission pipelines (2020) Int. J. Pressure Vessels Piping, 183; Zhong, S., Pantelous, A.A., Goh, M., Zhou, J., A reliability-and-cost-based fuzzy approach to optimize preventive maintenance scheduling for offshore wind farms (2019) Mech. Syst. Sig. Process., 124, pp. 643-663",,,,"Elsevier",,,,,,9780128233238,,,"English","Saf. and Reliability Modeling and Its Applications",Book Chapter,"Final","",Scopus,2-s2.0-85127667926
"Gokhale P., Patil B.R.","57478848200;57478848300;","A Review of Articles Representing Renogram Processing Techniques",2021,"Proceedings of the IEEE International Conference Image Information Processing","2021-November",,,"75","80",,,"10.1109/ICIIP53038.2021.9702598","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85125877807&doi=10.1109%2fICIIP53038.2021.9702598&partnerID=40&md5=f81c734999693d95ed47dd2aaa63178b","University of Mumbai, Sardar Patel College of Engineering, Dept. of Electrical Engineering, India; VIMEET, University of Mumbai, Maharashtra, India","Gokhale, P., University of Mumbai, Sardar Patel College of Engineering, Dept. of Electrical Engineering, India; Patil, B.R., VIMEET, University of Mumbai, Maharashtra, India","The renography represents time activity process detected when one measures the activity in the kidneys after the dose injection of radiolabeled radio tracer(e.g.99mTc-DTPA,99mTc-MAG3). Interpretation of this renal scan helps to diagnose whether the drainage function from the kidney is normal or abnormal. This renal tracer's data is processed by mathematical models and data processing techniques like Rutland-Patlak and deconvolution methods to produce renograph. This research study is carried out to review previously published research articles incorporating various methods, their applications and image processing algorithms as well as techniques that were applied to process renal radiotracer's transit time data. This review includes various types, advantages, gaps and possible scopes for existing renogram data processing techniques. After analysis process of 142 articles it is found that, maximum of the articles are associated with renal scan's processing methods that are limited to renal patient's related disease categories and having absence of quantifiable measurement and study of parenchymal radio tracer's transit time counted from renal cortex to renal pelvis path while limited numbers of articles are purely related to applied algorithms for detecting obstruction level qualitatively. © 2021 IEEE.","classification criterion; modeling; renal obstruction; tracer transit time","Image processing; Radioactive tracers; Classification criterion; Data processing techniques; Deconvolution method; Modeling; Processing technique; Renal obstruction; Renogram; Research studies; Tracer transit time; Transit-time; Data handling",,,,,,,,,,,,,,,,"Blum, E.S., Early Detection of Ureteropelvic Junction Obstruction Using Signal Analysis and Machine Learning: A Dynamic Solution to a Dynamic Problem (2018) J. Urol, 199 (3), pp. 847-852; Diffey, B.L., Hall, F.M., Corfield, J.R., The 99mTc-DTPA dynamic renal scan with deconvolution analysis (1976) Journal of Nuclear Medicine, 17 (5), pp. 353-355; Piepsz, A., Ham, H.R., Erbsmann, F., Hall, M., A cooperative study on the clinical value of dynamic renal scanning with deconvolution analysis (1982) British Journal of Radiology, 55 (654), pp. 419-433; Knesaurek, K., Spaventi, S., Comparison of three deconvolution techniques in renography (1984) Eur J Nucl Med, 9, pp. 254-256; Van. Huffel, S., Vandewalle, J., De. Roo, M.C., Willems, J.L., Reliable and efficient deconvolution technique based on total linear least squares for calculating the renal retention function (1987) Medical & Biological Engineering & Computing, 25, pp. 26-33; Moonen, M., Granerus, G., Subtraction of extra-renal background in 99mTc-DTPA renography: Comparison of various regions of interest (1992) Clinical Physiology, 12, pp. 453-461; Tracy, L., F.russell, F.D., Computer Processing Methods for Nuclear Medicine Images (1994) Journal of Nuclear Medicine Technology, 22 (3), pp. 45-162; Bererhi, H., Z-Transform method for deconvolution as applied to the renogram (1995) Nuclear Medicine Communication, 16, pp. 161-167; Gonzalez Puchal, A.R., Bajen, M.T., Prat, M.L., Martin-Comin, L., 99mTc-MAG3 renogram deconvolution in normal subjects and in normal functioning kidney grafts (1994) Nuclear Medicine Communication, 15, pp. 636-642; Rajabi, H., Pant, G.S., Padhl, A.K., Basu, A.K., Computer Processing of Radionuclide Renogram & Uses of Deconvolution Method to Calculate Renal Transit Time (1995) Proceedings RC IEEE-EMBS & 14th BMESl; Kempi, V., Sutton, D.G., Renography and Deconvolution Parameters: A Logistic Regression Analysis (1995) J Nuclear of Medicine, 36, pp. 147-152; Russell, C.D., Japanwalla, M., Khan, S., Scott, J.W., Dubovsky, E.V., Techniques for measuring renal transit time (1995) European Journal of Nuclear Medicine, 22, pp. 1372-1378; Taylor, A., Thakore, T., Folks, R., Halkar, R., Manatunga, A., Background subtraction in technetium-99m-MAG3 renography (1997) The Journal of Nuclear Medicine, 38, pp. 74-79; Karagoz, I., Functional Radionuclide Imaging Algorithm Based on the Appended Curve Deconvolution Technique and Its Use in the Diagnosis of Renovascular Hypertension (1998) ELEKTRIK, 6 (3), pp. 261-273; Rajabi, H., Pant, G.S., Optimum filtration for time-Activity curves in nuclear medicine (2000) Nuclear Medicine Communication, 21, pp. 823-828; Rutland, M., Mean transit times without deconvolution reconsidered (2002) Nuclear Medicine Communication, 23, pp. 91-96; Rajabi, H., Pant, G.S., Padhy, A.K., Renal Transit Times Using a Modified Method of Deconvolution (2003) Indian Journal of Nuclear Medicine, 18 (12), pp. 37-43; Dobbeleira, A.A., Piepszb, A., Ham, H.R., Pixel-by-pixel mean transit time without deconvolution Nuclear Medicine Communications, 2008vol, 29 (4), pp. 345-348; Lia, Q., Zhanga, C., Fua, Z., Wanga, R., Mab, Y., Zuob, L., Development of formulae for accurate measurement of the glomerular filtration rate by renal dynamic imaging (2007) Nuclear Medicine Communication, 28 (5), pp. 407-413; Issa, I., Al-Shakhrah, R., A Comparison between the Values of Renal Parenchymal Mean Transit Time by Applying Two Methods, Matrix Inversion Deconvolution And, Rutland-Patlak Plot (2010) World Applied Sciences Journal, 8 (10), pp. 1211-1219; Stahl, D., Astom, K., Christian, N., Matilda, O., Karl Sjostrand, L., Eden Brandt, L., Automatic Compartment Modelling and Segmentation for Dynamical Renal Scintigraphies (2011) Springer-Verlag Berlin Heidelberg, pp. 557-568; Fleming, J.S., Goddard, B.A., Inst, F., A Technique for the Deconvolution of the Renogram (1974) Physics in Medicine and Biology, 19 (4), pp. 546-549; Issa, A., Al-Shakhrah, H., A comparison of deconvolution and the Rutland-Patlak plot in parenchymal renal uptake rate (2012) Indian Journal of Nuclear Medicine, 27 (3), pp. 176-180; Aribi, Y., Wali, A., Chakroun, M., Alimi, A.M., Automatic Definition of Regions of Interest on Renal Scintigraphic Images ELSEVIER (2013) AASRI Conference on Intelligent Systems and Control, pp. 37-42; Silva, A., Cristina Amorim, M., Carolino, E., Renal Function in Renogram: Comparison of Two Algorithms for Image Processing (2014) Research Gate Poster; Donald Blaufox, M., Renal background correction and measurement of split renal function: The challenge (2016) Eur J Nuclear Med Mol Imaging, 43, pp. 548-549; Blum, E.S., Early Detection of Ureteropelvic Junction Obstruction Using Signal Analysis and Machine Learning: A Dynamic Solution to a Dynamic Problem (2018) J. Urol, 199 (3), pp. 847-852; Demir1, F., Demir, M., Comparison of 99mTc-DMSA, 99mTc-DTPA and 99mTc-MAG3 Renal Scintigraphy in the Calculation of Relative Renal Function (2020) Journal of Urological Surgery, 7 (3), pp. 130-133; Danilczuk, A., Nocun, A., Chrapko, B., Normal ranges of renal function parameters for 99mTc-EC renal scintigraphy (2020) Nuclear Medicine Review, 23 (2), pp. 53-57",,,,"Institute of Electrical and Electronics Engineers Inc.","6th International Conference on Image Information Processing, ICIIP 2021","26 November 2021 through 28 November 2021",,177203,2640074X,9781665433617,,,"English","Proc. IEEE Int. Conf. Image Inf. Process., ICIIP",Conference Paper,"Final","",Scopus,2-s2.0-85125877807
"Bansode M.R., Dahatonde R., Rathod S.S.","57202943251;57220086849;26423222200;","Simultaneous Switching Noise Reduction in High Speed Circuits",2021,"Proceedings - International Conference on Communication, Information and Computing Technology, ICCICT 2021",,,,"","",,,"10.1109/ICCICT50803.2021.9510097","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85124698820&doi=10.1109%2fICCICT50803.2021.9510097&partnerID=40&md5=0cf3e31ffd68909960c3c3b4506cabfb","Department of Electronics Engineering, Bharatiya Vidya Bhavan’s Sardar Patel Institute of Technology, Mumbai, India; Department of Electrical Engineering, Bharatiya Vidya Bhavan’s Sardar Patel College of Engineering, Mumbai, India; Department of Electronics Engineering, Bharatiya Vidya Bhavan’s Sardar Patel Institute of Technology, Mumbai, India","Bansode, M.R., Department of Electronics Engineering, Bharatiya Vidya Bhavan’s Sardar Patel Institute of Technology, Mumbai, India; Dahatonde, R., Department of Electrical Engineering, Bharatiya Vidya Bhavan’s Sardar Patel College of Engineering, Mumbai, India; Rathod, S.S., Department of Electronics Engineering, Bharatiya Vidya Bhavan’s Sardar Patel Institute of Technology, Mumbai, India","This paper introduces the suppression of Simultaneous Switching Noise (SSN) using compact coplanar Electromagnetic Bandgap (EBG) structure. T-shaped bridge is designed for connection of two adjacent planes i.e. patches of Electromagnetic Band Gap structure. This Planar EBG structure provides good suppression for frequency ranges from 2.87 GHz to 13.56 GHz at –30 dB average suppression level. ©2021 IEEE","Electromagnetic Bandgap (EBG); Printed Circuit Board (PCB); Signal Integrity (SI); Simultaneous Switching Noise (SSN)","Energy gap; Metamaterials; Switching; Timing circuits; Electromagnetic bandgap; Electromagnetic bandgap structures; Frequency ranges; High speed circuit; Printed circuit board; Signal Integrity; Simultaneous switching noise; Suppression level; Printed circuit boards",,,,,,,,,,,,,,,,"Sievenpiper, D., Zhang, L., Jimenez Broas, R.F., Alexopolous, N.G., Eli Yablonovitch, E., High-impedance electromagnetic surfaces with a forbidden frequency band (1999) IEEE Trans. Mircowave Theory Tech., 47, pp. 2059-2073. , Nov; Abhari, R., Eleftheriades, G.V., Metallo-dielectric electromagnetic bandgap structures for suppression and isolation of parallel-plate noise in high-speed circuits (2003) IEEE Trans. Microw. Theory Tech., 51 (6), pp. 1629-1639. , Jun; de Paulis, F., Raimondo, L., Orlandi, A., IR-drop analysis and thermal assessment of planar electromagnetic bandgap structures for power integrity applications (2010) IEEE Trans. Adv. Packaging, 33 (3), pp. 617-622. , Aug; Huh, S.L., Swaminathan, M., A design technique for embedded electromagnetic band gap structure in load board applications (2012) IEEE Trans. Electromagnetic Compatibility, 54 (2), pp. 443-456. , Apr; Ricchiuti, V., Power-supply decoupling on fully populated high-speed digital PCBs (2001) IEEE Trans. Electromagnetic Compatibility, 43 (4), pp. 671-676. , Nov; Paulis, F.D., Orlandi, A., Raimondo, L., Antonini, G., Fundamental mechanisms of coupling between planar electromagnetic bandgap structures and interconnects in high-speed digital circuits. Part I – Microstriplines (2009) Proc. EMC European Workshop, pp. 11-12. , Athens, Greece, Jun; Chung, D., Kim, T.H., Ryu, C., Engin, E., Swaminathan, M., Kim, J., Effect of EBG structures for reducing noise in multi-layer PCBs for digital systems (2006) Proc. IEEE 15th Conf. Electr. Perform. Electron. Packag., pp. 253-256. , Scottsdale, AZ, Oct. 23–25; Shahparnia, S., Ramahi, O.M., Miniaturized electromagnetic bandgap structures for broadband switching noise suppression in PCBs (2005) Electron. Lett., 41 (9), pp. 519-520. , Apr; Wu, T.L., Lin, Y.H., Wang, T.K., Wang, C.C., Chen, S.T., Electromagnetic bandgap power/ground planes for wideband suppression of ground bounce noise and radiated emission in highspeed circuits (2005) IEEE Trans. Microw. Theory Tech., 53 (9), pp. 2935-2942. , Sep; Wu, T.L., Wang, C.C., Lin, Y.H., Wang, T.K., Chang, G., A novel power plane with super-wideband elimination of ground bounce noise on high speed circuits (2005) IEEE Microwave Wireless Compon. Lett., 15 (3), pp. 174-176. , Mar; Mohajer- Iravaniand, B., Ramahi, O.M., Wideband circuit model for planar EBG structures (2010) IEEE Trans. Adv. Packag., 33 (2), pp. 345-354. , May; Ning, C., Jin, J., Yang, K., Xie, H., Wang, D.W., Liao, Y., Wang, L.D., Yin, W.-Y., A novel electromagnetic bandgap power plane etched with multiring CSRRs for suppressing simultaneous switching noise (2018) IEEE Trans. Electromagnetic Compatibility, 60 (3), pp. 733-737. , Jun; Lu, H.M., Zha, J.X., Yu, Z.Y., Design and analysis of a novel electromagnetic bandgap structure for suppressing simultaneous switching noise (2012) Progress In Electromagnetics Research C, 30, pp. 81-91; Shinde, S., Bansode, M., Bhavarthe, P.P., Rathod, S.S., Suppression of SSN in High-Speed Circuits using 1-D EBG structure International Conference on Computing, Communication and Networking Technologies (ICCCNT), , Jul. 2020; Wu, T.L., Wang, T.K., Embedded power plane with ultra-wide stop-band for simultaneously switching noise on highspeed circuits (2006) Electronics Letters, 42 (4), pp. 213-214. , Feb; Sievenpiper, D., Zhang, L., Broas, R.F.J., Alexopolous, N.G., Yablonovitch, E., High-impedance electromagnetic surfaces with a forbidden frequency band (1999) IEEE Trans. Microwave Theory and Techniques, 47 (11), pp. 2059-2074. , Nov; Wu, T.L., Wang, C.C., Lin, Y.H., Wang, T.K., Chang, G., A novel power plane with super-wideband elimination of ground bounce noise on high speed circuits (2005) IEEE Microwave and Wireless Components Letters, 15 (3), pp. 174-176. , Mar; Kim, K.H., Schutt-Aine, J.E., Analysis and modeling of hybrid planar-type electromagnetic-bandgap structures and feasibility study on power distribution network applications (2008) IEEE Trans. Microwave Theory and Techniques, 56 (1), pp. 178-186. , Jan; de Paulis, F., Orlandi, A., Accurate and efficient analysis of planar electromagnetic band-gap structures for power bus noise mitigation in the GHz band (2012) Prog. Electromagn. Res. B, 37, pp. 59-80; Kim, T.H., Chung, D., Engin, E., Yun, W., Toyota, Y., Swaminathan, M., A novel synthesis method for designing electromagnetic bandgap (EBG) structures in packaged mixed signal systems (2006) Proc. 56th Electron. Compon. Technol. Conf., pp. 1645-1651; Choi, J., Govind, V., Swaminathan, M., A novel electromagnetic bandgap (EBG) structure for mixed-signal system applications (2004) IEEE Radio and Wireless Conference; High Frequency Structure Simlator, , www.ansoft.com",,,,"Institute of Electrical and Electronics Engineers Inc.","4th International Conference on Communication, Information and Computing Technology, ICCICT 2021","26 June 2021 through 27 June 2021",,176803,,9781665404303,,,"English","Proc. - Int. Conf. Commun., Inf. Comput. Technol., ICCICT",Conference Paper,"Final","",Scopus,2-s2.0-85124698820
"Rane S.B., Nalaskar S.G.","56149402100;57420061100;","Analysis of interactions among lean barriers in new product development",2021,"International Journal of Six Sigma and Competitive Advantage","13","1-3",,"145","181",,,"10.1504/IJSSCA.2021.120221","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123172563&doi=10.1504%2fIJSSCA.2021.120221&partnerID=40&md5=5d6efdcac263048357a2d4d38c7f4dc4","Sardar Patel College of Engineering (SPCE), Andheri – W, Mumbai, 400058, India","Rane, S.B., Sardar Patel College of Engineering (SPCE), Andheri – W, Mumbai, 400058, India; Nalaskar, S.G., Sardar Patel College of Engineering (SPCE), Andheri – W, Mumbai, 400058, India","In a competitive business environment, industries are focusing more on NPD to survive in the market and adopting new tools and techniques for optimising resources. Exhaustive literature survey (LS) shows lack of usage of lean practices for NPD. In this research, a total of 30 lean barriers involved in NPD have been identified based on LS, out of which 12 barriers have been shortlisted based on experts’ inputs. This research has identified linkage barriers (lack of top management commitment, employee resistance, lack of skills and training, lack of awareness of environmental norms, unsuitable market share by product) and independent barriers [lack of Government policy/support for lean product development (LPD), concern about the impact of change on regulatory compliance, cultural difference of team members] based on interpretive structural modelling (ISM) analysis. This paper concludes that the success of lean implementation depends on managements’ determination, workers’ attitude, and organisational culture. A total of 12 strategies have been developed to deal with the critical lean barriers involved in NPD, which can ensure the success of NPD. Copyright © 2021 Inderscience Enterprises Ltd.","Interpretive structural modelling; ISM; Lean; Lean barriers; Lean NPD; MICMAC analysis; New product development; NPD",,,,,,,"Lack of financial support","R8 – Functional R3 – Lack of and professional financial support silos","Lack of financial support and Lack of skills and training: Government’s schemes",,,,,,,,"Abolhassani, A.H., Layfield, K., Gopalakrishnan, B., Lean and US manufacturing industry: Popularity of practices and implementation barriers (2016) International Journal of Productivity and Performance Management, 65 (7), pp. 875-897; Achanga, P., Shehab, E., Roy, R., Nelder, G., Critical success factors for lean implementation within SMEs (2006) Journal of Manufacturing Technology Management, 17 (4), pp. 460-471; Agarwal, A., Shankar, R., Tiwari, M.K., Modelling the metrics of lean, agile and leagile supply chain: an ANP-based approach (2006) European Journal of Operational Research, 173 (1), pp. 211-225; Ahmad, S., Azuan, S., Culture and lean manufacturing: towards a holistic framework (2013) Australian Journal of Basic and Applied Sciences, 7 (1), pp. 334-338. , ISSN 1991-8178; Aij, K.H., Simons, F.E., Widdershoven, G.A.M., Visse, M., Experiences of leaders in the implementation of Lean in a teaching hospital – barriers and facilitators in clinical practices: a qualitative study (2013) BMJ Open, 3, p. e003605; Aikhuele, D., Turan, F., A conceptual model for the implementation of lean product development (2018) International Journal of Service Science, Management, Engineering, and Technology, 9 (1); Alagaraja, M., A conceptual model of organizations as learning performance systems: integrative review of lean implementation literature (2013) Sagepub.Com/Journals, Human Resource Development Review, 13 (2), pp. 207-233; Albliwi, S., Antony, J., Halim, S.A., Van der Wiele, L.T., Critical failure factors of Lean Six Sigma: a systematic literature review (2014) International Journal of Quality & Reliability Management, 31 (9), pp. 1012-1030; Alhuraish, I., Robeldo, C., Kobi, A., Azzabi, L., Analytic hierarchy process used to estimate the performance of companies that implement lean manufacturing and Six Sigma (2017) International Journal of Six Sigma and Competitive Advantage, 10, pp. 179-200. , Nos. 3/4; Alinaitwe, H.M., Prioritizing lean construction barriers in Uganda’s construction industry (2009) Journal of Construction in Developing Countries, 14 (1), pp. 15-30; Anderson, E.G., Joglekar, N.R., A hierarchical product development planning framework (2009) Production and Operations Management, 14 (3), pp. 344-361; Annosi, M.C., Martini, A., Brunetta, F., Marchegian, L., Learning in an agile setting: a multilevel research study on the evolution of organizational routines (2018) Journal of Business Research; Bashir, A.M., Suresh, S., Proverbs, D.G., Gameson, R., Barriers towards the sustainable implementation of lean construction in the united kingdom construction organisations (2010) ARCOM Doctoral Workshop on Sustainability Strategies in Construction, pp. 1-8. , University of Wolverhampton, UK, 25th June; Baumer-Cardoso, M.I., Campos, L.M.S., Santos, P.P.P., Frazzon, E.M., Simulation-based analysis of catalyzers and trade-offs in Lean & Green manufacturing (2020) Journal of Cleaner Production, 242, pp. 118-411; Bayou, M.E., de Korvin, A., Measuring the leanness of manufacturing systems – a case study of Ford Motor Company and General Motors (2008) Journal of Engineering, Technology and Management, 25, pp. 287-304; Behzadian, M., Otaghsara, S.K., Yazdani, M., Ignatius, J., A state-of-the-art survey of TOPSIS applications (2012) Journal of Expert Systems with Applications, 39, pp. 13051-13069. , Elsevier; Beikkhakhian, Y., Javanmardi, M., Karbasian, M., Khayambashi, B., The application of ISM model in evaluating agile suppliers selection criteria and ranking suppliers using fuzzy TOPSIS-AHP methods (2015) Journal of Expert Systems with Applications, 42 (15–16), pp. 6224-6236. , Elsevier, Nos; Belvedere, V., Cuttaia, F., Rossi, M., Stringhetti, L., Mapping wastes in complex projects for Lean Product Development (2019) International Journal of Project Management, 37, pp. 410-424; Bhamu, J., Kumar, J.S., Sangwan, K.S., Productivity and quality improvement through value stream mapping: a case study of Indian automotive industry (2012) International Journal of Productivity and Quality Management, 10 (3), pp. 288-306; Bhasin, S., Prominent obstacles to lean (2012) International Journal of Productivity and Performance Management, 61 (4), pp. 403-425; Bhasin, S., Burcher, P., Lean viewed as a philosophy (2006) Journal of Manufacturing Technology Management, 17 (1), pp. 56-72; Boes, A., Kämpf, T., Agile methods, lean development and the change of work in software development (2014) Future Business Software, pp. 83-92. , Springer Int. Pub; Boyer, M., Sovilla, L., How to identify and remove the barriers for a successful lean implementation (2003) Journal of Ship Production, 19 (2), pp. 116-120. , Corpus ID: 107720565; Brintrup, A., Ranasinghe, D., McFarlane, D., RFID opportunity analysis for leaner manufacturing (2010) International Journal of Production Research, 48 (9), pp. 2745-2764; Chang, A.Y., Hu, K.J., Hong, Y.L., An ISM-ANP approach to identifying key agile factors in launching a new product into mass production (2013) International Journal of Production Research, 51 (2), pp. 582-597; Cherrafi, A., Elfezazi, S., Garza-Reyes, J.A., Benhida, K., Mokhlis, A., Barriers in Green Lean implementation: a combined systematic literature review and interpretive structural modelling approach (2017) Production Planning & Control, 28 (10), pp. 829-842; Chuang, H.M., Lin, C.K., Chen, D.R., Chen, Y.S., Evolving MCDM applications using hybrid expert-based ISM and DEMATEL models: an example of sustainable ecotourism (2013) The Scientific World Journal, 2013, p. 751728. , Article ID 18pp; Ciarniene, R., Vienazindiene, M., Lean manufacturing implementation: the main challenges and barriers (2013) Management Theory and Studies for Rural Business and Infrastructure Development, 35 (1), pp. 43-49. , ISSN 2345-0355; Cong, J-C., Chen, C-H., Zheng, P., Li, X., Wang, Z., A holistic relook at engineering design methodologies for smart product-service systems development (2020) Journal of Cleaner Production, 272, pp. 122-737; Dandage, R., Mantha, S.S., Rane, S.B., Ranking the risk categories in international projects using the TOPSIS method (2018) International Journal of Managing Projects in Business; Dandage, R.V., Mantha, S.S., Rane, S.B., Bhoola, V., Analysis of interactions among barriers in project risk management (2018) Journal of Industrial. Engineering International, 14 (1), pp. 153-169; Dandage, R.V., Mantha, S.S., Rane, S.B., Strategy development using TOWS matrix for international project risk management based on prioritization of risk categories (2019) International Journal of Managing Projects in Business; Darabi, R., Moradi, R., Toomari, U., Barriers to implementation of lean accounting in manufacturing companies (2012) International Journal of Business and Commerce, 1 (9), pp. 38-51. , ISSN: 2225-2436; De’ Souza, L.B., Trends and approaches in lean healthcare (2009) Leadership in Health Services, 22 (2), pp. 121-139; De’ Souza, L.B., Pidd, M., Exploring the barriers to lean health care implementation (2011) Public Money & Management, 31 (1), pp. 59-66; Diabat, A., Khreishah, A., Kannan, G., Panikar, V., Gunasekaran, A., Benchmarking the interactions among barriers in third-party logistics implementation (2013) Benchmarking: An International Journal, 20 (6), pp. 805-824; Dombrowski, U., Karl, A., Lean product development for small and medium-sized suppliers (2017) Procedia CIRP, 63, pp. 615-620. , Elsevier; Doolen, T.L., Hacker, M.E., A review of lean assessment in organizations: an exploratory study of lean practices by electronics manufacturers (2005) Journal of Manufacturing Systems, 24 (1), pp. 55-67; Dora, M., Goubergen, D.V., Kumar, M., Molnar, A., Gellynck, X., Application of lean practices in small and medium-sized food enterprises (2013) British Food Journal, 116 (1), pp. 125-141; Erdogan, M., Kaya, I., An integrated multi-criteria decision-making methodology based on type-2 fuzzy sets for selection among energy alternatives in Turkey (2015) Iranian Journal of Fuzzy Systems, 12 (1), pp. 1-25; Estevam de Souza, J.P., Dekkers, R., Adding sustainability to lean product development (2019) Procedia Manufacturing, 39, pp. 1327-1336; Eswaramoorthi, M., Kathiresan, G.R., Prasad, P.S.S., Mohanram, P.V., A survey on lean practices in Indian machine tool industries (2011) The International Journal of Advanced Manufacturing Technology, 52 (9–12), pp. 1091-1101. , Nos; Fatemi, S., Franchetti, M.J., An application of sustainable lean and green strategy with a Six Sigma approach on a manufacturing system (2016) International Journal of Six Sigma and Competitive Advantage, 10 (1), pp. 62-75; Gautam, N., Singh, N., Lean product development: maximizing the customer perceived value through design change (redesign) (2008) International Journal of Production Economics, 114, pp. 313-332; Glass, R., Seifermann, S., Metternich, J., The spread of lean production in the assembly, process and machining industry (2016) Procedia CIRP, 55, pp. 278-283; Hasle, P., Lean production – an evaluation of the possibilities for an employee supportive lean practice (2014) Human Factors and Ergonomics in Manufacturing and Service Industries, 24 (1), pp. 40-53; Herron, C., Hicks, C., The transfer of selected lean manufacturing techniques from Japanese automotive manufacturing into general manufacturing (UK) through change agents (2008) Robotics and Computer-Integrated Manufacturing, 24 (4), pp. 524-531; Hines, P., Taylor, D., Walsh, A., The Lean journey: have we got it wrong? (2018) Total Quality Management & Business Excellence, pp. 1-18; Jadhav, J.R., Mantha, S.S., Rane, S.B., Practice bundles for integrated green-lean manufacturing systems (2013) International Journal of Computer Applications, 7, pp. 975-8887; Jadhav, J.R., Mantha, S.S., Rane, S.B., Barriers for successful implementation of JIT: a manufacturer perspective (2014) International Journal of Procurement Management, 7 (3), pp. 316-342; Jadhav, J.R., Mantha, S.S., Rane, S.B., Development of a framework for sustainable Lean implementation: an ISM approach (2014) International Journal of Industrial Engineering, 10, p. 72. , Springer; Jadhav, J.R., Mantha, S.S., Rane, S.B., Exploring barriers in lean implementation (2014) International Journal of Lean Six Sigma, 5 (2), pp. 122-148; Jadhav, J.R., Mantha, S.S., Rane, S.B., Analysis of interactions among the barriers to JIT production: interpretive structural modelling approach (2015) International Journal of Industrial Engineering, 11, pp. 331-352; Jadhav, J.R., Mantha, S.S., Rane, S.B., Roadmap for lean implementation in Indian automotive component manufacturing industry: a comparative study of UNIDO model and ISM Model (2015) International Journal of Industrial Engineering, 11, pp. 179-198. , Springer; Jadhav, J.R., Mantha, S.S., Rane, S.B., Supply risks in JIT implementation (2015) International Journal of Business Performance and Supply Chain Modelling, 7 (2), pp. 141-170; Jain, V., Raj, T., A hybrid approach using ISM and modified TOPSIS for the evaluation of flexibility in FMS (2015) International Journal of Industrial and Systems Engineering, 19 (3), pp. 389-406; James-Moore, S.M., Gibbons, A., Is lean manufacture universally relevant? 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J. Six Sigma Compet. Advantage",Article,"Final","",Scopus,2-s2.0-85123172563
"Rane S.B., Potdar P.R., Mewada M.","56149402100;57208580113;57420075700;","Implementation of a Six Sigma strategy for process improvement in the wiper motor manufacturing industry",2021,"International Journal of Six Sigma and Competitive Advantage","13","1-3",,"241","270",,,"10.1504/IJSSCA.2021.120219","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123169636&doi=10.1504%2fIJSSCA.2021.120219&partnerID=40&md5=6ddeaff839fa3277dac075f9be290262","Sardar Patel College of Engineering (SPCE), Munshi Nagar, Bhavans Campus, Andheri-West, Mumbai, 400058, India","Rane, S.B., Sardar Patel College of Engineering (SPCE), Munshi Nagar, Bhavans Campus, Andheri-West, Mumbai, 400058, India; Potdar, P.R., Sardar Patel College of Engineering (SPCE), Munshi Nagar, Bhavans Campus, Andheri-West, Mumbai, 400058, India; Mewada, M., Sardar Patel College of Engineering (SPCE), Munshi Nagar, Bhavans Campus, Andheri-West, Mumbai, 400058, India","The small and medium scale manufacturing industries in India faced many problems in real life due to financial constraints, business uncertainty, and demand fluctuations, which cannot be solved by adopting standard solutions only. Therefore, it is necessary to quickly and efficiently meet customers’ changing demands by adopting business excellence practices. This study discussed the Six Sigma approach using define-measure-analyse-improve-control (DMAIC) methodology and developed tailor-made solutions (improvement measures) based on lateral thinking to solve the issues related to the manufacturing of the vehicle’s electric P20 wiper motor. The suggested improvement measures have finally achieved a 38% reduction in the rejection rate and total cost saving per annum Rs. 1,249,920. This study concludes that the DMAIC methodology is a compelling set of tools to give the dramatic business results methodically and the car manufacturing company appreciated this Six Sigma initiative at the vendor’s company in the production of wiper motors. Copyright © 2021 Inderscience Enterprises Ltd.","Assembly lines of electric motors; Bearing fitment procedure; Cause and effect matrix; Define-measure-analyse-improve-control; DMAIC; Noise of wiper motor; Process capability sixpack; Shaft concentricity; Six Sigma",,,,,,,,,,,,,,,,,"Adikorley, R.D., Rothenberg, L., Guillory, A., Lean Six Sigma applications in the textile industry: a case study (2017) Int. J. Lean Six Sigma, 8, pp. 210-224; Alcaide-Muñoz, C., Gutierrez-Gutierrez, L.J., Six Sigma and organisational ambidexterity: a systematic review and conceptual framework (2017) Int. J. Lean Six Sigma, 8, pp. 436-456; Aldairi, J., Khan, M.K., Munive-Hernandez, J.E., Knowledge-based Lean Six Sigma maintenance system for sustainable buildings (2017) Int. J. Lean Six Sigma, 8, pp. 109-130; Alhuraish, I., Robeldo, C., Kobi, A., Azzabi, L., Analytic hierarchy process used to estimate the performance of companies that implement lean manufacturing and Six Sigma (2017) Int. J. Six Sigma Compet. 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Lean Six Sigma, 7, pp. 2-24","Potdar, P.R.; Sardar Patel College of Engineering (SPCE), Andheri-West, India; email: prathameshpotdar122@gmail.com",,,"Inderscience Publishers",,,,,14792494,,,,"English","Int. J. Six Sigma Compet. Advantage",Article,"Final","",Scopus,2-s2.0-85123169636
"Rane S.B., Potdar P.R.","56149402100;57208580113;","Blockchain-IoT-based risk management approach for project procurement process of asset propelled industries",2021,"International Journal of Procurement Management","14","5",,"641","679",,,"10.1504/IJPM.2021.117284","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114307649&doi=10.1504%2fIJPM.2021.117284&partnerID=40&md5=b23bc08d69533e8674d80c8f54da9ebb","Sardar Patel College of Engineering (SPCE), Munshi Nagar, Andheri West, Mumbai, 400058, India","Rane, S.B., Sardar Patel College of Engineering (SPCE), Munshi Nagar, Andheri West, Mumbai, 400058, India; Potdar, P.R., Sardar Patel College of Engineering (SPCE), Munshi Nagar, Andheri West, Mumbai, 400058, India","In a competitive business environment, asset propelled industries (APIs) are prefer purchasing over manufacturing to achieve strategic business objectives. Therefore, project procurement management (PPM) processes are associated with many risks. Hence, APIs are looking for solutions to reduce the probability of risk involved in PPM process. A systematic literature survey (LS) has identified a total 55 risks involved in the PPM process, out of which 14 critical risks were identified by using fuzzy logic with TOPSIS method and results were compared with PROMETHEE method. Blockchain-IoT integrated architecture has been developed to manage the critical risks involved in PPM process and nine strategies are suggested based on architecture. Blockchain-IoT integrated architecture can change PPM process with respect to data (real-time acquisition, storage and accessibility), speed of response and quality of communications, data driven decision-making, and transparent, auditable and trustworthy transactions. Integrated architecture improves the flow of knowledge throughout organisation and reduces person dependent activities. Copyright © 2021 Inderscience Enterprises Ltd.","Blockchain technology; Internet of things; IoT; PRM; Project risk management; PROMETHEE; TOPSIS",,,,,,,"Authors are grateful to all the experts for their support to identify the potential problem along with providing valuable inputs for developing the solutions. The authors are also thankful to the anonymous referees for their valuable and constructive comments which helped to improve the structure and quality of this paper. The authors sincerely thank all the authors who have made sufficient literature available in this domain that helped the authors and kept the authors in the right direction. The product of this research paper would not be possible without all of them.",,,,,,,,,,"Ahl, A., Yarime, M., Tanaka, K., Sagawa, D., Review of blockchain-based distributed energy: implications for institutional development (2019) Renew. Sustain. 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Internet Things IEEE Green Comput. Commun. IEEE Cyber, Phys. Soc. Comput. IEEE Smart Data, pp. 433-436; Shah, P.A.A., Habib, M., Sajjad, T., Umar, M., Babar, M., Applications and challenges faced by internet of things - a survey (2017) ICST Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, LNICST, 185, pp. 182-188; Sharma, S.K., Sengupta, A., Panja, S.C., Mapping corruption risks in public procurement: uncovering improvement opportunities and strengthening controls (2019) Public Perform. Manag. Rev, 42 (4), pp. 947-975. , https://doi.org/10.1080/15309576.2018.1535984, [online]; Shi, Y., Wu, F., Chu, L.K., Sculli, D., Xu, Y.H., A portfolio approach to managing procurement risk using multi-stage stochastic programming (2011) J. Oper. Res. 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Supply Manag, 39 (3), pp. 15-27","Potdar, P.R.; Sardar Patel College of Engineering (SPCE), Munshi Nagar, Andheri West, India; email: prathameshpotdar122@gmail.com",,,"Inderscience Publishers",,,,,17538432,,,,"English","Int. J. Procure. Manage.",Article,"Final","",Scopus,2-s2.0-85114307649
"Mogal Y.K., Mahajan S.K., Rane S.B., Agrawal R.","57230076300;57547310500;56149402100;57214841044;","Multiresponse Regression Modeling in Face Milling of Al6061 Using Design of Experiments",2021,"Lecture Notes in Mechanical Engineering",,,,"103","114",,,"10.1007/978-981-16-3033-0_10","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113373878&doi=10.1007%2f978-981-16-3033-0_10&partnerID=40&md5=64358f2933ab8062b9a6e8e588d4c448","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Malaviya National Institute of Technology Jaipur, Jaipur, Rajasthan, India","Mogal, Y.K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Mahajan, S.K., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Agrawal, R., Department of Mechanical Engineering, Malaviya National Institute of Technology Jaipur, Jaipur, Rajasthan, India","Nowadays, aluminum and its alloys are used for different modern applications due to its improved mechanical properties like low density, good structural rigidity, etc. The purpose of this paper is to identify the optimal setting of machining parameters speed, feed rate and depth of cut on surface roughness (Ra), and material removal rate (MRR) in the face milling process. An L27 orthogonal array is used for face milling of Al 6061 T6 alloy. The surface roughness (Ra) and MRR are estimated and analyzed using the Taguchi design of experiment method for the identification of optimum controllable parameter combinations. ANOVA is utilized to explore the most significant parameter affecting the surface roughness and MRR. At long last, a multiresponse regression investigation is performed to study the consolidated impact of the two responses. Taguchi S/N ratio examination and ANOVA investigation conclude that feed rate is a significant parameter for surface finish followed by the speed and depth of cut, respectively. Again feed rate and depth of cut have an equivalent impact on the S/N ratios of material removal rate and speed does not affect the material removal rate. This research will add a new dimension to select the optimum values of parameters for surface finish and material removal rate which reduces the manufacturing time, manufacturing cost as well as increases the quality and productivity of the components. © 2021, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.","Al6061; Material removal rate; Milling; Regression analysis; Surface roughness; Taguchi","Aluminum alloys; Analysis of variance (ANOVA); Density (specific gravity); Design of experiments; Finishing; Industrial research; Milling (machining); Regression analysis; Rigidity; Depth of cut; Face-milling; Feedrate; Material removal rate; Milling; Multiresponse; S/N ratio; Surface finishes; Surface roughness (Ra); Taguchi; Surface roughness",,,,,,"The authors express sincere gratitude to all researchers who made literature available in this domain. The authors are earnestly appreciative of the reviewers for their important recommendations which assisted with improving the nature of this paper. At long last, the authors also grateful to those things, which are directly or indirectly, helped us for completing this research paper.",,,,,,,,,,"Deepak, D., Rajendra, B., Optimization of machining parameters for turning of Al6061 using robust design principle to minimize the surface roughness (2016) Procedia Technology, 24, pp. 372-378; Sanders, R.E., Technology innovation in aluminum products (2001) JOM, 53, pp. 21-25; Johnson, J., Bibin, K.T., Anoop, S., Optimization of wire electric discharge machining parameters on Al 6061 (2018) IJESRT, 7, pp. 447-455; Gaitonde, V.N., Karnik, S.R., Davim, J.P., Multi performance optimization in turning of free-machining steel using Taguchi method and utility concept (2009) Journal of Materials Engineering and Performance, 18, pp. 231-236; Jamwal, A., Agrawal, R., Sharma, M., Kumar, V., Review on multi-criteria decision analysis in sustainable manufacturing decision making (2021) International Journal of Sustainable Engineering, pp. 1-24; Luo, M., Liu, G., Chen, M., Mechanism of burr formation in slot milling Al-alloy (2008) International Journal of Materials and Product Technology, 31, pp. 63-71; Niranjan, D.B., Shivashankar, G.S., Sreenivasrao, K.V., Praveen, R., Optimization of cutting process parameters on AL6061 using ANOVA and Taguchi method (2017) Materials Today: Proceedings, 4, pp. 10845-10849; Rajendra, B., Deepak, D., Optimization of process parameters for increasing material removal rate for turning Al6061 using S/N ratio (2016) Procedia Technology, 24, pp. 399-405; Saichaitanya Kishore, D., Prahladarao, K., Ramesh, A., Optimization of machining parameters for improving cutting force and surface roughness in turning of Al6061-TiC in-situ metal matrix composites by using Taguchi method (2015) Materials Today: Proceedings, 2, pp. 3075-3083; Ugrasen, G., Bharath, G., Kishor Kumar, G., Sagar, R., Shivu, P.R., Keshavamurthy, R., Optimization of process parameters for Al6061-Al7075 alloys in friction stir welding using Taguchi technique (2018) Materials Today: Proceedings, 5, pp. 3027-3035; Chandra Kandpal, B., Kumar, J., Singh, H., Optimization and characterization of EDM of AA 6061/10%Al2O3 AMMC using Taguchi’s approach and utility concept (2017) Production & Manufacturing Research, 5, pp. 351-370; Misbah, N., Shoaib, S., Essam, S., Sikiru, O.I., Qazi, S.K., Experimental characterization of electrical discharge machining of Aluminum 6061 T6 alloy using different dielectrics (2019) Arabian Journal for Science and Engineering; Adalarasan, R., Santhanakumar, M., Thileepan, S., Selection of optimal machining parameters in pulsed CO2 laser cutting of Al6061/Al2O3 composite using Taguchi-based response surface methodology (TRSM) (2016) International Journal of Advanced Manufacturing Technology; Shaik, J.H., Srinivas, J., Optimal selection of operating parameters in end milling of Al-6061 work materials using multi-objective approach (2017) Mechanics of Advanced Materials and Modern Processes, 3, pp. 1-11; Kumar, D., Chandna, P., Pal, M., Efficient optimization of process parameters in 2.5 D end milling using neural network and genetic algorithm (2017) International Journal of System Assurance Engineering and Management; Nghiep, T.N., Sarhan, A.A.D., Aoyama, H., (2018) Analysis of Tool Deflection Errors in Precision CNC End Milling of Aerospace Aluminum 6061-T6 Alloy, , Measurement; Tomadi, S.H., Ghani, J.A., Cheharon, C.H., Mas, A.H., Daud, R., Effect of cutting parameters on surface roughness in end milling of AlSi/AlN metal matrix composite (2017) Procedia Engineering, 184, pp. 58-69; Kondayya, D., Gopala Krishna, A., An integrated evolutionary approach for modelling and optimisation of CNC end milling process (2012) International Journal of Computer Integrated Manufacturing, 25, pp. 1069-1084; Niknam, S.A., Songmene, V., Simultaneous optimization of burrs size and surface finish when milling 6061–T6 Aluminium alloy (2013) International Journal of Precision Engineering and Manufacturing, 14, pp. 1311-1320; Palanisamy, P., Rajendran, I., Shanmugasundaram, S., Optimization of machining parameters using a genetic algorithm and experimental validation for end-milling operations (2007) International Journal of Advanced Manufacturing Technology, 32, pp. 644-655; Shinge, A.R., Dabade, U.A., The effect of process parameters on material removal rate and dimensional variation of channel width in micro-milling of Aluminium alloy 6063 T6 (2018) Procedia Manufacturing, 20, pp. 168-173; Hwan, L.S., Sang-Heon, L., Optimization of cutting parameters for burr minimization in face-milling operations (2003) International Journal of Production Research, 41, pp. 497-511; Premnath, A.A., Studies on machining parameters while milling particle reinforced hybrid (Al6061/Al2O3 /Gr) MMC. Particulate Science and Technology (2015) An International Journal, , https://doi.org/10.1080/02726351.2015.1025457; Baharudin, B.T.H.T., Ibrahim, M.R., Ismail, N., Leman, Z., Ariffin, M.K.A., Majid, D.L., Experimental investigation of HSS face milling to AL6061 using Taguchi method (2012) Procedia Engineering, 50, pp. 933-941; Sukumar, M.S., Venkataramaiah, P., Nagarjuna, A., Optimization and prediction of parameters in face milling of Al-6061 using Taguchi and ANN approach (2014) Procedia Engineering, 97, pp. 365-371; Nguyen, N.-T., A study on influence of milling types and cutting conditions on surface roughness in milling of Aluminum alloy Al6061 T6 (2020) Universal Journal of Mechanical Engineering, 8 (4), pp. 183-190","Mogal, Y.K.; Department of Mechanical Engineering, India; email: ymogal1988@gmail.com","Agrawal R.Jain J.K.Yadav V.S.Manupati V.K.Varela L.",,"Springer Science and Business Media Deutschland GmbH","International Conference on Evolution in Manufacturing, ICEM 2020","10 December 2020 through 12 December 2020",,263049,21954356,9789811630323,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85113373878
"Patel N., Nagrale M.","57225808895;57224356917;","Experiment details and numerical study of copper under electromagnetic forming process",2021,"Materials Today: Proceedings","45",,,"4862","4868",,,"10.1016/j.matpr.2021.01.343","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85107428609&doi=10.1016%2fj.matpr.2021.01.343&partnerID=40&md5=f9e11156b49d86961dfaa26736a04995","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Patel, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Nagrale, M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Electromagnetic forming is a high-speed forming method, characterized by use of non-contact electromagnetic forces to achieve forming, welding, job shaping and sheet metal cutting. It is a high-strain rate forming process, with improved formability, significant ductility, reduced spring-back effect, less wrinkling and relatively high throughput. From the modelling and simulation perspective, the electromagnetic forming process is realized as a Multiphysics problem, involving electric and magnetic fields, coupled with structural field. In this paper, the quantization of material deformation of copper experimented under the electromagnetic forming is accounted by metallographic study of microstructure for the deformed copper alloy. Optical microscopy is employed to study the deformation of copper. © 2021 Elsevier Ltd. All rights reserved.","Annealing; Deformation; Electromagnetic forming; Optical microscopy","Copper alloys; Metal cutting; Optical data storage; Optical microscopy; Sheet metal; Strain rate; Annealing; Electromagnetic forces; Electromagnetic forming; High speed forming; High-strain-rate; High-throughput; Model and simulation; Multiphysics problems; Non-contact; Spring-back; Deformation",,,,,,,,,,,,,,,,"Li, N., Yu, H., Xu, Z., Fan, Z., Liu, L., Electromagnetic forming facilitates the transition of deformation mechanism in 5052 aluminum alloy (2016) J. Mater. Sci. Eng. A, 673, pp. 222-232; Wu, Y., Huang, S., Chen, Q., Feng, B.O., Shu, D., Huang, Z., Microstructure and mechanical properties of copper billets fabricated by the repetitive extrusion and free forging process (2019) J. Mater. Eng. Perform., 28 (4), pp. 2063-2070; Gayakwad, D., Dargar, M.K., Sharma, P.K., Purohit, R., Rana, R.S., A review on electromagnetic forming process (2014) Procedia, Mater. Sci., 6, pp. 520-527; Psyk, V., Risch, D., Kinsey, B.L., Tekkaya, A.E., Kleiner, M., Electromagnetic forming - A review (2011) J. Mater. Process. Technol., 211 (5), pp. 787-829; Jiang, H., Li, N., Xu, Z., Yan, C., Wang, D., Han, X., Non-twinning deformation mechanism of pure copper under high speed electromagnetic forming (2015) J. Mater. Des., 81, pp. 54-58; Asati, R., Pradhan, S.K., Two-stage Finite Element simulation to predict deformation and stresses in Electromagnetic Formed component (2017) Procedia Manuf, 12, pp. 42-58; Jiang, H.W., Li, N., Xiong, Y.Y., Li, Z.G., Liu, L., Deformation behavior and microstructure evolution of pure Cu subjected to electromagnetic bulging (2014) J. Mater. Sci. Eng. A, 593, pp. 127-135; Tiwari, N., Nagrale, M., Chapter 36 analysis of aluminum AA6061 in electromagnetic forming (2020) Springer Science and Business Media LLC, pp. 497-509; Jiang, H.-W., Li, N., Xu, Z., Fan, Z.-S., Yu, H.-P., Liu, L., Microstructure, texture and mechanical properties of 5A02 aluminum alloy tubes under electromagnetic bulging (2015) J. Mater. Des., 82, pp. 106-113; Deng, H., Mao, Y., Li, G., Cui, J., A study of electromagnetic free forming in AA5052 using digital image correlation method and FE analysis (2019) J. Manuf. Process., 37, pp. 595-605","Nagrale, M.; Department of Mechanical Engineering, India; email: mjanbandhu@spce.ac.in","Sehgal S.Goyal P.",,"Elsevier Ltd","2nd International Conference on Aspects of Materials Science and Engineering, ICAMSE 2021","5 March 2021 through 6 March 2021",,169287,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85107428609
"Abdul Mateen S., Bhole K.S.","57216759724;55485785300;","Investigation of Wind Loads on Utility-Scale Seasonal Tilt Solar PV Power Plants",2021,"Lecture Notes in Mechanical Engineering",,,,"251","262",,,"10.1007/978-981-33-4466-2_22","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103264435&doi=10.1007%2f978-981-33-4466-2_22&partnerID=40&md5=660f584e202aca2fecff0642482d0e23","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Abdul Mateen, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","The solar photovoltaic (PV) sector is experiencing excellent growth in the world. This paper presents the static structural analysis of seasonal tilt photovoltaic power plant. However, dynamic analysis on the system is not yet presented exclusively. We have done computational fluid dynamic (flow simulation) on seasonal tilt solar PV power plant on utility scale. The load on the solar panel due to the different velocity of winds observed in India is applied. Various directions of the application of wind velocity are also considered in the analysis. From flow simulation, we have obtained the maximum wind loads acting on the module, and for that maximum wind load, we have done a static structural analysis. From the static force analysis, structural stability is analyzed. This study will be helpful in the analysis of similar kind of structures under a wide range of forces generated from different wind velocities. © 2021, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.","Flow simulation; Seasonal tilt; Wind loads","Aerodynamic loads; Computational fluid dynamics; Solar concentrators; Solar panels; Stability; Structural analysis; Dynamic flows; Dynamics analysis; Photovoltaic power plant; Seasonal tilt; Solar panels; Solar photovoltaic power plants; Solar photovoltaics; Static structural analysis; Wind load; Wind velocities; Solar power generation",,,,,,,,,,,,,,,,"Cain, J.H., Banks, D., (2015) Wind Loads on Utility Scale Solar PV Power Plants, , Paper presented at international conference on wind engineering SEAOC convention proceedings; Kolambekar, R.B., Bhole, K., (2015) Development of Prototype for Waste Heat Recovery from Thermoelectric System at Godrej Vikhroli Plant, , Paper presented at international conference on nascent technologies in the engineering field (ICNTE; Khadke, R., Bhole, K., Characterization of radial curved fin heat sink under natural and forced convection (2017) Paper Presented at International Conference on Advances in Materials and Manufacturing Applications (Iconamma-20, pp. 17-19. , Bengaluru, India; Uematsu, Y., Wind force coefficients for designing free-standing canopy roofs (2007) J Wind Eng Ind Aerodyn, 95, pp. 1486-1510; Chou, C.-C., Wind loads on a solar panel at high tilt angles (2019) Appl Sci, 9 (8), p. 1594; Kao-Chun, S., Numerical simulation of wind loads on solar panels (2018) Mod Phys Lett B, 32 (12); Strobel, K., Banks, D., Effects of vortex shedding in arrays of long inclined flat plate sand ramifications for ground-mounted photovoltaic arrays (2014) J Windeng Ind Aerodyn, 133, pp. 146-149; India Standard Code of Practice for Design of Loads (Other than Earthquakes) for Buildings and Structures, Part 3 (Wind Loads). Bureau of Indian Standards, New Delhi; Genc Celik, G., Celik, O., A case study of structural failure of mounting systems for solar panels from south-eastern Turkey: An investigation of design parameters under extreme weather events (2019) Int J Eng Sci Invent, 8 (1), pp. 16-23; Chung, C., Wind loads on a PV (2019) Array Appl Sci, 9 (12), p. 2466; Camellia, A., Milchis, T., Wind loading on solar panels (2019) Műszaki Tudományos Közlemények, 10, pp. 73-78; Reina, G.P., de Stefano, G., Computational evaluation of wind loads on sun-tracking ground-mounted photovoltaic panel arrays (2017) J Wind Eng Ind Aerodyn, 170, pp. 283-293; Abiola-Ogedengbe, A., Hangan, H., Siddiqui, K., Experimental investigation of wind effects on a standalone photovoltaic (PV) module (2015) Renew Energ, pp. 657-665","Bhole, K.S.; Department of Mechanical Engineering, India; email: kiran_bhole@spce.ac.in","Kumar S.Rajurkar K.P.",,"Springer Science and Business Media Deutschland GmbH","International Conference on Recent Advances in Manufacturing, RAM 2020","3 July 2020 through 5 July 2020",,252669,21954356,9789813344655,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85103264435
"Gavade S., Kulkarni S., Mohite S., Bhole K.","57215329997;57222576830;57222575538;55485785300;","Development of Integrated Versatile Paper, Plastic and Aluminum Waste Sorting and Disposal System",2021,"Lecture Notes in Mechanical Engineering",,,,"63","74",,2,"10.1007/978-981-33-4466-2_7","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103242249&doi=10.1007%2f978-981-33-4466-2_7&partnerID=40&md5=0a23aa7bf9e0fd2204321dbabf3a6025","Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India","Gavade, S., Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Kulkarni, S., Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Mohite, S., Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India","Today in India about 40% of waste remains uncollected and hence is not recycled. This paper presents a novel solution providing a low-cost infrastructure in the areas where the traditional recycling chain of waste pickers—Kabadiwallah—Traders—Recyclers is broken because of absence of waste pickers. Such areas were identified for this work—big housing societies, eateries, food courts and canteens in various organization. To segregate all types of recyclable wastes (predominantly plastic, aluminum and paper) generated in these areas and further processing it to reduce its volume and storing it separately to send it to respective recycling plants is the basic functioning of the proposed solution. The increase in flow and speed of recyclable waste in the recycle chain are typical outcomes of the work. © 2021, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.","Aluminum waste; Plastic waste; Recycling; Supply chain of waste; Waste disposal; Waste management","Aluminum; Costs; Plastic recycling; Waste disposal; Aluminum waste; Disposal systems; Paper wastes; Plastics waste; Recyclable wastes; Recycling; Sorting system; Supply chain of waste; Waste pickers; Waste sorting; Supply chains",,,,,,,,,,,,,,,,"Souro, D.J., (2000) Urban Residential Solid Waste Management in India, , https://doi.org/10.1177/1087724X0044006, Sage Publications, Inc., Public Works & Policy; Muhammad, K.B., Mochamad, S., Arip, N.H., Zahrul, M., Fumitake, T., Technology for public outreach of fuel oil production from municipal plastic wastes (2017) Energy Procedia, 142. , https://doi.org/10.1016/j.egypro.2017.12.424, ScienceDirect; Akash, B.P., Christina, D.K.S., (2019); Sudhakara, R., Thunga, R., Design and development of mini plastic shredder machine (2018) In: ICAAMM IOP Publishing, , https://doi.org/10.1088/1757-899X/455/1/012119, IOP Conf Ser: Mater Sci Eng; Atadious, D., Oyejide, O.J., Design and construction of a plastic shredder machine for recycling and management of plastic wastes (2018) Int J Sci Eng Res, 9 (5), pp. 1379-1385; Irfana, K.A., Muhammad, M., Hassan, B., Application of capacitance proximity sensor for the identification of paper and plastic from recycling materials (2016) Res J Appl Sci Eng Technol, 12 (12), pp. 1221-1228; Zhaokun, W., Binbin, P., Yanjun, H., Guanqun, S., Classification for plastic bottles recycling based on image recognition (2019) Waste Manage, 88, pp. 170-181; Chunfei, W., Paul, T.W., Pyrolysis–gasification of plastics, mixed plastics and real-world plastic waste with and without Ni–Mg–Al catalyst (2010) Fuel, 89, pp. 3022-3032; Aurora, L.D., José, I.R., Isabel, P., Sol, L.A., Maximina, R., Zero-waste process for the transformation of a hazardous aluminum waste into a raw material to obtain zeolites (2020) J Cleaner Prod, 255. , https://doi.org/10.1016/j.jclepro.2020.120178; Fávaro, S.L., Freitas, A.R., Ganzerli, T.A., Pereira, A.G.B., Cardozo, A.L., Baron, O., Muniz, E.C., Radovanovic, E., PET and aluminium recycling from multilayer food packaging using supercritical ethanol (2013) J Supercrit Fluids, 75, pp. 138-143; Green, J.A.S., (2007) Emerging Trends in Aluminum Recycling. Aluminium Recycling and Processing for Energy Conservation and Sustainability. ASM International, pp. 147-154. , Materials Park, Ohio, pp; Oluwatobi, I.O., Damilola, A.O., Olawale, O.O., Development of shredding and washing machine for polyethylene terephthalate (PET) bottles pelletizer (2019) Int J Eng Sci Appl, 3 (2), pp. 102-109","Gavade, S.; Sardar Patel College of Engineering, Andheri (West), India; email: shardagavade@gmail.com","Kumar S.Rajurkar K.P.",,"Springer Science and Business Media Deutschland GmbH","International Conference on Recent Advances in Manufacturing, RAM 2020","3 July 2020 through 5 July 2020",,252669,21954356,9789813344655,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85103242249
"Dandage R.V., Rane S.B., Mantha S.S.","57194626842;56149402100;13005618000;","Modelling human resource dimension of international project risk management",2021,"Journal of Global Operations and Strategic Sourcing","14","2",,"261","290",,5,"10.1108/JGOSS-11-2019-0065","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099409813&doi=10.1108%2fJGOSS-11-2019-0065&partnerID=40&md5=5e63ddbf68cbb61c3b663fe4598cca70","Department of Automobile Engineering, Rajendra Mane College of Engineering and Technology, Ratnagiri, India and Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Technical Higher Education, AICTE, New Delhi, India","Dandage, R.V., Department of Automobile Engineering, Rajendra Mane College of Engineering and Technology, Ratnagiri, India and Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Mantha, S.S., Technical Higher Education, AICTE, New Delhi, India","Purpose: Project risk management (PRM) and human resource management (HRM) are the two critical success factors (CSFs) for international project management. This paper aims to correlate these two CSFs, identify the human resource (HR) barriers, develop a hybrid model for risk management and develop strategies to overcome the HR barriers to effective risk management in international projects. Design/methodology/approach: In total, 20 key HR barriers have been identified through a literature survey and verified by project professionals. These HR barriers are ranked according to their ability to trigger other barriers by analysing their interactions using the decision-making trial and evaluation laboratory (DEMATEL) method. Based on Ulrich’s revised model for HR functions, a hybrid framework for international PRM has been proposed. Findings: DEMATEL analysis categorized nine barriers as cause barriers and 11 as affected barriers. The “PROJECTS” model proposed for HR strategy development suggests eight strategies to overcome these nine cause barriers. The hybrid PRM framework developed includes the effect of the HR dimension. Research limitations/implications: This paper presents the generalized prioritization of HR barriers to international PRM. For a specific international project, the HR barriers and their prioritization may change slightly. The hybrid framework for PRM and the strategy development model suggested are yet to be validated. Originality/value: Correlating two CSFs in international project management, i.e. HRM and PRM and ranking the HR barriers using the DEMATEL method is the uniqueness of this research paper. The hybrid framework developed for PRM based on HR functions in Ulrich’s revised model and the proposed new HR strategy development model “PROJECTS” are unique contributions of this paper. © 2020, Emerald Publishing Limited.","Both; DEMATEL technique; HR barriers; Human resource management; Hybrid PRM framework; International projects; Project risk management; PROJECTS-the HR strategy development model; Risk management; Ulrich’s revised HR roles model; Ulrich’s revised model",,,,,,,"The authors wish to thank all the respondents associated with the international project who helped in verifying the HR barriers, providing the appropriate rating for the interdependence of HR barriers which formed the basis for DEMATEL analysis and also developing the HR strategy development model. The authors also thank all the researchers who published literature on PRM, HRM and DEMATEL method created a solid foundation for this research work.",,,,,,,,,,"Agarwal, R.N., Mehta, A., Impact of performance appraisal and working environment on the job satisfaction and attrition problem in the Indian IT industry (2014) Paradigm, 18 (1), pp. 73-85; Ajmal, M., Malik, M., Saber, H., Factor analyzing project management practices in the United Arab Emirates (2017) International Journal of Managing Projects in Business, 10 (4), pp. 749-769; Alam, M., Gale, A., Brown, M., Khan, A.I., The importance of human skills in project management professional development (2010) International Journal of Managing Projects in Business, 3 (3), pp. 495-516; Anthony, B., Jr., Pa, N.C., Nor, R.N.H., Josoh, Y.Y., A risk assessment model for collaborative support in software management (2015) 9th Malaysian Software Engineering Conference (MySEC), pp. 217-223; Anthony, B., Jr., Pa, N.C., Mitigating operational, technical and strategic risk in ICT through knowledge codification technique (2016) Jurnal Teknologi, 72 (8-2), pp. 179-192; (2017) Global Risk Management Survey, pp. 1-20. , AON, London; Aven, T., Risk assessment and risk management: a review of recent advances on their foundation (2016) European Journal of Operational Research, 253 (1), pp. 1-13; Awasthi, A., Grzybowska, K., Barriers of the supply chain integration process, logistics operations, supply chain management and sustainability (2014) EcoProduction; Belout, A., Gauvreau, C., Factors influence project success: the impact of human resource management (2004) International Journal of Project Management, 22 (1), pp. 1-11; Bhoola, V., Hiremath, S.B., Mallik, D., An assessment of risk response strategies practiced in software projects (2014) Australasian Journal of Information Systems, 18 (3), pp. 161-191; Bhoola, V., Giangreco, A., HR activities and practices for project success: a multimethod approach from Indian IT firms (2018) Australasian Journal of Information Systems, 22, pp. 1-29; Blaskovics, B., The impact of project manager on project success:the case of ICT sector (2016) Society and Economy in Central and Eastern Europe, 38 (2), pp. 261-281; Burkholder, N.C., Golas, S., Shapiro, J.P., (2007) Ultimate Performance:Measuring Human Resources at Work, , John Wiley and Sons; Carr, S.C., McWha, I., MacLachlan, M., Furnham, A., International–local remuneration differences across six countries: do they undermine poverty reduction work? 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Sivakumar, K., Jeyapaul, R., Vimal, K.E.K., Ravi, P., A DEMATEL apparoach for evaluating barriers for sustainable end-of-life practices (2018) Journal of Manufacturing Technology Management, 29 (6), pp. 1065-1091; Sohrabinejad, A., Rahimi, M., Risk determination, prioritization, and classifying in construction project case study: Gharb Tehran commercial-administrative complex (2015) Journal of Construction Engineering, 2015; Suo, W.L., Feng, B., Fan, Z.P., Extension of the DEMATEL method in an uncertain linguistic environment (2012) Soft Computing, 16 (3), pp. 471-483; Wang, W.C., Lin, Y.H., Lin, C.L., Chung, C.H., Lee, M.T., DEMATEL-based model to improve the performance in a matrix organization (2012) Expert Systems with Applications, 39 (5), pp. 4978-4986","Dandage, R.V.; Department of Automobile Engineering, India; email: dandagerahul@gmail.com",,,"Emerald Publishing",,,,,23985364,,,,"English","J. Global Operations Strategic Sourc.",Article,"Final","",Scopus,2-s2.0-85099409813
"Chaudhari C.P., Bhole K., Gholave J.","57214990639;55485785300;37072312800;","Review on Banana Fibre-Reinforced Composites",2021,"Lecture Notes in Mechanical Engineering",,,,"359","379",,1,"10.1007/978-981-15-9117-4_27","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85097848096&doi=10.1007%2f978-981-15-9117-4_27&partnerID=40&md5=e4a453f9e3cefb2f74e2b259c398dbac","Sardar Patel College of Engineering, Andheri West, Mumbai, 400058, India","Chaudhari, C.P., Sardar Patel College of Engineering, Andheri West, Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Andheri West, Mumbai, 400058, India; Gholave, J., Sardar Patel College of Engineering, Andheri West, Mumbai, 400058, India","Past few years have seen predominant usage of composite materials in numerous applications. It is not surprising that the natural fibre-reinforced composite (NFRC) is appealing the scholars all around the globe due to its benefits compared to glass fibre composites which consist of low density, eco-friendly, cost savings and their potential to be used in various applications. The purpose of this review paper is to give a comprehensive review of the banana fibre-reinforced composite (BFRC) and NFRCs along with its numerous applications. In addition, it also discusses the aspects that affects the properties of BFRC such as the fibre configuration, fibre length, fibre orientation, surface treatments applied to fibres, temperature and moisture content. This review is expected to help the new aspirant’s researchers working in the field of NFRCs to understand various aspects of processing of BFRC and its mechanical properties. © 2021, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.","Banana fibre; Composite materials; Matrix; Mechanical properties; Natural fibre; Surface treatment",,,,,,,,,,,,,,,,,"Bhagwan, D.A., Lawrence, J.B., Chandrashekhara, K., (2017) Analysis and Performance of Fiber Composites, , Wiley India Pvt Ltd, New Delhi; Krishnamoorthy, K., Sasikumar, T., Analysis and characterization of tensile property of the composite specimen using ANSYS (2016) Int J Appl Eng Res, 11 (1), pp. 380-384; Balasubramanian, K., Rajeswari, N., Vishvak, R., Influence of sequential positioning of fibre mats in enhancing the properties of natural fibre mat hybrid composite (2020) Mater Today Proc, , https://doi.org/10.1016/j.matpr.2020.01.097; Rao, P.D., Rao, D.V., Naidu, A.L., Bahubalendruni, R., Mechanical properties of banana fiber reinforced composites and manufacturing techniques: A review (2017) Int J Res Dev Technol, 8 (5), pp. 39-46; Chaudhari, C.P., Bhole, K., A review on characteristics of natural fibre composite (2020) Paper Presented at 2Nd International Conference on Emerging Trends in Manufacturing, Engines and Modelling (ICEMEM 2), , SVKM NMIMS Shirpur, 23–24 December 2019; Rahul, K., Shetty, M.H., Karthik, M.N., Pavana, K.B., D’Souza, K.P., D’Souza, L., Processing and characterisation of banana fiber reinforced polymer nano composite (2017) Nanosci Nanotechnol, 7 (2), pp. 34-37; Elanchezhian, C., Ramnath, B.V., Ramakrishna, G., Rajendrakumar, M., Naveenkumar, V.M.K., Review on mechanical properties of natural fiber composites (2018) Paper Presented at International Conference on Processing of Materials, Minerals and Energy (PMME), , Ongole, Andhra Pradesh, 29–30 July 2016; James, M., Richard, E., Stuart, R.C., Benjamin, M.W., Kerry, K., Natural fibre composite energy absorption structures (2012) Compos Sci Technol, , https://doi.org/10.1016/j.compscitech.2011.11.004; Harish, S., Michael, D.P., Bensely, A., Mohan, D.L., Rajadurai, A., Mechanical property evaluation of natural fiber coir composite (2009) Mater Character, , https://doi.org/10.1016/j.matchar.2008.07.001; Manjusha, K., Kondareddy, B., Kumar, D.P., Effect of fiber length and weight on tensile response of natural fiber reinforced composite (2016) Int J Eng Res Technol, 5 (4), pp. 389-394; Walte, A.B., Bhole, K., Gholave, J., Mechanical characterization of coir fiber reinforced composite (2020) Paper Presented at 3Rd International Conference on Advances in Materials and Manufacturing Applications (Iconamma 3), , Amrita School of Engineering Bengaluru, 16–18 August 2018; Azwa, Z.N., Yousif, B.F., Manalo, A.C., Karunasena, W., A review on the degradability of polymeric composites based on natural fibres (2013) Mater Des, , https://doi.org/10.1016/j.matdes.2012.11.025; Hart, A.J., Effect of time at temperature for natural fibres (2017) Paper Presented at 3Rd International Conference on Natural Fibers (ICNF 3, , ), University of Minho Braga, 21–23 June 2017; Mohammed, L., Ansari, M.N.M., Pua, G., Jawaid, M., Islam, M.S., A review on natural fiber reinforced polymer (2015) Int J Polym Sci, , https://doi.org/10.1155/2015/243947; Pickering, K.L., Efendy, M.G.A., Le, T.M., A review of recent developments in natural fibre composites and their mechanical performance (2016) Composites Part A, p. 83. , https://dx.doi.org/10.1016/j.compositesa.2015.08.038; Balla, V.K., Kate, K.H., Satyavolu, J., Singh, P., Tadimeti, J.G.D., Additive manufacturing of natural fiber reinforced polymer composites processing and prospects (2019) Compos B., , https://doi.org/10.1016/j.compositesb.2019.106956; Kumaresan, M., Sathish, S., Karthi, N., Effect of fiber orientation on mechanical properties of sisal fiber reinforced epoxy composites (2015) J Appl Sci Eng, , https://doi.org/10.6180/jase.2015.18.3.09; Joshi, S.V., Drzal, L.T., Mohanty, A.K., Arora, S., Are natural fiber composites environmentally superior to glass fiber reinforced composites? 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Boopalan, M., Niranjanaa, M., Umapathy, M.J., Study on the mechanical properties and thermal properties of jute and banana fiber reinforced epoxy hybrid composites (2013) Compos B Eng, , https://doi.org/10.1016/j.compositesb.2013.02.033; Sanjay, M.R., Arpitha, G.R., Naik, L.L., Gopalakrisha, K., Yogesha, B., (2016) Applications of Natural Fibers and Its Composites: An Overview. Nat Resour, , https://doi.org/10.4236/nr.2016.73011; Kong, C., Lee, H., Park, H., Design and manufacturing of automobile hood using natural composite structure (2016) Compos B Eng, , https://doi.org/10.1016/j.compositesb.2015.12.033; Kenge, A., Kulkarni, N., Tate, N., Shaikh, H.K., Development and mechanical characterization of natural-artificial fiber hybrid composite (2020) Paper Presented at 3Rd Biennial International Conference on Nascent Technologies in Engineering (ICNTE 3), FC Rodrigues Institute of Technology Vashi, , 4–5 January 2019","Chaudhari, C.P.; Sardar Patel College of Engineering, Andheri West, India; email: chetanpc117@gmail.com","Dave H.K.Nedelcu D.",,"Springer Science and Business Media Deutschland GmbH","International Conference on Recent Advances in Manufacturing, RAM 2020","3 July 2020 through 5 July 2020",,252669,21954356,9789811591167,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85097848096
"Jondhale R., Halkarni S.S., Raykar N.R., Sridharan A., Prabhu S.V.","57215719345;57056406700;19934528100;26634476200;57200265166;","Influence of converging and diverging geometry on the pressure drop distribution in randomly packed beds",2021,"Particulate Science and Technology","39","3",,"344","361",,,"10.1080/02726351.2020.1733153","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081737769&doi=10.1080%2f02726351.2020.1733153&partnerID=40&md5=801da761de979c1b2bd094a4147699f0","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai, India; Department of Mechanical Engineering, SRM University-AP, Amaravati, India","Jondhale, R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Halkarni, S.S., Department of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai, India, Department of Mechanical Engineering, SRM University-AP, Amaravati, India; Raykar, N.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sridharan, A., Department of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai, India; Prabhu, S.V., Department of Mechanical Engineering, Indian Institute of Technology Bombay, Mumbai, India","Packed beds with diverging geometry find applications in packed bed reactors and converging geometry are used in the ethanol fermentation process. Experimental studies are conducted on pressure drop characteristics of converging and diverging packed beds with spheres of same diameter, spheres of different diameters, cylindrical inserts and mixing of spherical and cylindrical particles. The packing material spheres used is made up of stainless steel (SS304) having particle diameters 2.38 and 5 mm and cylinders of copper having 2 mm diameter and 4.6 mm height. The pressure drop is measured for a Reynolds number (based on particle diameter) range of 20–1200 with water as the working fluid. In this work, the effects of various converging and diverging angles of test section on the pressure drop in packed beds are studied. The pressure drop in packed beds with cylindrical inserts is higher as compared to pressure drop with packing of 2.38 and 5 mm spherical particles. The deviation in pressure drop for converging and diverging ducts at similar range of particle Reynolds number is less than 15% for majority of the cases. The pressure drop behavior for mixed packing of spheres and cylinders in converging and diverging channels are also explored in this work. The feasibility of using cylindrical packed bed correlation for very small differential elements of converging and diverging channels is examined in this study. The method used to calculate the pressure drop by using straight channel correlation is found to be applicable for both the converging and diverging channel packed beds. © 2020 Taylor & Francis Group, LLC.","converging channel and diverging channel; cylindrical and spherical particles; packed bed; pressure drop; Void fraction","Cylinders (shapes); Drops; Particle size; Pressure drop; Reynolds number; Spheres; Two phase flow; Void fraction; Converging channel; Cylindrical particles; Differential elements; Ethanol fermentation process; Particle Reynolds number; Pressure drop characteristic; Randomly packed beds; Spherical particle; Packed beds; stainless steel; Article; comparative study; geometry; pressure gradient; priority journal; uncertainty",,"stainless steel, 12597-68-1",,,"Indian Institute of Technology Bombay, IITB","We would like to thank IIT Bombay for funding the experiments. We would like to thank Mr. Rahul Shirsat for his help in building the experimental setup and manufacturing of test sections.",,,,,,,,,,"Allen, K.G.T.W., von Backstromkroger, D.G., Packed bed pressure drop dependence on particle shape, size distribution, packing arrangements and roughness (2013) Powder Technology, 246, pp. 590-600; Baskakovgelperin, A.P.L.G., (1965) Ingh Fig Zh, 2, p. 217; Biswal, K.C.T., Bhowmikroy, G.K., Prediction of pressure drop for a conical fixed bed of spherical particles in gas-solid systems (1984) The Chemical Engineering Journal, 29 (1), pp. 47-50; Eisfeldschnitzlein, B.K., The influence of confining walls on the pressure drop in packed beds (2001) Chemical Engineering Science, 56 (14), pp. 4321-4329; Ergun, S., Orning, A.A., Fluid flow through randomly packed columns and fluidized beds (1949) Industrial & Engineering Chemistry, 41 (6), pp. 1179-1184; Gelperin, N.I.V.G., Ainshtesin, E.N., Gelperinl’Vova, S.D., (1960) Khim I Technol Topli Mesel, 5, p. 51; Halkarni, S.S.A., Sridharanprabhu, S.V., Influence of inserts on the pressure drop distribution in randomly packed beds with uniform sized spheres in the endshield model of AHWR (2016) Experimental Thermal and Fluid Science, 74, pp. 181-194; Hamamci, H., Ryu, D.D.Y., Performance of tapered column packed-bed bioreactor for ethanol production (1987) Biotechnology and Bioengineering, 29 (8), pp. 994-1002; Koloni, T., Farkas, E.J., Fixed bed pressure drop and liquid fluidization in tapered or conical vessels (1973) The Canadian Journal of Chemical Engineering, 51, p. 499; Moffat, R.J., Using uncertainty analysis in the planning of an experiment (1985) Journal of Fluids Engineering, 107 (2), pp. 173-178; Montillet, A., Flow through a finite packed bed of spheres: A note on the limit of applicability of the Forchheimer-type equation (2004) Journal of Fluids Engineering, 126 (1), pp. 139-143; Montillet, A.E., Akkaricomiti, J., About a correlating equation for predicting pressure drops through packed beds of spheres in a large range of Reynolds number (2007) Chemical Engineering and Processing: Process Intensification, 46 (4), pp. 329-333; Murthy, J.S.N.A., Suryanarayanaroy, G.K., Pressure drop in conical packed beds (1986) Journal of Institution of Engineers (India), 66, pp. 50-52; Murthy, J.S.N.A., Suryanarayana, P., Rathsarma, K.J.R., Pressure drop in conical fixed beds (1981) Indian Chemical Engineering, 23 (1), pp. 44-47; Rose, H.E., An investigation into the laws of flow of fluids through beds of granular materials (1945) Proceedings of the Institution of Mechanical Engineers, 153 (1), pp. 141-148","Halkarni, S.S.; Department of Mechanical Engineering, Mangalagiri, India",,,"Bellwether Publishing, Ltd.",,,,,02726351,,PTCHD,,"English","Part. Sci. Technol.",Article,"Final","",Scopus,2-s2.0-85081737769
"Mangrulkar A., Rane S., Sunnapwar V.","57219698086;56149402100;6504099005;","Image-based bio-cad modeling: Overview, scope, and challenges",2020,"Journal of Physics: Conference Series","1706","1","012189","","",,3,"10.1088/1742-6596/1706/1/012189","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85098521047&doi=10.1088%2f1742-6596%2f1706%2f1%2f012189&partnerID=40&md5=8fb6a9e06f9ad3399a6af33fe109edee","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (w) Mumbai, India","Mangrulkar, A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (w) Mumbai, India; Rane, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (w) Mumbai, India; Sunnapwar, V., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri (w) Mumbai, India","CAD used to facilitate engineering design, modeling, simulation, analysis, and manufacturing. Recent advancement in computer graphics, medical imaging, and Image processing created new ways for CAD in the design, modeling, and development of many novels and essential biomedical and non-biomedical applications. The Biomedical use to develop implant, scaffold, prostheses, surgical guide, and other medical devices. The non-medical use in forensic, anthropology, passenger safety product design, and impact analysis. This review article gives an overview of various recent approaches for the development of virtual Bio-CAD models from high resolution medical images. It shows how to choose the appropriate path as per the application's requirement in terms of its complexity and capturing features. Key publications from the reputed peer-reviewed journals and books have been reviewed and presented a different approach to develop Bio-CAD models from non-invasive medical imaging data. Different methods used to develop the interfaces are biomedical software, STL interface, and reverse engineering discussed from various research study have been explored. Recent advances in state-of-art technology such as CAD, medical imaging, and image processing, and reverse engineering techniques made it possible to easily reconstruct the 3D CAD models, which will be useful for other downstream applications. This study concludes that the Bio-CAD model plays a dominant role in all downstream applications for the design, analysis, simulation, and manufacturing of complex biomimetic scaffold, patient-specific implants, surgical guides, prosthesis, organ bio blueprints, and other biomedical models. The outcome from the literature review strongly suggested that Bio-CAD modeling will soon be the future for all medical practitioners, biomedical engineers, and manufacturers and will use in all computer-assisted surgery and planning. This paper is beneficial to study the development of Bio-CAD models techniques and its applications in design, modeling, analysis, and manufacturing of biomedical and nonbiomedical researchers. © Published under licence by IOP Publishing Ltd.",,"Bioinformatics; Biomimetics; Implants (surgical); Manufacture; Medical applications; Medical image processing; Product design; Prosthetics; Reverse engineering; Scaffolds; Surgery; Three dimensional computer graphics; Bio-medical models; Biomedical applications; Biomimetic scaffolds; Computer assisted surgery; Downstream applications; Medical practitioner; Reverse engineering techniques; State-of-art technology; Computer aided design",,,,,,,,,,,,,,,,"Pallavi, Lal, Sun, W, A computer modeling approach for the microsphere-packed bone scaffold (2004) Computer-Aided Design, 36, pp. 487-497; Matsumura, T, Sato-Matsumura, K C, Yokota, T, Kobayashi, H, Nagashima, K, Ohkawara, A, Three-dimensional reconstruction in dermatopathology-A personal computer-based system (1999) Journal of Cutaneous Pathology, 26, pp. 197-200; Taguchi, M, Chida, K, Computer reconstruction of the three-dimensional structure of mouse cerebral ventricles (2003) Brain Research Protocols, 12, pp. 10-15; Kirkire, M. S, Rane, S B, Jadhav, J R, Risk management in the medical product development process using traditional FMEA and fuzzy linguistic approach: a case study (2015) Journal of Industrial Engineering International, 11, pp. 595-611; Kirkire, M, Rane, S, Abhyankar, G, Structural equation modeling-FTOPSIS approach for modeling barriers to product development in medical device manufacturing industries (2020) Journal of Modelling in Management ahead-of-print; Hollister, SJ, Levy, RA, Chu, TM, Halloran, JW, Feinberg, SE, An image-based approach for designing and manufacturing craniofacial scaffolds (2000) Int. J. OralMaxillofac Surg, 29, pp. 67-71; Wang, F, Shor, L, Darling, A, Khalil, S, Sun, W, Guceri, S, Lau, A, Precision extruding deposition and characterization of cellular poly-epsiloncaprolactone tissue scaffolds (2004) Rapid Prototyping J, 10, pp. 42-49; Krause, W, Handreke, K, Schuhmann-Giampieri, G, Rupp, K., Efficacy of the iodine-free computed tomography liver contrast agent, Dy-EOBDTPA, in comparison with a conventional iodinated agent in normal and in tumor-bearing rabbits (2002) Invest Radiol, 37, pp. 241-247; Watanabe, M, Tissue-engineered vascular autograft: inferior vena cava replacement in a dog model (2001) Tissue Eng, 7, pp. 429-439; Lin, A S, Barrows, T H, Cartmell, S H, Guldberg, R E, Microarchitectural and mechanical characterization of oriented porous polymer scaffolds (2003) Biomaterials, 24, pp. 481-489; Landers, R, Hubner, U, Schmelzeisen, R, MiiLhaupt, R, Rapid prototyping of hydrogel structures-scaffolds for artificial organs the (2002) International Journal of Artificial Organs, 25, pp. 622-623; Folch, Albert, Mezzour, Sonia, During, Michael, Hurtado, Octavio, Toner, Mehmet, Muller, Ralph, Stacks of Microfabricated Structures as Scaffolds for Cell Culture and Tissue (2000) Engineering Biomedical Microdevices, 2, pp. 207-214; Van Rietbergen, B, Muller, R, Ulrich, D, Ruegsegger, P, Huiskes, R, Tissue stresses and strain in trabeculae of a canine proximal femur can be quantified from computer reconstructions (1999) Journal of Biomechanics, 32, pp. 165-173; Andres, Kriete, Andreas, Breithecker, Rau Wigbert, D, (2001) 3D imaging of lung tissue by confocal microscopy and micro-CT Proc. SPIE 4257 Laser-Tissue Interaction XII Photochemical, Photothermal, and Photomechanical; Muller, R, Ruegsegger, P., (1997) Bone research in biomechanics, pp. 61-80. , ed G Lowet et al (Amsterdam: IOS Press) Micro-tomographic imaging for the non-destructive evaluation of trabecular bone architecture; Muller, R, Ruegsegger, P., Micro-tomographic imaging for the nondestructive evaluation of trabecular bone architecture (1997) Stud Health Technol Infor, 40, pp. 61-79; Kriete, A, Breithecker, A, Rau, W D, (2001) 3D imaging of lung tissue by confocal microscopy and micro-CT Laser-Tissue Interaction XII: Photochemical, Photothermal, and Photomechanical; Dhenain, M, Ruffins, S W, Jacobs, R E, Three-dimensional digital mouse atlas using high-resolution MRI (2001) Developmental Biology, 232, pp. 458-470; Sun, W, Starly, B, Nam, J, Darling, A, Bio-CAD modeling and its applications in computer-aided tissue engineering (2005) Computer-Aided Design, 37, pp. 1097-1114; Kineri, Yuki, Mingsi, Wang, Hongwei, Lin, Takeshi, Maekawa, B-Spline surface fitting by iterative geometric interpolation/approximation algorithms Computer-Aided Design, 44, pp. 697-708; Jin, G Q, Li, W D, Tsai, C F, Wang, L, Adaptive tool-path generation of rapid prototyping for complex product models (2011) Journal of Manufacturing Systems, 30, pp. 154-164; Martinez-Marquez, D, Mirnajafizadeh, A, Carty, CP, Stewart, RA, Application of quality by design for 3D printed bone prostheses and scaffolds (2018) PLoS ONE, 13, p. e0195291; Janaszewski, M, Couprie, M, Babout, L, Hole filling in 3D volumetric objects (2010) Pattern Recognition, 43, pp. 3548-3559; Chougule, VN, Mulay, AV, Ahuja, BB, Patient specific bone modeling for minimum invasive spine surgery (2015) J Spine, 4, p. 249; Eyup, Bagci, Reverse engineering applications for recovery of broken or worn parts and re-manufacturing: Three case studies (2009) Advances in Engineering Software, 40, pp. 407-418; Bi, Z M, Advances in 3D data acquisition and processing for industrial applications (2010) Robotics and Computer-Integrated Manufacturing, 26, pp. 403-413; Sun, W, Lal, P, Recent development on computer-aided tissue engineering review (2002) Comput Methods Programs Biomed, 67, pp. 85-103; Massimo, Robiony, Iolanda, Salvo, Fabio, Costa, Nicoletta, Zerman, Massimo, Bazzocchi, Francesco, Toso, Camillo, Bandera, Massimo, Politi, Virtual reality surgical planning for maxillofacial distraction osteogenesis: the role of reverse engineering rapid prototyping and cooperative work (2007) Journal of oral and maxillofacial surgery, 65, pp. 1198-1208; Le Chi, Hieu Hieu, Bohez, E, Vander Sloten, Jos, Phien, H, Vatcharaporn, E, Binh, P, An, P, Oris, P, design for medical rapid prototyping of cranioplasty implants (2003) Rapid Prototyping Journal, 9, pp. 175-186; Singare, S, Dichen, L, Bingheng, L, Yanpu, L, Zhenyu, G, Yaxiong, L, Design and fabrication of custom mandible titanium tray based on rapid prototyping (2004) Medical engineering & physics, 26, pp. 671-676; Singare, S, Lian, Q, Wang, W, Wang, J, Liu, Y, Li, D, Lu, B, Rapid prototyping assisted surgery planning and custom implant design (2009) Rapid Prototyping Journal, 15, pp. 19-23; Vargas Alex, P, Arrieta, Edson, Munoz, c, Uribe, Sergio, Irarrazaval, Pablo, Andia, Marcelo, Vargas, Ramos, Tejos, Cristian, Sensitivity analysis of geometric errors in additive manufacturing medical models (2015) Medical engineering & physics, 37, pp. 328-334; Edwards, B I, Khougali, N H O, Cheok, A D, (2017) Trends in computer-aided diagnosis using deep learning techniques: A Review of Recent Studies on Algorithm Development Preprints 2017100117; Roth Holger, R, Le, Lu, Jiamin, Liu, Jianhua, Yao, Ari, Seff, Kevin, Cherry, Lauren, Kim, Summers Ronald, M., Improving computer-aided detection using convolutional neural networks and random view aggregation (2016) IEEE Trans Med Imaging, 35, pp. 1170-1181; Imran, Razzak Muhammad, Saeeda, Naz, Ahmad, Zaib, Deep Learning for Medical Image Processing: Overview, Challenges, and Future ArXiv, , abs/1704.06825; Sunny, S, April A review on efficacy of artificial neural networks in medical and business areas (2016) International Journal of Recent Trnds in Engineering and Research, 2",,,,"IOP Publishing Ltd","1st International Conference on Advances in Physical Sciences and Materials 2020, ICAPSM 2020","13 August 2020 through 14 August 2020",,165967,17426588,,,,"English","J. Phys. Conf. Ser.",Conference Paper,"Final","All Open Access, Gold",Scopus,2-s2.0-85098521047
"Surwade V., Savaliya S., Pimple B.B.","57222731074;57193016252;36976185300;","A modified Z-Source DC circuit breaker for power electronic converter load application",2020,"9th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2020",,,"9379331","","",,1,"10.1109/PEDES49360.2020.9379331","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103899811&doi=10.1109%2fPEDES49360.2020.9379331&partnerID=40&md5=5eeffb49714549482c75a7718c9f73ab","Sardar Patel College of Engineering, Andheri, Mumbai, India; Indian Institute of Technology Bombay, Powai, Mumbai, India","Surwade, V., Sardar Patel College of Engineering, Andheri, Mumbai, India; Savaliya, S., Indian Institute of Technology Bombay, Powai, Mumbai, India; Pimple, B.B., Sardar Patel College of Engineering, Andheri, Mumbai, India","The protection of the DC system is a major concern due to the absence of natural current zero crossing during breaker operation. The Z-source DC circuit breaker utilizes passive components such as inductors and capacitors to create current zero crossing through the main line switch in order to isolate the fault from the system. It is a type of solid state DC circuit breaker with inherent fault detecting capability without use of any sensing circuitry and can clear the fault in microseconds. The breaker employs an SCR as a main line switch. It is to be ensured that the current through the SCR should be maintained above its holding current during steady state, so as to prevent any false tripping of the breaker. Power electronic converter loads such as buck converter, draws discontinuous current from the source. Application of breaker for protecting such loads will result into discontinuous current through the SCR and undesired commutation of SCR during steady state condition. This paper presents failure analysis of the Z-source DC circuit breaker in protecting the power electronic converter loads and proposes modified Z-source DC circuit breaker which avoids discontinuous current through the SCR during steady state condition, in order to make it function for power electronic converter loads with discontinuous input current. © 2020 IEEE.","Circuit breaker; DC system; Fault isolation; Microgrid; Power system protection; SCR; Solid state circuit breaker; Z-source DC circuit breaker","DC-DC converters; Electric network analysis; Power electronics; Timing circuits; Buck converters; Dc circuit breakers; Discontinuous current; False tripping; Holding current; Input current; Power electronic converters; Steady-state condition; Electric circuit breakers",,,,,,,,,,,,,,,,"Doerry, N., Amy, J., DC voltage interface standards for naval applications (2015) IEEE Electric Ship Technologies Symposium (ESTS), , June; Qi, L., Liang, J., Design issues and practical application challenges of DC shipboard distribuiton system protection (2015) IEEE Electric Ship Technologies Symposium (ESTS); Moreno Sanchez, M.C., Feasible DC voltage levels in households (2018) Specialization Project, Chalmers University of Technology, Gothenburg, Sweden; Rodriguez-Diaz, E., Voltage-Level Selection of Future Two-Level LVdc Distribution Grids: A Compromise between Grid Compatibiliy, Safety, and Efficiency (2016) IEEE Electrification Magazine, 4. , June; Rodriguez-Diaz, E., Savaghebi, M., Vasquez, J.C., Guerrero, J.M., An overview of low voltage DC distribution systems for residential applications (2015) IEEE 5th International Conference on Consumer Electronics(ICCE)-Berlin; Tan, K., Song, X., Peng, C., Liu, P., Huang, A.Q., Hierarchical protection architecture for 380V DC data center application (2016) IEEE Energy Conversion Congress and Exposition (ECCE); Maqsood, A., Corzine, K.A., Integration of Z-Source Breakers into Zonal DC Ship Power System Microgrids (2017) IEEE Journal of Emerging and Selected Topics in Power Electronics; Maqsood, A., Corzine, K., The Z-source breaker for fault protection in ship power systems (2014) International Symposium on Power Electronics, Electrical Drives, Automation and Motion; Corzine, K., Dc micro grid protection with the z-source breaker (2013) IECON 2013-39th Annual Conference of the IEEE Industrial Electronics Society; Chang, A.H., Sennett, B.R., Avestruz, A., Leeb, S.B., Kirtley, J.L., Analysis and Design of DC System Protection Using Z-Source Circuit Breaker (2016) IEEE Transactions on Power Electronics; Maqsood, A., Corzine, K.A., The Z-source breaker for ship power system protection (2015) IEEE Electric Ship Technologies Symposium (ESTS), , June; Norum, E.O., Design and operation Principles of DC Circuit Breakers (2016) Specialization Project,NTNU; Callavik, M., Blomberg, A., Hafner, J., Jacobson, B., The hybrid HVDC breaker: An innovation breakthrough enabling reliable HVDC grids (2012) ABB Grid Systems, Technical Paper; Corzine, K.A., Ashton, R.W., Structure and analysis of the Z-source MVDC breaker (2011) IEEE Electric Ship Technologies Symposium; Corzine, K.A., Ashton, R.W., A new z-source DC circuit breaker (2010) IEEE International Symposium on Industrial Electronics; Corzine, K.A., Ashton, R.W., A new z-source DC circuit breaker (2012) IEEE Transactions on Power Electronics; Chang, A.H., Avestruz, A., Leeb, S.B., Kirtley, J.L., Design of DC system protection (2013) IEEE Electric Ship Technologies Symposium (ESTS), , April; Savaliya, S., Singh, S., Fernandes, B.G., Protection of DC system using bi-directional Z-Source Circuit breaker (2016) 42nd Annual Conference of the IEEE Industrial Electronics Society (IECON); Savaliya, S., Fernandes, B.G., Performance evaluation of a modified Bi-directional Z-source breaker (2020) IEEE Transactions on Industrial Electronics; Savaliya, S.G., Fernandes, B.G., Analysis and Experimental Validation of Bidirectional Z-Source DC Circuit Breakers (2020) IEEE Transactions on Industrial Electronics; Savaliya, S.G., Fernandes, B.G., Modified bi-directional Z-source breaker with reclosing and rebreaking capabilities (2018) IEEE Applied Power Electronics Conference and Exposition (APEC); Erickson, R.W., Maksimovic, D., Fundamentals of Power Electronics (2001) 2nd Ed. New York: Kluwer, pp. 377-406. , ch.10","Surwade, V.; Sardar Patel College of EngineeringIndia; email: vibha2195@gmail.com
Pimple, B.B.; Sardar Patel College of EngineeringIndia; email: b_pimple@spce.ac.in",,,"Institute of Electrical and Electronics Engineers Inc.","9th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2020","16 December 2020 through 19 December 2020",,168042,,9781728156729,,,"English","IEEE Int. Conf. Power Electron., Drives Energy Syst., PEDES",Conference Paper,"Final","",Scopus,2-s2.0-85103899811
"Mahajan G.P., Maurya R.S.","57221078901;57225420052;","Development Of An Efficient T-Type Strainer With Its Performance Evaluation",2020,"Journal of Thermal Engineering","6","6",,"420","433",,,"10.18186/THERMAL.836499","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85098175928&doi=10.18186%2fTHERMAL.836499&partnerID=40&md5=004642e67b17cb27d00ed0c94539302f","Department of Mechanical Engineering, SPCE, University of MumbaiMaharashtra, India","Mahajan, G.P., Department of Mechanical Engineering, SPCE, University of MumbaiMaharashtra, India; Maurya, R.S., Department of Mechanical Engineering, SPCE, University of MumbaiMaharashtra, India","Strainers are devices used in process industry to protect mechanical equipment from getting damaged due the impurities in process fluid. Hence, performance of a strainer has a direct impact on the performance of the process plant. Present work deals with a methodology to model a T-type strainer using CFD tools, investigating its performance, proposing more efficient model and investigating their performance. Numerical model compares well with the experimental data. Five modifications in the existing strainer are proposed by introducing additional punch plate ahead of meshing element. Another significant modification proposed is creating offset across strainer for inlet and outlet of flow. These arrangement increases the net pressure drop across strainer but significantly improves the flow distribution for longer life of the strainer. Increasing body size of strainer and hole of the punch plate is found to reduce the impact of increased pressure drop. These conclusions are important for improving and redesigning an efficient T-strainer. © 2020, Journal of Thermal Engineering. All Rights Reserved.","CFD; Porous Jump; Porous Media; Pressure Drop; Strainer",,,,,,,,,,,,,,,,,"Carlomagno, M, Rossin, S, Delvecchio, M, Anichini, A., Experimental and numerical validation of conical strainer fluid/structural performance model (2012) Proc. ASME Turbo Expo, 6, pp. 155-171. , https://doi.org/10.1115/GT2012-69751, [1] American Society of Mechanical Engineers Digital Collection; JW, K, JA, K, EY, K, CM, J, DH, K, HN, C., CFD Analysis of Liquid Stream Going Through the Wire-Screen Mesh (2007) 5th Int Conf Heat Transf Fluid Mech Thermodyn, , [2]; Erdal, A, Andersson, HI., Numerical aspects of flow computation through orifices (1997) Flow Meas Instrum, , https://doi.org/10.1016/S0955-5986(97)00017-4, [3]; Iliev, O, Laptev, V., On numerical simulation of flow through oil filters (2004) Comput Vis Sci, , https://doi.org/10.1007/s00791-003-0118-8, [4]; Malavasi, S, Messa, G, Fratino, U, Pagano, A., On the pressure losses through perforated plates (2012) Flow Meas Instrum, , https://doi.org/10.1016/j.flowmeasinst.2012.07.006, [5]; Barros Filho, JA, Navarro, MA, Dos Santos, A, Jordão, E., Experimental and CFD Simulations of Pressure Loss through Perforated Plates (2011) J Energy, , [6]; Tekam, SM, Demoulin, M, Tekam, SM, Daru, V., Comparison of numerical and experimental methods for predicting the efficiency of an automotive oil strainer (2004) Am. Soc. Mech. Eng. Fluids Eng. Div. FED, , https://doi.org/10.1115/IMECE2004-59971, [7]; Gaurav, PM, Maurya, RS, Mujumdar, K., Numerical investigation and performance evaluation of T-type industrial strainer (2017) Int. Conf. Therm. Fluid Eng, , [8]; Perry’s chemical engineers’ handbook (2008) Choice Rev Online, , https://doi.org/10.5860/choice.45-4393, [9]; Weber, LJ, Cherian, MP, Allen, ME, Muste, M., (2000) Headloss characteristics for perforated plates and flat bar screens, , [10]; Miller, DS., (1990) Internal flow systems, , https://doi.org/10.1016/0017-9310(80)90104-0, [11] CRANFIELD, UK, BHRA (INFORMATION Serv","Mahajan, G.P.; Department of Mechanical Engineering, India; email: gmahi1193@gmail.com",,,"Yildiz Technical University",,,,,21487847,,,,"English","J. Therm. Eng.",Article,"Final","All Open Access, Gold",Scopus,2-s2.0-85098175928
"Karekar P., Shrutika C., Shadab S., Pimple B.B., Wagh S.R.","57216864888;57216857501;57215743931;36976185300;35204208400;","Real-time simulation for torque ripple minimization of BLDC motor using low pass compensator",2020,"Proceedings - 2020 International Conference on Electrical Machines, ICEM 2020",,,"9270878","1213","1218",,3,"10.1109/ICEM49940.2020.9270878","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85098622545&doi=10.1109%2fICEM49940.2020.9270878&partnerID=40&md5=d77cc5584adb97608b548efd48e855d3","Sardar Patel College of Engineering, EED, Mumbai, India; Veermata Jijabai Technological Institute, EED, Mumbai, India","Karekar, P., Sardar Patel College of Engineering, EED, Mumbai, India; Shrutika, C., Veermata Jijabai Technological Institute, EED, Mumbai, India; Shadab, S., Veermata Jijabai Technological Institute, EED, Mumbai, India; Pimple, B.B., Sardar Patel College of Engineering, EED, Mumbai, India; Wagh, S.R., Veermata Jijabai Technological Institute, EED, Mumbai, India","Nowadays real-time (RT) simulators plays a crucial role in power electronics and motor drives. These simulators give freedom to design complex topologies and test them before prototyping on actual hardware. RT-LAB is a powerful real-time simulation platform that supports faster dynamical systems. This paper presents the real-time simulation of a BLDC motor drive to reduce the commutation torque ripple. The modified PWM method utilizes a modern PWM technique accompanied by a low pass compensator in the current sensor to avoid saturation of the PI controller and eliminates reverse DC link current. Due to which controllability of the PI controller is achieved in the commutation period and ripples are minimized. The study is carried out on BLDC motor and effectiveness of the proposed control method is verified using OPAL-RT based real-time simulator. © 2020 IEEE.","BLDC motor; Commutation torque ripple; DC link current reversal; Low Pass (LP) compensator; PI controller; Real time simulator OPAL-RT","AC motors; Controllers; Dynamical systems; Electric drives; Pulse width modulation; Real time systems; Simulators; Voltage control; Commutation torque ripple; Complex topology; Control methods; Dc link currents; Real time simulation platform; Real time simulations; Real time simulators; Torque ripple minimization; Brushless DC motors",,,,,,"The authors of the paper would like to acknowledge the support of Dr. N. M. Singh, Akshay Kumar Patil, and Dipankar Singh associated with Control and Decision Research Centre (CDRC), EED, VJTI, Mumbai, India for providing guidance and help during the work.",,,,,,,,,,"Bélanger, J., Venne, P., Paquin, J.-N., The what, where and why of real-time simulation (2010) Planet Rt, 1 (1), pp. 25-29; Krishnan, R., (2017) Permanent Magnet Synchronous and Brushless DC Motor Drives, , CRC press; Carlson, R., Lajoie-Mazenc, M., Fagundes, J., Analysis of torque ripple due to phase commutation in brushless dc machines (1992) IEEE Transactions on Industry Applications, 28 (3), pp. 632-638; Holtz, J., Springob, L., Identification and compensation of torque ripple in high-precision permanent magnet motor drives (1996) IEEE Transactions on Industrial Electronics, 43 (2), pp. 309-320; Li, T., Slemon, G., Reduction of cogging torque in permanent magnet motors (1988) IEEE Transactions on Magnetics, 24 (6), pp. 2901-2903; Urasaki, N., Senjyu, T., Kinjo, T., Funabashi, T., Sekine, H., Deadtime compensation strategy for permanent magnet synchronous motor drive taking zero-current clamp and parasitic capacitance effects into account (2005) IEE Proceedings-Electric Power Applications, 152 (4), pp. 845-853; Pindoriya, R., Mishra, A., Rajpurohit, B., Kumar, R., An analysis of vibration and acoustic noise of bldc motor drive (2018) 2018 IEEE Power & Energy Society General Meeting (PESGM). IEEE, pp. 1-5; Bianchi, N., Bolognani, S., Design techniques for reducing the cogging torque in surface-mounted PM motors (2002) IEEE Transactions on Industry Applications, 38 (5), pp. 1259-1265; Fang, J., Li, H., Han, B., Torque ripple reduction in bldc torque motor with nonideal back emf (2011) IEEE Transactions on Power Electronics, 27 (11), pp. 4630-4637; Liu, Y., Zhu, Z.Q., Howe, D., Commutation-torque-ripple minimization in direct-torque-controlled PM brushless dc drives (2007) IEEE Transactions on Industry Applications, 43 (4), pp. 1012-1021; Yao, X., Lu, G., Zhao, J., Lin, H., Torque ripple minimization in brushless dc motor with optimal current vector control technique 2018 Chinese Automation Congress (CAC). IEEE, pp. 2524-2529; Masmoudi, M., El Badsi, B., Masmoudi, A., Direct torque control of brushless dc motor drives with improved reliability (2014) IEEE Transactions on Industry Applications, 50 (6), pp. 3744-3753. , Nov; Yao, X., Zhao, J., Wang, J., Huang, S., Jiang, Y., Commutation torque ripple reduction for brushless dc motor based on an auxiliary step-up circuit (2019) IEEE Access, 7, pp. 138721-138731; Jiang, G., Xia, C., Chen, W., Shi, T., Li, X., Cao, Y., Commutation torque ripple suppression strategy for brushless dc motors with a novel noninductive boost front end (2018) IEEE Transactions on Power Electronics, 33 (5), pp. 4274-4284. , May; Song, J.-H., Choy, I., Commutation torque ripple reduction in brushless dc motor drives using a single dc current sensor (2004) IEEE Transactions on Power Electronics, 19 (2), pp. 312-319; Karekar, P., Shrutika, C., Pimple, B.B., Torque ripple minimization of bldc motor drive using dc link current control with low pass compensator (2020) 2020 International Conference on Power Electronics and IoT Applications in Renewable Energy and Its Control (PARC). IEEE, pp. 107-112; Lai, Y.-S., Shyu, F.-S., Lin, Y.-K., Novel PWM technique without causing reversal dc-link current for brushless dc motor drives with bootstrap driver (2005) Fourtieth IAS Annual Meeting. Conference Record of the 2005 Industry Applications Conference, 3, pp. 2182-2188. , IEEE; Baby, B.K., George, S., Torque ripple reduction in bldc motor with 120 degree conduction inverter (2012) 2012 Annual IEEE India Conference (INDICON). IEEE, pp. 1116-1121; Mohammed, O.A., Abed, N.Y., Ganu, S., Real-time simulations of electrical machine drives with hardware-in-the-loop (2007) 2007 IEEE Power Engineering Society General Meeting. IEEE, pp. 1-6",,,"IEEE Industrial Electronics Society (IES);The Institute of Electrical and Electronics Engineers (IEEE)","Institute of Electrical and Electronics Engineers Inc.","2020 International Conference on Electrical Machines, ICEM 2020","23 August 2020 through 26 August 2020",,165584,,9781728199450,,,"English","Proc. - Int. Conf. Electric. Mach., ICEM",Conference Paper,"Final","",Scopus,2-s2.0-85098622545
"Kirkire M.S., Rane S.B., Abhyankar G.J.","57190767311;56149402100;57214690032;","Structural equation modelling – FTOPSIS approach for modelling barriers to product development in medical device manufacturing industries",2020,"Journal of Modelling in Management","15","3",,"967","993",,4,"10.1108/JM2-09-2018-0139","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078934086&doi=10.1108%2fJM2-09-2018-0139&partnerID=40&md5=9e559637536e3b87932d16fc99af37f2","Department of Mechanical Engineering, Finolex Academy of Management and Technology, Ratnagiri, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Kirkire, M.S., Department of Mechanical Engineering, Finolex Academy of Management and Technology, Ratnagiri, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Abhyankar, G.J., Department of Mechanical Engineering, Finolex Academy of Management and Technology, Ratnagiri, India","Purpose: The purpose of this paper model and prioritizes barriers to product development in medical device manufacturing industries using an integrated “structural equation modelling” (SEM) and “fuzzy technique for order performance by similarity to ideal solution” (FTOPSIS) framework. Design/methodology/approach: Barriers to medical device development (MDD) are adopted from literature. The initial structural model is proposed, exploratory factor analysis and confirmatory factor analysis are used to determine factor loading and model fit, respectively. Further, FTOPSIS is used to rank the barriers and sensitivity analysis is carried to check the robustness of results. The results are discussed in detail and the recommendations to overcome the barriers are presented. Findings: Barriers analysed and prioritized in this research significantly hinder the MDD. The expert survey is used to develop an initial structural equation model of barriers to MDD, find the reliability and validity of the model. Based on the opinion of the experts, the barriers are divided into three categories – internal, policy and induced barriers. FTOPSIS is applied to rank and prioritize the barriers based on views from these three classes of experts. More reliance on imported devices leading to increased imports (B11) and lack of uniform regulatory standards (B6) are found to have the highest rank together, indicating these to be the most important barriers from the perspective considered here. Sensitivity analysis indicates that the factors are less sensitive to the weights of criteria further confirming the reliability of the initial solution. Research limitations/implications: The prioritization of barriers may vary based upon experts. Policymakers, existing and new device developers need to give utmost importance to these barriers, which will help to accelerate the indigenous development of medical devices to overcome the present dependence on imports. Practical implications: This paper demonstrates an integrated structural based modelling and prioritization technique for statistical modelling and prioritization of barriers to MDD. The results and recommendations will help policymakers and manufacturers to increase the indigenous share of medical devices. The integrated methodology can be effectively applied where the need for the combined quantitative and qualitative approach is there. Originality/value: This paper demonstrates an effective structural based modelling and prioritization technique. It can be effectively applied in various fields, it will help policymakers and manufacturers to increase the indigenous share of medical devices. © 2020, Emerald Publishing Limited.","Barriers; Fuzzy TOPSIS; Manufacturing industries; Medical device; Modelling; Product development; Structural equation modelling (SEM)",,,,,,,,,,,,,,,,,"Borsci, S., Buckle, P., Uchegbu, I., Ni, M., Walne, S., Hanna, G.B., Eskola, H., Hyttinen, J., Integrating human factors and health economics to inform the design of medical device: a conceptual framework (2018) EMBEC and NBC 2017. EMBEC 2017, NBC 2017. 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Abhyankar, G.J.; Department of Mechanical Engineering, India; email: gayatri.abhyankar1@gmail.com
Rane, S.B.; Department of Mechanical Engineering, India; email: s_rane@spce.ac.in",,,"Emerald Group Holdings Ltd.",,,,,17465664,,,,"English","J. Model. Manage.",Article,"Final","",Scopus,2-s2.0-85078934086
"Mangrulkar A., Rane S., Sunnapwar V.","57219698086;56149402100;6504099005;","Computer vision methods for fragmented skull prototyping: Bio-CAD application",2020,"Proceedings of the 3rd International Conference on Smart Systems and Inventive Technology, ICSSIT 2020",,,"9214197","1272","1278",,1,"10.1109/ICSSIT48917.2020.9214197","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85094841670&doi=10.1109%2fICSSIT48917.2020.9214197&partnerID=40&md5=c5107166fdab52a26f831719dcbf30ad","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","Mangrulkar, A., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Rane, S., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Sunnapwar, V., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","In biomedical domain, human skull fractures caused by accidents or any other reasons are required to reassemble. The process of reassembling the fragmented skulls is called skull prototyping or skull completion, followed by the skull repairing process. In the human body, skulls are the regions that are fragmented along a wide range of geometric information that may be fragile. Resolved skull has been supposed to possess higher conformity, particularly under the area of frontal facial along the subtle substrate. With the development of the computer-aided design (CAD) tool, it is possible to complete the fragmented skulls and/or repair damaged skulls using the various computer vision techniques. The bio-CAD methods are introduced for fragmented skull completion and/or damaged skull repairing. This paper has presented a study of various skull prototyping methods. The main focus of this study is to review the computer vision techniques used for human skull prototyping. A systematic study of the state of methods and their comparative analysis is presented in this paper. The automatic skull completion and/or repairing identified as the critical challenge and requirement according to the reviewed literature. © 2020 IEEE.","Bio-CAD; Biomedical; Computer vision methods; Image processing; Skull prototyping; Skull repairing","Computer aided design; Biomedical domain; Comparative analysis; Computer aided design tools; Computer vision techniques; Critical challenges; Geometric information; Repairing process; Systematic study; Computer vision",,,,,,,,,,,,,,,,"Starly, B., Darling, A., Gomez, C., Nam, J., Sun, W., Shokoufandeh, A., Regli, W., Image based bio-cad modeling and its applications to biomedical and t issue engineering (2004) Proceedings of the Ninth ACM Symposium on Solid Modeling and Applications (SM '04), pp. 273-278. , Eurographics Association, Goslar, DEU; Wei, S., Binil, S., Jae, N., Andrew, D., Bio-cad modeling and its applications in computer-aidedt issue engineering (2005) Computer-Aided Design, 37, pp. 1097-1114. , 02. 02; Yin, Z., Wei, L., An automatic assembly and completion framework for fragmented skulls (2011) IEEE International Conference on Computer Vision, , 978-1-4577-1102-2/11/$26. 00c 2011 IEEE; Cooper, D.B., Willis, A., Andrews, S., Baker, J., Cao, Y., Han, D., Kang, K., Mumford, D., Assembling virtual pots from 3d measurements of their fragments (2001) Proceedings of the 2001 Conference on Virtual Reality, Archeology and Cultural Heritage, pp. 241-254; Willis, A.R., Cooper, D.B., Bayesian assembly of 3d axially symmet ric shapes from fragments (2004) CVPR, 1, pp. 82-89; Johnson August, A., (1997) Spin-Images: A Representation for 3-D Surface Matching, , PhD thesis, Robotics Institute, Carnegie Mellon University; Mit Ra, N.J., Guibas, L.J., Pauly July, M., Partial and approximate symmet ry detection for 3d geometry (2006) ACM Trans. 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Young, the Technical Writer's Handbook, , Mill Valley, CA: Universit y Science; Suma, V., Computer vision for human-machine interaction-review (2019) Journal of Trends in Computer Science and Smart Technology (TCSST), 1 (2), pp. 131-139; Sat Hesh, A., Performance analysis of granular computing model in soft computing piaradigm for monitoring of fetal echocardiography (2019) Journal of Soft Computing Paradigm (JSCP), 1 (1), pp. 14-23; Vijayakumar, T., Comparative study of capsule neural network in various applications (2019) Journal of Artificial Intelligence, 1 (1), pp. 19-27; Mahajan, H.B., Badarla, A., Application of internet of things for smart precision farming: Solutions and challenges (2018) International Journal of Advanced Science and Technology, pp. 37-45. , Dec. 2018; Mahajan, H.B., Badarla, A., Experimental analysis of recent clustering algorithms for wireless sensor network: Application of IoT based smart precision farming (2019) Jour of Adv Research in Dynamical & Control Systems, 11 (9); Mahajan, H.B., Badarla, A., Detecting http vulnerabilit ies in iot-based precision farming connected with cloud environment using artificial intelligence (2020) International Journal of Advanced Science and Technology, 29 (3), pp. 214-226; Kirkire, M.S., Rane, S.B., Jadhav, J.R., Risk management in the medical product development process using traditional fmea and fuzzy linguistic approach: A case study (2015) Journal of Industrial Engineering International, 11 (4), pp. 595-611",,,,"Institute of Electrical and Electronics Engineers Inc.","3rd International Conference on Smart Systems and Inventive Technology, ICSSIT 2020","20 August 2020 through 22 August 2020",,163756,,9781728158211,,,"English","Proc. Int. Conf. Smart Syst. Inven. Technol., ICSSIT",Conference Paper,"Final","",Scopus,2-s2.0-85094841670
"Lotekar R.T., Kulkarni R.D., Srivastava G.D.","57218881181;7201509749;57213457494;","Design and Simulation of Digitally Controlled High Current Thyristor Rectifier for Nuclear Research",2020,"Proceedings of CONECCT 2020 - 6th IEEE International Conference on Electronics, Computing and Communication Technologies",,,"9198689","","",,,"10.1109/CONECCT50063.2020.9198689","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85093108057&doi=10.1109%2fCONECCT50063.2020.9198689&partnerID=40&md5=1132fe5efea1174fb3de2b4d765c6aa3","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Bhabha Atomic Research Centre Government of India, Reactor Engineering Division, Mumbai, India","Lotekar, R.T., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Kulkarni, R.D., Bhabha Atomic Research Centre Government of India, Reactor Engineering Division, Mumbai, India; Srivastava, G.D., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India","The paper presents design considerations and circuit simulation of digitally controlled high current, six pulse thyristor rectifier system. The rectifier system is utilized for powering Fuel Rod Cluster Simulator of thermal hydraulic experimental R&D facilities for simulating temperature and power transients expected in nuclear reactor. To maintain the desired amount of nuclear fission heat flux across Fuel Rod Cluster Simulator, suitably scaled rectifier system is necessary. A 5300 Amp thyristor controlled rectifier system is designed to cater the requirement of 600 kW power for experimental R&D facilities. The digital control philosophy has been designed for generating pulses for triggering thyristors. Design calculations for the configuration of six pulse hexa-phase thyristor rectifier system with inter phase transformer has been presented. The simulation of power circuit configuration including closed loop feedback control mechanism has been performed utilizing circuit simulation software. The simulation results including harmonic spectrum have been highlighted in the paper. © 2020 IEEE.","Digital Control; Inter Phase Transformer; Rectifier Transformer; Simulation; Thyristor Rectifier System","Circuit simulation; Closed loop control systems; Computer software; Digital control systems; Heat flux; Nuclear reactors; Rectifying circuits; Thyristors; Closed-loop feedback control; Controlled rectifier; Design and simulation; Design calculations; Design considerations; Digitally controlled; Interphase transformer; Simulation software; Electric rectifiers",,,,,,,,,,,,,,,,"Kulkarni, R.D., Bisht, D.S., Bhaumik, P.K., Vyas, H.P., Sinha, R.K., High current regulated, variable dc power supplies for simulating power transients expected in nuclear reactors (2000) Proc. Of IEEE Int. Conf. Of Industrial Technology 2000 (IEEE ICIT 2000), 2, pp. 530-535. , Jan; Sasidharan, S., Deep Srivastava, G., Kulkarni, R.D., Design & simulation of microcontroller based power electronic converter for nuclear research application (2018) Proc. Of IEEE 4th Int. CET Conf. Of Control, Communication and Computing (IC4 2018), pp. 95-100. , Nov; Kulkarni, R.D., High current regulated 600 kw variable dc power supply units and their applications (1989) Proc. Of IEE Int. Conf. Of Solid State AC & DC Adjustable Speed Drives; Kulkarni, R.D., Bhaumik, P.K., Karandikar, H.N., Ushakumari, M., High current regulated 600 kw variable dc power supplies for reactor component studies (1990) Proc. Of National Symposium on DC & RF Power Sources in Research and Industry, pp. CP11-CP18; Srivastava, G.D., Kulkarni, R.D., Development of high current thyristor controlled rectifier system for nuclear reactor safety studies (2018) IEEE Int. Conf. On Power Electronics, Drives and Energy Systems (PEDES 2018), pp. 1-6. , Dec; Schaefer, J., (1965) Rectifier Circuits: Theory and Design, , New Jersy, John Wiley and Sons; Vicente, E.M., Dos Santos, P., Gallo, C.A., Moreno, R.L., Ribeiro, E.R., Thyristorized rectifier bridge controlled through a psoc (2010) 9th IEEE/IAS Int. Conf. On Industry Applications (INDUSCon 2010), pp. 1-6; Rashid, M.H., (2000) Power Electronics Circuit, Devices and Application, , 3rd edition, Pearson pub; Kulkarni, R.D., Rautela, P., Srivastava, G., Rama Rao, A., Design, manufacturing, testing, installation and commissioning of large rectifier transformers feeding 3. 4 mw rectifier units for nuclear research applications (2017) Proc. Of 6th Int. Conf. Of Large Power Transformers-Modern Trends in Application, Installation, Operation & Maintenance Organized by Central Board of Irrigation & Power (CBIP), pp. 39-57. , New Delhi, India Feb; Mohan, N., Undeland, T.M., Robbins, W.P., (2003) Power Electronics: Converters, Applications, and Design, , John wiley and sons; (1998) IEEE Standard Practices and Requirements for Semiconductor Power Rectifier Transformers, , IEEE Std. C57. 18. 10 NY10017 USA; Bhide, R.S., Kulkarni, S.V., Analysis of parallel operation of converter with inter-phase transformer (2006) Proc. Of India Int. Conf. Of Power Electronics 2006, pp. 193-196. , Dec; Perreault, D.J., Kassakian, J.G., Effects of firing angle imbalance on 12-pulse rectifier with inter phase transformers (1995) IEEE Trans. Power Electronics, 10 (3), pp. 257-262. , May; Ghatak, S., Kulkarni, R.D., Bhitre, N., Comparative analysis of parallel operation of two three phase systems with and without inter-phase transformer (2016) Proc. Of IEEE Int. Conf. Of Computation of Power, Energy, Information and Communication (ICCPEIC-2016), pp. 713-718. , Sep; Mondal, A., Velmurugan, P., Sharma, S.K., Kulkarni, R.D., Shenoy, M., Subramanian, K., Prasad, M.R.S., Design, simulation and comparative analysis of control topologies for thyristor power controllers (2019) Proc. Of IEEE 2nd Int. Conf. Of Energy, Power and Environment:Towards Smart Tech. (ICEPE2018), pp. 1-6. , March; Rautela, P., Kulkarni, R.D., Mishra, N., Development of microcontroller based controller for twelve-pulse ac-dc thyristorised convertor for nuclear research application (2017) Proc. Of 1st IEEE Int. Conf. Of Power Electronics, Intelligent Control and Energy Systems (ICPEICES 2016), pp. 1-6. , Feb; Xu, W., Design of thyristor digital trigger circuit based on microcontroller unit (2009) 1st Int. Conf. On Information Science and Engineering, pp. 5337-5340. , Dec; Shanji, C., TCF792 single and three-phase general digital phase control trigger ic (2008) Electronic Tech., 22, pp. 14-16. , March; Rautela, P., Kulkarni, R.D., Deep Srivastava, G., Design considerations of high power high current twelve pulse thyristor controlled rectifiers (2019) Proc. Of IEEE 2nd Int. Conf. Of Energy, Power and Environment. Of Smart Technology (ICEPE 2018), pp. 1-6. , March; Srivastava, G.D., Kulkarni, R.D., Design & development of microcontroller based programmable ramp generator for ac-dc converter for simulating decay power transient in experimental facility for nuclear power plants (2015) Int. Conf. On Nascent Technologies in Engineering Field (ICNTE 2015), pp. 1-6. , Jan; Singh, B., Singh, B.N., Chandra, A., Al-Haddad, K., Pandey, A., Kothari, D.P., A review of three-phase improved power quality ac-dc converters (2004) IEEE Trans. On Industrial Electronics, 51 (3), pp. 641-660. , June",,,"Ansys;Entuple Technologies;IEEE Humanitarian Activities Committee","Institute of Electrical and Electronics Engineers Inc.","6th IEEE International Conference on Electronics, Computing and Communication Technologies, CONECCT 2020","2 July 2020 through 4 July 2020",,163207,,9781728168289,,,"English","Proc. CONECCT - IEEE Int. Conf. Electron., Comput. Commun. Technol.",Conference Paper,"Final","",Scopus,2-s2.0-85093108057
"Muley P.K., Bapat S.L., Atrey M.D.","57193771185;7004710293;6602560004;","Development of a helium recondensing cryostat",2020,"IOP Conference Series: Materials Science and Engineering","755","1","012040","","",,1,"10.1088/1757-899X/755/1/012040","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087901677&doi=10.1088%2f1757-899X%2f755%2f1%2f012040&partnerID=40&md5=f2a768a4e51b5b7b7e144501b50c5ab6","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India","Muley, P.K., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India, Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India; Bapat, S.L., Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India; Atrey, M.D., Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India","The present paper illustrates a case study in the progress of ongoing research work to develope a 100 litre Helium cryostat with in-situ recondensing facility. The cryostat with a cryocooler sock comprises 46 components assembled in an optimal sequence. Cryostat development involved thermal load estimation, mechanical design, fabrication of components and sub-assemblies. The cryostat deploys a two stage Gifford McMahon cryocooler with appropriate cooling capacities available on 1st and 2nd stage. The thermal load due to the cryostat assembly is estimated as 34 W and 300 mW for 1st and 2nd stage of the cryocooler respectively. Experimental trials are conducted for testing of the cryostat with recondensing cryocooler. The first no load trial in vacuum produced unsatisfactory results. Appropriate modifications are carried out in the assembly which resulted in no load temperatures of 51.95 K on 1st stage and 3.43 K on 2nd stage. At a heater load of 0.448 W, the 2nd stage stabilized at 4.21 K while 1st stage temperature stabilized at 52.47 K without any heater load on 1st stage. Temperature increased from 51.95 K to 52.47 K for 1st stage showing 0.448 W cooling capacity available at 2nd stage for recondensation at 1 bar pressure. The paper highlights these modifications towards successful development of the Helium recondensing cryostat. © Published under licence by IOP Publishing Ltd.",,,,,,,"Board of Research in Nuclear Sciences, BRNS","The authors acknowledge financial support from Board of Research in Nuclear Sciences India for the present research work in the area of “in-situ” Helium recondensation cryostat.",,,,,,,,,,"Asme Ed Rao, K.R., Section VIII Rules for Construction of Pressure Vessels Divisioni (2013) ASME Boiler and Pressure Vessel Code; Barron, R., (1985) Cryogenic Systems, pp. 356-380; Shu, Q., Fast, R., Hart, H., Heat flux from 277 to 77 K through a few layers of multilayer Insulation (1986) Cryogenics, 26 (12), pp. 671-677; (2008) Design Data, pp. 6-8. , PSG College of Engineering Coimbatore; Flynn, T., (2005) Cryogenic Engineering, pp. 317-333; http://www.shicryogenics.com/products/4k-cryocoolers/rdk-408d2-4k-cryocooler-series, Sumitomo Heavy Industries Technical Instruction RDK-408D2 4KCold Head (Tokyo:SHI); Muley, P., Bapat, S., Atrey, M., (2016) Design Analysis of A Helium Re-condenser IOP Conference Series:Materials Science and Engineering 171 Proc.26th Int. Cryogenic Engineering Conf. & Int. Cryogenic Materials Conf, pp. 7-11. , https://iopscience.iop.org/article/10.1088/1757-899X/171/1/012067/, March New Delhi India",,,"Ability Engineering Technology, Inc.;Aerospace Fabrication and Materials, LLC;Beijing Sinoscience Fullcryo Technology Co., Ltd.;Cryomech, Inc.;Demaco Holland bv;et al.","Institute of Physics Publishing","2019 Cryogenic Engineering Conference, CEC 2019","21 July 2019 through 25 July 2019",,161595,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85087901677
"Meharkure S., Kinhekar N.","57218878741;55920860800;","Smart Monitoring of Automatic under Frequency Load Shedding (SMOAUFLS)",2020,"2020 International Conference for Emerging Technology, INCET 2020",,,"9154152","","",,2,"10.1109/INCET49848.2020.9154152","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090601405&doi=10.1109%2fINCET49848.2020.9154152&partnerID=40&md5=bc76f0095b4760ba0c224e693f9262ab","Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, India","Meharkure, S., Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, India; Kinhekar, N., Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, India","Today's world is the internet world, the Internet of Things (IoT) is expanding at a rapid rate increasing technology. A network of connected computers hidden in every corner of our life monitoring and controlling things with minimal IoT supports to connect hardware devices to the internet to process the data for monitoring and security. This system uses some controllers and some sensors help to monitor the real-time parameters like Frequency, Wattage, Voltage, Current etc. are accessed and monitored from remote area by cloud computing called ubidots.com and controls the system operation by computer or smartphone for Automatic under frequency load shedding (AUFLS).This paper presents an application of IoT for Smart Monitoring of Automatic Under frequency Load shedding Scheme at a system coordination centre. © 2020 IEEE.","Arduino nano; Current Sensor (YHDC SCT 013); ESP32; IoT; Sensors (Voltage Sensor (ZMPT101B); Ubidots.","Electric power plant loads; Internet of things; Application of iot; Hardware devices; Internet of thing (IOT); Monitoring and controlling; Remote areas; Smart monitoring; System operation; Underfrequency load-shedding; Electric load shedding",,,,,,,,,,,,,,,,"(2020), http://www.cercind.gov.in/2018/Reports/50%20Hz_Committee1.pdf, Cercind. gov. in[Accessed 24 April 2020]; (2012) India Blackouts, , https://en.wikipedia.org/wiki/2012_India_blackouts, En. wikipedia. org. 2020 Accessed 24 April 2020]; Mollah, U.-Z.K., Bahadornejad, M., Nair, N.K.-C., (2011) Automatic Under-frequency Load Shedding in New Zealand Power System-A Systematic Review, pp. 1-7; Arulampalam, A., Saha, T.K., Fast and adaptive under frequency load shedding and restoration technique using rate of change of frequency to prevent blackouts (2010) Power and Energy Society General Meeting; Shanthi, P., (2017) Under Frequency Load Shedding Model with Overload Protection; Kundur'S, P., (1994) Power System Stability and Control, Electric Power Research Institute-Power System Engineering Series, , McGraw-Hill; (2020) Learn | Openenergymonitor, , https://learn.openenergymonitor.org/electricity-monitoring/ctsensors/interface-with-arduino, Learn. openenergymonitor. org.[Accessed 24 April 2020]",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference for Emerging Technology, INCET 2020","5 June 2020 through 7 June 2020",,162255,,9781728162218,,,"English","Int. Conf. for Emerg. Technol., INCET",Conference Paper,"Final","",Scopus,2-s2.0-85090601405
"Bagwe V.V., Kulkarni R.D.","57218878253;7201509749;","Design considerations and analysis of high frequency induction heating system feeding simulated nuclear reactor fuel cluster",2020,"2020 International Conference for Emerging Technology, INCET 2020",,,"9154164","","",,1,"10.1109/INCET49848.2020.9154164","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090596883&doi=10.1109%2fINCET49848.2020.9154164&partnerID=40&md5=fe1af705ef6c10860541b20220f1cdc9","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Bhabha Atomic Research Centre, Dept. of Atomic Energy, Govt. of India, Mumbai, India","Bagwe, V.V., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Kulkarni, R.D., Bhabha Atomic Research Centre, Dept. of Atomic Energy, Govt. of India, Mumbai, India","Nuclear fuel cluster utilized in nuclear reactor for fission process, undergoes wide extent of temperature and power profiles/stresses due to reason such as temperature profile during LOCA, cooling of these rods by water during heat transfer, decay heat profile just after shutting down of nuclear reactor, set-back and step-back reactor phenomenon. As during nuclear reaction due to fission reaction, observing and inspecting these nuclear fuel channel becomes a difficult task. Therefore, there arises need of replicating heating pattern on fuel channel in order to analyze the effects. Heating pattern observed on nuclear fuel channel follows a cosine heating profile. As per this, induction heating is the suitable technique for obtaining this pattern of fuel channel. Induction heating of fuel channel technique have some advantages like efficient performance, quick control action, clean heating, suitable protective measures and precise voltage/current regulation. The electrical circuit parameters observed while conducting circuit simulation supports in working out hardware design to be implemented. Depending upon desired power/temperature profile, high frequency induction heating system of suitable frequency has been configured. For obtaining heating pattern, induction coil pitch is decided. The conclusions have been highlighted. The hardware circuit development has been proposed to validate the results of circuit simulation. © 2020 IEEE.","Cosine plot; Fuel channel; Heating pattern; High frequency; Induction Principle; Nuclear power plant; Pitch of coil","Circuit simulation; Electric network parameters; Fission reactions; Heating equipment; Nuclear fuels; Nuclear reactions; Nuclear reactors; Design considerations; Electrical circuit; Fission process; Hardware circuits; Hardware design; High frequency induction heating; Protective measures; Temperature profiles; Induction heating",,,,,,,,,,,,,,,,"Tudbury, C.A., (1960) Basics of Induction Heating, 2. , John F. Rider: New York; Chapman and Hall: London; Rashid, M.H., (2001) Power Electronics Handbook, , Academic press, A Harcour Science and Technology Company, New York, USA; Zinn, S., Elements of induction heating (1988) ASM Int.; Simpson, P.G., (1979) Induction Heating: Coil and System Design, , McGraw Hill; Keettikkal, F., Sajeesh, D., Rao, P., Hande, S., Dakave, G., Kute, T., Mahajan, A., Kulkarni, R.D., Generation of heat on fuel rod in cosine pattern by using induction heating (2017) Proc. Of IEEE Technically Co-sponsored 2nd Biennial Int. Conf. Of Nascent Technologies in Engineering (ICNTE-2017), , Jan published in IEEE Xplore Digital Library; Maciej, A., Dzieniakowski, Power electronics converters in induction heating-the survey (2017) Proc. Of 2017 Progress in Applied Electrical Engg. (PAEE), pp. 1-6. , Koscielisko, Poland, June 2017,-Proc. published in IEEE Xplore Digital Library, August; Kharadi, A.S., Patel, A.S., Dhantiya, J.A., Design analysis and simulation of resonant inverter for induction heating process (2014) Proc. Of Journal of Applied Engineering (JOAE), 2 (5). , (Volume-II, Issue-V), May; Jain, P.K., Espinoza, J.R., Dewan, S.B., Self-started voltagesource series-resonant converter for high-power induction heating and melting applications (1998) IEEE Transactions on Industry Applications, 34 (3), pp. 518-525; Schuetze, T., Design aspects of inverters with igbt high power modules (1997) PCIM, , Europe; Dieckerhoff, S., Ruan, M.J., De Doncker, R.W., Design of an igbt-based lcl-resonant inverter for high frequency induction heating (1999) Conference, 3, pp. 2039-2045; Dieckerhoff, S., Ryan, M.J., De Doncker, R.W., Design of an igbt-based lcl-resonant inverter for high-frequency induction heating (1999) Proceedings of the IEEE Industry Applications Conference and 34th IAS Annual Meeting, pp. 2039-2045. , October; Huerta, J.M.E., Santamarýa, E.J.D.G., Gil, R.G., Castelló-Moreno, J., Design of the l-lc resonant inverter for induction heating based on its equivalent sri (2007) IEEE Transactions on Industrial Electronics, 54 (6), pp. 3178-3187; Borage, M., Tiwari, S., A 25 kw, 25 khz induction heating power supply for movpe system using l-lc resonant inverter (2013) Proc. Of Hindawi Publishing Corporation, Advances in Power Electronics; Espi, J.M., Dede, E.J., Navarro, E., Sanchis, E., Ferreres, A., Features and design of the voltage-fed l-lc resonant inverter for induction heating (1999) Proceedings of the 30th Annual IEEE Power Electronics Specialists Conference (PESC '99), pp. 1126-1131. , July; Espí, J.M., Dede, E.J., Design considerations for three element l-lc resonant inverters for induction heating (1999) International Journal of Electronics, 86 (10), pp. 1205-1216; Lucía, O., Burdio, J.M., Millan, I., Acero, J., Puyal, D., Loadadaptive control algorithm of half-bridge series resonant inverter for domestic induction heating (2009) IEEE Transactions on Industrial Electronics, 56 (8), pp. 3106-3116; Ngoc, H.P., Fujita, H., Ozaki, K., Uchida, N., Phase angle control of high-frequency resonant currents in a multiple inverter system for zone-control induction heating (2011) IEEE Transactions on Power Electronics, 26 (11), pp. 3357-3366; Grajales, L., Lee, F.C., Control system design and small-signal analysis of a phase-shift-controlled series-resonant inverter for induction heating (1995) Proceedings of the IEEE Power Electronics Specialist Conference, pp. 450-456; Ahmed, N.A., High-frequency soft-switching ac conversion circuit with dual-mode PWM/pdm control strategy for high power ih applications (2011) IEEE Transactions on Industrial Electronics, 58 (4), pp. 1440-1448; Srivastava, G.D., Kulkarni, R.D., Design & development of microcontroller based programmable ramp generator for AC-DC converter for simulating decay power transient in experimental facility for nuclear power plant (2015) Proc. Of the IEEE Int. Conf. Of Nascent Technologies in the Engineering Field (IEEE ICNTE-2015), , January published in IEEE Xplore Digital Library",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference for Emerging Technology, INCET 2020","5 June 2020 through 7 June 2020",,162255,,9781728162218,,,"English","Int. Conf. for Emerg. Technol., INCET",Conference Paper,"Final","",Scopus,2-s2.0-85090596883
"Lotekar R.T., Kulkarni R.D., Deep Srivastava G.","57218881181;7201509749;57213457494;","Design, analysis and simulation of six-pulse thyristorised rectifier using digital controller",2020,"2020 International Conference for Emerging Technology, INCET 2020",,,"9153987","","",,,"10.1109/INCET49848.2020.9153987","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090594929&doi=10.1109%2fINCET49848.2020.9153987&partnerID=40&md5=3ab55c620fb3924874c943a989bdcb02","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Government of India, Bhabha Atomic Research Centre, Mumbai, India; Government of India, Reactor Engineering Division Bhabha Atomic Research Centre, Mumbai, India","Lotekar, R.T., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Kulkarni, R.D., Government of India, Bhabha Atomic Research Centre, Mumbai, India; Deep Srivastava, G., Government of India, Reactor Engineering Division Bhabha Atomic Research Centre, Mumbai, India","The paper represents design considerations and simulation of a digital control system for six pulse thyristorised rectifier. This rectifier is used to power the thermal hydraulic based RD experimental facilities to simulate the power and temperature transients occurs in nuclear reactor. In order to maintain precisely the predetermined value of DC output power/output current for simulated nuclear fuel channel of experimental facility, an appropriate digital controller has been designed for generating pulses for triggering thyristors. Design calculations for configuring six pulse thyristorised rectifier system has been presented. The simulation of closed loop feedback control mechanism has been performed using circuit simulation software and the simulation results including waveforms have been highlighted in the paper. © 2020 IEEE.","Circuit Simulation; Digital Control; Inter-Phase Transformer; Nuclear; Step Down Transformer; Thyristor","Circuit simulation; Closed loop control systems; Computer software; Controllers; Digital control systems; Nuclear fuels; Nuclear reactors; Rectifying circuits; Analysis and simulation; Closed-loop feedback control; Design calculations; Design considerations; Digital controllers; Experimental facilities; Simulation software; Temperature transients; Electric rectifiers",,,,,,,,,,,,,,,,"Kulkarni, R.D., Bisht, D.S., Bhaumik, P.K., Vyas, H.P., Sinha, R.K., High current regulated, variable DC power supplies for simulating power transients expected in nuclear reactors (2000) Proceedings of IEEE international conference on industrial technology 2000 (ieee cat. no. 00th8482), 2, pp. 530-535. , Goa, India; Srivastava, G.D., Kulkarni, R.D., Development of high current thyristor controlled rectifier system for nuclear reactor safety studies (2018) 2018 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES), pp. 1-6. , Chennai, India Dec; Sen, P.C., (1987) Power Electronics, , Tata McGraw-Hill Education; Srivastava, G.D., Kulkarni, R.D., Design & development of microcontroller based programmable ramp generator for AC-DC converter for simulating decay power transient in experimental facility for nuclear power plants (2015) 2015 International Conference on Nascent Technologies in the Engineering Field (ICNTE), pp. 1-6. , Jan Navi Mumbai, India; Vicente, E.M., Dos Santos, P., Gallo, C.A., Moreno, R.L., Ribeiro, E.R., Thyristorized rectifier bridge controlled through a psoc (2010) 2010 9th IEEE/IAS International Conference on Industry Applications-INDUSCon 2010, pp. 1-6. , Sao Paulo; Rashid, M.H., (2000) Power Electronics Circuit, Devices and Application, , 3rd edition, Pearson pub; Mohan, N., Undeland, T.M., Robbins, W.P., (2003) Power Electronics: Converters, Applications, and Design, , John wiley & sons; Xu, W., Design of thyristor digital trigger circuit based on microcontroller unit (2009) 2009 First International Conference on Information Science and Engineering, pp. 5337-5340. , Nanjing; Bhide, R.S., Kulkarni, S.V., Analysis of parallel operation of converter with inter-phase transformer (2006) Proc. Of India Int. Conf. Of Power Electronics 2006, pp. 193-196. , Dec; Perreault, D.J., Kassakian, J.G., Effects of firing angle imbalance on 12-pulse rectifier with inter phase transformers (1995) IEEE Trans. On Power Electronics, 10 (3), pp. 257-262. , May; Perreault, D.J., Kassakian, J.G., Effects of firing angle imbalance on 12-pulse rectifiers with interphase transformers IEEE Trans. On Power Electronics, 10 (3), pp. 257-262. , May 1995; (1998) IEEE Standard Practices and Requirements for Semiconductor Power Rectifier Transformers, , IEEE Std. C57. 18. 10-1998 NY10017, USA; Shanji, C., Tcf792 single and three-phase general digital phase control trigger ic (2008) Electronic Technology, 22, pp. 14-16. , March; Perreault, D.J., Kassakian, J.G., Effects of firing angle imbalance on 12-pulse rectifiers with interphase transformers (1995) IEEE Trans. Power Electron., 10 (3), pp. 257-262. , May. © 1995 IEEE; Singh, B., A review of three-phase improved power quality AC-DC converters (2004) IEEE Transection on Industrial Electronics, 51 (3), pp. 641-660",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference for Emerging Technology, INCET 2020","5 June 2020 through 7 June 2020",,162255,,9781728162218,,,"English","Int. Conf. for Emerg. Technol., INCET",Conference Paper,"Final","",Scopus,2-s2.0-85090594929
"Sawashe S., Kulkarni R.D., Sabnis A.","57218881325;7201509749;54416304100;","Design considerations and simulations of parallel operation of six pulse converter using interphase transformer",2020,"2020 International Conference for Emerging Technology, INCET 2020",,,"9154048","","",,,"10.1109/INCET49848.2020.9154048","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090582042&doi=10.1109%2fINCET49848.2020.9154048&partnerID=40&md5=610c3162ea1fd821f190953fa3e2b2c9","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Bhabha Atomic Research Centre, Department of Atomic Energy Government of India, Mumbai, India","Sawashe, S., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Kulkarni, R.D., Bhabha Atomic Research Centre, Department of Atomic Energy Government of India, Mumbai, India; Sabnis, A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India","High current thyristorized AC-DC multi-pulse converters have several industrial and research applications e.g. electroplating, heating, charging coil of electromagnet, electrolysis process, etc. The output DC current handled by these converters is of the order of several kA at comparatively lower voltages and hence parallel operation of these converters is essential for meeting the particular load current demand. The paper deals with identical multi-pulse rectifiers, implemented for AC to DC power conversion connected in parallel across the typical simulated load. Appropriate converter configuration has been selected in which phase displacement in their incoming AC supply voltages is used to increase the output pulse number. An inter-rectifier reactor, often known as an Inter-phase Transformer has been designed and paralleling of converters have been performed through inter phase transformer on the DC side which helps in symmetrical current sharing amongst paralleled rectifiers preventing circulating current between the rectifiers as well as allow them to operate independently in isolated manner. The paper presents design considerations including simulation of high current six pulse thyristorized converter and highlight the comprehensive and comparative analysis of interactions between two six pulse full wave bridge converter operating with and without inter phase transformer. © 2020 IEEE.","Inter-phase Transformer; Low Voltage High Current Converter; Multipulse Converter; Total Harmonic Distortion","DC transformers; Design; Electric inverters; Electric rectifiers; Industrial research; Comparative analysis; Converter configurations; Design considerations; Interphase transformer; Multi-pulse converters; Multi-pulse rectifiers; Research applications; Six-pulse converters; Rectifying circuits",,,,,,,,,,,,,,,,"Singh, B., Gairola, S., Singh, B.N., Chandra, A., Al-Haddad, K., Multipulse AC-DC converters for improving power quality: A review (2008) IEEE Trans. Power Electron., 23 (1), pp. 260-281. , Jan; Bhinde, R.S., Kulkarni, S.V., Analysis of parallel operation of converters with ipt (2006) Proc. Of IEEE Int. Conf. Of Power Elec., pp. 193-196; Schaeffer, J., (1965) Rectifier Circuits: Theory & Design, , New York: Wiley; Wu, B., High-Power Converters and AC Drives; Rashid, M.H., (2000) Power Electronics Circuit, Devices & App, , 3rd edition; (2003) Converter, Application and Design, , John Wiley & Sons Inc; Srivastava, G.D., Kulkarni, R.D., Development of high current thyristors controlled rectifier system for nuclear reactor safety studies (2018) IEEE Int. Conf. On Power Elect., Drives & Energy Systems, pp. 1-6. , India; Vicente, E.M., Dos Santos, P., Gallo, C.A., Moreno, R.L., Ribeiro, E.R., Thyristorised rectifier bridge controlled through a psoc (2010) 9th IEEE/IAS Int. Conf. On Ind. App.-INDUSCon 2010, pp. 1-6. , Sao Paulo; Kulkarni, R.D., Bisht, D.S., Bhaumik, P.K., Vyas, H.P., Sinha, R.K., High current regulated, variable DC power supplies for simulating power transients expected in nuclear power reactors (2000) Proc. Of IEEE India Int. Conf. Of Industrial Technology (ICIT 2000), 2, pp. 530-535. , Jan; Ghatak, S., Kulkarni, R.D., Bhitre, N., Comparative analysis of parallel operation of two three phase systems with and without interphase transformer (2016) 2016 Int. Conf. On Computation of Power, Energy Information and Communication (ICCPEIC), , Chennai, India; Maurya, R., Agarwal, P., Srivastava, S.P., Performance investigation of multipulse converter for low voltage high current applications (2011) 2011 IEEE Int. Conf. On Computer Science and Automation Engg, , July; Choi, S., Oh, J., Cho, J., Multi-pulse converters for high voltage and high power applications (2000) IPEMC, Power Electronics and Motion Control, 3, pp. 1019-1024. , Aug; Bisoi, P., Swain, S.C., Optimized operation of interphase transformer for power converter operating in parallel and its analytical characterization (2014) Int. Jour. Of Engg. Res. & Tech., 3 (12). , Dec; Park, I.G., Kim, S.I., Modelling and analysis of multi interphase transformers for connecting power converters in parallel (1997) Power Electronics Specialists Conf., 2 (22-27), pp. 1164-1170. , June; Kim, S., Han, S., Byun, S., Cho, Y., Improved parallel operation mode control of parallel connected 12-pulse thyristor duel converter for urban railway power substations (2016) IEEE 17th Workshop on Control and Modeling for Power Electronics, pp. 1-6; Peterson, M., Singh, B.N., Multipulse controlled AC-DC converters for harmonic mitigation and reactive power management IET Power Electronics, 2 (4), pp. 443-455; Singh, B., Modeling & simulation of multi-pulse converters for harmonic reduction (2012) Int. J. Adv. Comp. Res, 2 (5), pp. 158-165; Singh, B., A review of three-phase improved power quality AC-DC converters (2004) IEEE Transactions on Industrial Electronics, 51 (3), pp. 641-660",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference for Emerging Technology, INCET 2020","5 June 2020 through 7 June 2020",,162255,,9781728162218,,,"English","Int. Conf. for Emerg. Technol., INCET",Conference Paper,"Final","",Scopus,2-s2.0-85090582042
"Munaf Shaikh A., Kulkarni R.D., Sabnis A., Sagar Bhaskar M., Subramaniam U.","57200012297;7201509749;54416304100;56229894300;57199091461;","Silicon Carbide (SiC) based Constant DC Current Source for DC Current Transformer Calibration",2020,"2020 International Conference for Emerging Technology, INCET 2020",,,"9154018","","",,,"10.1109/INCET49848.2020.9154018","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090555744&doi=10.1109%2fINCET49848.2020.9154018&partnerID=40&md5=e6cc44b8e4631a30ff2da8878089d389","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Govt. of India, Bhabha Atomic Research Centre, Mumbai, India; College of Engineering, Prince Sultan University, Renewable Energy Laboratory, Riyadh, Saudi Arabia","Munaf Shaikh, A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Kulkarni, R.D., Govt. of India, Bhabha Atomic Research Centre, Mumbai, India; Sabnis, A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, Andheri, India; Sagar Bhaskar, M., College of Engineering, Prince Sultan University, Renewable Energy Laboratory, Riyadh, Saudi Arabia; Subramaniam, U., College of Engineering, Prince Sultan University, Renewable Energy Laboratory, Riyadh, Saudi Arabia","A single phase AC-DC converter is extremely important parameter of major sectors of power systems, electronic circuitries, computer power supplies, communication and automation systems. The converter system should be compact, efficient and reliable as it powers the system throughout the year continuously. The power density and performance efficiency of the controlled rectifier circuits are sufficiently enhanced using the next level semiconductor switches like Silicon Carbide (SiC) MOSFET having wide band gap structure. The advantages in the structural properties of the SiC MOSFET device face the challenges in terms of the costing of the device. In this paper a single phase close loop control rectifier with switching device as SiC MOSFET and diodes as Schottky SiC diode is proposed which minimizes the reverse recovery losses of semiconductor switches which gets wipe out. Proposed rectifier is designed for powering the high precision calibration of Direct Current Current Transformer (DCCT) which works on the Hall Effect principle for high DC current measurements of Kilo ampere range. The circuit operational analysis and simulation presented validate the advantages of proposed rectifier in comparison with traditional circuit configuration. © 2020 IEEE.","AC-DC converter; DC current transformer; Hall effect; Measurement; SiC diode; SiC MOSFET","Automation; Calibration; Closed loop control systems; DC transformers; Electric current measurement; Electric currents; Electric instrument transformers; Electric inverters; Electric network analysis; Electric rectifiers; Energy gap; MOSFET devices; Rectifying circuits; Semiconducting silicon compounds; Semiconductor diodes; Semiconductor switches; Silicon carbide; Circuit configurations; Controlled rectifier circuit; DC current measurement; Electronic circuitry; High-precision calibration; Performance efficiency; Silicon carbide MOSFETs; Silicon carbides (SiC); Wide band gap semiconductors",,,,,"Bhabha Atomic Research Centre, BARC","ACKNOWLEDGMENT This work has been supported by Bhabha Atomic Research Centre (BARC), Mumbai and authors would like to thank Mr. Parag Karekar, R&D Head, J. K. Impax for his support.",,,,,,,,,,"Iwamuro, N., Recent progress of sic mosfet devices materials science forum (2019) Trans. Tech. Publ. Ltd, 954; Namai, M., Experimental and numerical demonstration and optimized methods for sic trench mosfet short-circuit capability (2017) IEEE 29th Intl. Sym. On Power Semicond. Devices and IC's (ISPSD), pp. 363-366. , Sapporo, Japan, 28 May-1 June; Iqbal, A., Bhaskar, M.S., Meraj, M., Padmanaban, S., Rahman, S., Closed-loop control and boundary for ccm and DCM of nonisolated inverting n×multilevel boost converter for high-voltage step-up applications (2020) IEEE Trans. On Ind. Electron., 67 (4), pp. 2863-2874. , April; Bhaskar, M.S., Meraj, M., Iqbal, A., Padmanaban, S., Nonisolated symmetrical interleaved multilevel boost converter with reduction in voltage rating of capacitors for high-voltage microgrid applications (2019) IEEE Trans. On Ind. Appl., 55 (6), pp. 7410-7424. , Nov; Maroti, P.K., Padmanaban, S., Holm-Nielsen, J.B., Bhaskar, M.S., Meraj, M., Iqbal, A., A new structure of high voltage gain sepic converter for renewable energy applications (2019) IEEE Access, 7, pp. 89857-89868; Bhaskar, M.S., Alammari, R., Meraj, M., Padmanaban, S., Iqbal, A., A new triple-switch-triple-mode high step-up converter with wide range of duty cycle for DC microgrid applications (2019) IEEE Trans. On Ind. Appl., 55 (6), pp. 7425-7441. , Nov; Maroti, P.K., Alammari, R., Bhaskar, M.S., Meraj, M., Iqbal, A., Padmanaban, S., Rahman, S., New tri-switching state non-isolated high gain DC-DC boost converter for microgrid application (2019) IET Power Electron., 12 (11), pp. 2741-2750. , Jun; Bhaskar, M.S., Meraj, M., Iqbal, A., Padmanaban, S., Maroti, P.K., Alammari, R., High gain transformer-less double-duty-triple-mode dc/dc converter for DC microgrid (2019) IEEE Access, 7, pp. 36353-36370; Maroti, P.K., Padmanaban, S., Bhaskar, M.S., Meraj, M., Iqbal, A., Al-Ammari, R., High gain three-state switching hybrid boost converter for DC microgrid applications (2019) IET Power Electron., 12 (14), pp. 3656-3667. , Aug; Millán, J., Godignon, P., Perpiñà, X., Pérez-Tomás, A., Rebollo, J., A survey of wide bandgap power semiconductor devices (2014) IEEE Trans. On Power Electron., 29 (5), pp. 2155-2163. , May; Glaser, J.S., Nasadoski, J., Losee, P., Kashyap, A., Matocha, K., Garrett, J., Stevanovic, L., Direct comparison of silicon and silicon carbide power transistors in high-frequency hard-switched applications (2011) 26th Annual IEEE Applied Power Electro. Conf. And Expo., pp. 1049-1056. , March, Fort Worth, TX, USA; Zhao, Y., Yifan, L.Y., Lipo, T.A., Force commutated three level boost type rectifier (1995) IEEE Trans. On Ind. Appl., 31 (1), pp. 155-161. , Jan; Schweizer, M., Friedli, T., Kolar, J.W., Comparative evaluation of advanced three-phase three-level inverter/converter topologies against two-level systems (2013) IEEE Trans. On Ind. Electron., 60 (12), pp. 5515-5527. , Dec; Minibock, J., Kolar, J.W., Comparative theoretical and experimental evaluation of bridge leg topologies of a three-phase three-level unity power factor rectifier (2001) IEEE 32nd Annual Power Electron. Spec. Conf., pp. 1641-1646. , June, Vancouver, Canada; Kolar, J.W., Zach, F.C., A novel three-phase utility interface minimizing line current harmonics of high-power telecommunications rectifier modules (1997) IEEE Trans. On Ind. Electron., 44 (4), pp. 456-467. , Aug; Teichmann, R., Bernet, S., A comparison of three-level converters versus two-level converters for low-voltage drives, traction, and utility applications (2005) IEEE Trans. On Ind. Appl., 41 (3), pp. 855-865. , May; Schweizer, M., Friedli, T., Kolar, J.W., Comparison and implementation of a 3-level npc voltage link back-to-back converter with sic and si diodes (2010) Twenty-Fifth Annual IEEE Applied Power Electronics Conf. And Expo. (APEC), pp. 1527-1533. , Feb. Palm Springs, USA; Zhang, J., Lu, Z., Su, B., Single inductor three-level bridgeless boost power factor correction rectifier with nature voltage clamp (2012) IET Power Electron., 5 (3), pp. 358-365. , March; Heldwein, M.L., Mussa, S.A., Barbi, I., Three-phase multilevel PWM rectifiers based on conventional bidirectional converters (2010) IEEE Trans. On Power Electron., 25 (3), pp. 545-549. , March; Uemura, H., Krismer, F., Okuma, Y., Kolar, J.W., Pareto optimization of 3-phase 3-level t-type AC-DC-ac converter comprising si and sic hybrid power stage (2014) Intl. Power Electron. Conf., pp. 2834-2841. , May, Hiroshima, Japan; Uemura, H., Krismer, F., Kolar, J.W., Comparative evaluation of t-type topologies comprising standard and reverse-blocking igbts (2013) IEEE Energy Conv. Cong. And Expo., pp. 1288-1295. , Denver, USA, Sept",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference for Emerging Technology, INCET 2020","5 June 2020 through 7 June 2020",,162255,,9781728162218,,,"English","Int. Conf. for Emerg. Technol., INCET",Conference Paper,"Final","",Scopus,2-s2.0-85090555744
"Rane S.B., Thakker S.V.","56149402100;57202855011;","Green procurement process model based on blockchain–IoT integrated architecture for a sustainable business",2020,"Management of Environmental Quality: An International Journal","31","3",,"741","763",,37,"10.1108/MEQ-06-2019-0136","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85077701328&doi=10.1108%2fMEQ-06-2019-0136&partnerID=40&md5=6b899d57f634f94cecea26e4bbe30984","Sardar Patel College of Engineering, Mumbai, India; K.J. Somaiya College of Engineering, Mumbai, India","Rane, S.B., Sardar Patel College of Engineering, Mumbai, India; Thakker, S.V., Sardar Patel College of Engineering, Mumbai, India, K.J. Somaiya College of Engineering, Mumbai, India","Purpose: Blockchain and IoT are recently developed technologies for the database creation and smooth functioning of supply chain activities. The purpose of this paper is to analyse the use of blockchain and IoT for green procurement activities. The integration of blockchain and IoT interface can solve many challenges faced by industries having green procurement. Design/methodology/approach: Through a literature survey and interviews with procurement managers from different industries, challenges in green procurement were identified. Elements of blockchain and IoT were analysed to overcome the green procurement challenges. Architecture for blockchain and IoT is developed to be implemented in the green supply chain for a sustainable business. Findings: The challenges of green procurement are categorised and ranked as per the industry survey results. The architecture shows the tasks of blockchain and IoT in green procurement activities. Research limitations/implications: Green procurement is still at developing stages in India as compared to Europe and many other countries. There is a requirement for more government involvement and participation from industry and customers to implement such methods. Environment issues and challenges faced by industries are addressed. Practical implications: Blockchain–IoT integration can transform a green supply chain. This research helps industries planning to incorporate blockchain and IoT in identifying the areas to focus and better planning of resources for the successful implementation of smart technologies in their supply chains. Green initiatives ensure global competitiveness as well as recognition at the global level. Green procurement ensures the minimal usage of energy and efficient waste disposal. Originality/value: The implementation of green procurement and challenges associated with it are addressed in this research. This will work as a framework for industries looking forward to implementing blockchain and IoT in their supply chains for solving green procurement challenges. © 2019, Emerald Publishing Limited.","Block chain–IoT-integrated architecture; Blockchain technology; Green procurement; Internet of Things; Sustainability","business development; database; implementation process; information and communication technology; integrated approach; model; supply chain management; sustainability",,,,,,,,,,,,,,,,"Abeyratne, S.A., Monfared, R.P., Blockchain ready manufacturing supply chain using distributed ledger (2016) International Journal of Engineering Research & Technology, 5 (9), pp. 1-10; Ahmed, W., Sarkar, B., Impact of carbon emissions in a sustainable supply chain management for a second generation biofuel (2018) Journal of Cleaner Production, 186 (3), pp. 807-820. , https://doi.org/10.1016/j.jclepro.2018.02.289; Appolloni, A., Sun, H., Fu, J., Li, X., Green procurement in the private sector: a state of the art review between 1996 and 2013 (2014) Journal of Cleaner Production, 85 (1), pp. 122-133; Aquilani, B., Silvestri, C., Ruggieri, A., Gatti, C., A systematic literature review on total quality management critical success factors and the identification of new avenues of research (2017) The TQM Journal, 29 (1), pp. 184-213. , https://doi.org/10.1108/TQM-01-2016-0003; Awasthi, A., Chauhan, S.S., Goyal, S.K., A fuzzy multi-criteria approach for evaluating environmental performance of suppliers (2010) International Journal of Production Economics, 126 (2), pp. 370-378; Azadnia, A.H., Mat Saman, M.Z., Yew Wong, K., Sustainable supplier selection and order lot-sizing: an integrated multi-objective decision-making process (2014) International Journal of Production Research, 53 (2), pp. 383-408; Babbar, C., Amin, S.H., A multi-objective mathematical model integrating environmental concerns for supplier selection and order allocation based on fuzzy QFD in beverages industry (2018) Expert Systems with Applications, 92 (C), pp. 27-38. , https://doi.org/10.1016/j.eswa.2017.09.041; Bai, C., Sarkis, J., Green supplier development: analytical evaluation using rough set theory (2010) Journal of Cleaner Production, 18 (12), pp. 1200-1210; Banerjee, A., Information technology enabled process re-engineering for supply chain leagility (2015) International Journal of Information Technology and Management, 14 (1), pp. 60-75; Bergendahl, J.A., Sarkis, J., Timko, M.T., Transdisciplinary and the food energy and water nexus: ecological modernization and supply chain sustainability perspectives (2018) Resources, Conservation and Recycling, 133 (1), pp. 309-319; Chaudhuri, A., Dukovska-Popovska, I., Subramanian, N., Chan, H.K., Bai, R., Decision-making in cold chain logistics using data analytics: a literature review (2018) International Journal of Logistics Management, 29 (3), pp. 839-861; Daniel Jiménez-Jiménez, M., Martinez-Costa, A.R., Martínez-Lorente, H.A., Rabeh, D., Total quality management performance in multinational companies: a learning perspective (2015) The TQM Journal, 27 (3), pp. 328-340. , https://doi.org/10.1108/TQM-01-2014-0002; Dawson, G.F., Probert, E.J., A sustainable product needing a sustainable procurement commitment: the case of green waste in Wales (2007) Sustainable Development, 15 (2), pp. 69-82; Fu, B., Shu, Z., Liu, X., Blockchain enhanced emission trading framework in fashion apparel manufacturing industry (2018) Sustainability, 10, p. 1105; Groening, C., Sarkis, J., Zhu, Q., Green marketing consumer-level theory review: a compendium of applied theories and further research directions (2018) Journal of Cleaner Production, 172 (1), pp. 1848-1866; Hollos, D., Blome, C., Foerst, K., Does sustainable supplier co-operation affect performance? 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Walker, H., Brammer, S., Sustainable procurement in the United Kingdom public sector (2009) Supply Chain Management: An International Journal, 14 (2), pp. 128-137; Wu, Z., Pagell, M., Balancing priorities: decision-making in sustainable supply chain management (2011) Journal of Operation Management, 29 (6), pp. 577-590; Zsidisin, G.A., Siferd, S.P., Environmental purchasing: a framework for theory development (2001) European Journal of Purchasing & Supply Management, 7 (1), pp. 61-73. , https://doi.org/10.1016/S0969-7012(00)00007-1; Bai, C., Sarkis, J., Wei, X., Addressing key sustainable supply chain management issues using rough set methodology (2010) Management Research Review, 33 (12), pp. 1113-1127; Chaabane, A., Ramudhin, A., Paquet, M., Designing supply chains with sustainability considerations (2011) Production Planning and Control Management Operations, 22 (8), pp. 727-741; Dandage, R., Mantha, S., Rane, S., Ranking the risk categories in international projects using the TOPSIS method (2018) International Journal of Managing Projects in Business, 11 (2), pp. 317-331; Dandage, R., Mantha, S., Rane, S., Strategy development using TOWS matrix for international project risk management based on prioritization of risk categories (2019) International Journal of Managing Projects in Business, , https://doi.org/10.1108/IJMPB-07-2018-0128; Dandage, R.V., Mantha, S.S., Rane, S.B., Bhoola, V., Analysis of interactions among barriers in project risk management (2018) Journal of Industrial Engineering International, 14, p. 153. , https://doi.org/10.1007/s40092-017-0215-9; Favi, C., Germani, M., Mandolini, M., Marconi, M., Implementation of a software platform to support an eco-design methodology within a manufacturing firm (2018) International Journal of Sustainable Engineering, 11, pp. 79-96; Foerstl, K., Meinlschmidt, J., Busse, C., It’s a match! Choosing information processing mechanisms to address sustainability-related uncertainty in sustainable supply management (2018) Journal of Purchasing and Supply Management, 24, pp. 204-217; Francisco, K., Swanson, D., The supply chain has no clothes: technology adoption of blockchain for supply chain transparency (2018) Logistics, 2, p. 2; Govindan, K., Khodaverdi, R., Jafarian, A., A fuzzy multi criteria approach for measuring sustainability performance of a supplier based on triple bottom line approach (2013) Journal of Cleaner Production, 47, pp. 345-354; Govindan, K., Rajendran, S., Sarkis, J., Murugesan, P., Multi criteria decision making approaches for green supplier evaluation and selection: a literature review (2015) Journal of Cleaner Production, 98, pp. 66-83. , https://doi.org/10.1016/j.jclepro.2013.06.046; Grimm, J.H., Hofstetter, J.S., Sarkis, J., Exploring sub-suppliers’ compliance with corporate sustainability standards (2016) Journal of Cleaner Production, 112, pp. 1971-1984; Hassini, E., Surti, C., Searcy, C., A literature review and a case study of sustainable supply chains with a focus on metrics (2012) International Journal of Production Economics, 140 (1), pp. 69-82; Hervani, A.A., Helms, M.M., Sarkis, J., Performance measurement for green supply chain management (2005) Benchmarking: An International Journal, 12, pp. 330-353; Hsu, C.H., Wang, F.K., Tzeng, G.H., The best vendor selection for conducting the recycled material based on a hybrid MCDM model combining DANP with VIKOR (2012) Resources, Conservation and Recycling, 66, pp. 95-111. , https://doi.org/10.1016/j.resconrec.2012.02.009; Hutchins, M.J., Sutherland, J.W., An exploration of measures of social sustainability and their application to supply chain decisions (2008) Journal of Cleaner Production, 16 (15), pp. 1688-1698; Jabbour, A.B.L.S., Jabbour, C.J.C., Are supplier selection criteria going green? Case studies of companies in Brazil (2009) Industrial Management and Data Systems, 109 (4), pp. 477-495; Jadhav, J.R., Mantha, S.S., Rane, S.B., Practice bundles for integrated green-lean manufacturing systems (2013) International Journal of Computer Applications, 7, pp. 975-8887; Jadhav, J.R., Mantha, S.S., Rane, S.B., Barriers for successful implementation of JIT: a manufacturer perspective (2014) International Journal of Procurement Management, 7 (3), pp. 316-342; Jadhav, J.R., Mantha, S.S., Rane, S.B., Development of framework for sustainable Lean implementation: an ISM approach (2014) Journal of Industrial Engineering International, 10 (3), pp. 72-84; Kirkire, M.S., Rane, S.B., Jadhav, J.R., Risk management in medical product development process using traditional FMEA and fuzzy linguistic approach: a case study (2015) Journal of Industrial Engineering International, 11 (4), pp. 595-611; Klassen, R.D., Vachon, S., Collaboration and evaluation in the supply chain: the impact on plant-level environmental investment (2003) Production and Operation Management, 12 (3), pp. 336-353; Krause, D.R., Vachon, S., Klassen, R.D., Special topic forum on sustainable supply chain management: introduction and reflections on the role of purchasing management (2009) Journal of Supply Chain Management, 45 (4), pp. 18-25; Lee, A.H.I., Kang, H.-Y., Hsu, C.-F., Hung, H.-C., A green supplier selection model for high-tech industry (2009) Expert Systems with Applications, 36 (4), pp. 7917-7927; Lee, K.-H., Why and how to adopt green management into business organizations? The case study of Korean SMEs in manufacturing industry (2009) Management Decision, 47 (7), pp. 1101-1121; Lee, S., Klassen, R.D., Drivers and enablers that foster environmental management capabilities in small and medium-sized suppliers in supply chains (2008) Production and Operation Management, 17 (6), pp. 573-586; Lee, S.-Y., Drivers for the participation of small and medium-sized suppliers in green supply chain initiatives (2008) Supply Chain Management: An International Journal, 13 (3), pp. 185-198; Lu, L.Y.Y., Wu, C.H., Kuo, T.-C., Environmental principles applicable to green supplier evaluation by using multi-objective decision analysis (2007) International Journal of Production Research, 45 (18-19), pp. 4311-4337; Pagell, M., Wu, Z., Wasserman, M.E., Thinking differently about purchasing portfolios e an assessment of sustainable sourcing (2010) Journal of Supply Chain Management, 46 (1), pp. 19-45; Rane, A.B., Sunnapwar, V.K., Rane, S., Strategies to overcome the HR barriers in successful lean implementation (2016) International Journal of Procurement Management, 9 (2), pp. 223-247. , https://doi.org/10.1504/IJPM.2016.075266; Rane, S., Narvel, Y.A.M., Re-designing the business organisation using disruptive innovations based on Blockchain-loT integrated architecture for improving agility in future industry 4.0 (2019) Benchmarking: An International Journal; Sarkar, B., Ahmed, W., Kim, N., Joint effects of variable carbon emission cost and multi-delay-in-payments under single-setup-multiple-delivery policy in a global sustainable supply chain (2018) Journal of Cleaner Production, 185, pp. 421-445; Sarkar, B., Ullah, M., Kim, N., Environmental and economic assessment of closed-loop supply chain with remanufacturing and returnable transport items (2017) Computers & Industrial Engineering, 111, pp. 148-163; Sarkar, B., Ganguly, B., Sarkar, M., Pareek, S., Effect of variable transportation and carbon emission in a three-echelon supply chain model (2016) Transportation Research Part E, 91, pp. 112-128; Sarkis, J., Zhu, Q., Lai, K.-H., An organizational theoretic review of green supply chain management literature (2011) International Journal of Production Economics, 130, pp. 1-15; Seuring, S., A review of modelling approaches for sustainable supply chain management (2013) Decision Support System, 54 (4), pp. 1513-1520; Tuzkaya, G., Ozgen, A., Ozgen, D., Tuzkaya, U.R., Environmental performance evaluation of suppliers: a hybrid fuzzy multi-criteria decision approach (2009) International Journal of Environmental Science and Technology, 6 (3), pp. 477-490; Vachon, S., Mao, Z., Linking supply chain strength to sustainable development: a country-level analysis (2008) Journal of Cleaner Production, 16 (15), pp. 1552-1560; Walker, H., Miemcyzk, J., Johnsen, T., Spencer, R., Sustainable procurement: past, present and future (2012) Journal of Purchasing and Supply Management, 18 (4), pp. 201-206; Zhu, Q., Sarkis, J., Lai, K., Confirmation of a measurement model for green supply chain management practices implementation (2008) International Journal of Production Economics, 111 (2), pp. 261-273","Thakker, S.V.; Sardar Patel College of EngineeringIndia; email: shivangiruparel@somaiya.edu",,,"Emerald Group Holdings Ltd.",,,,,14777835,,,,"English","Manage. Environ. Qual.",Article,"Final","",Scopus,2-s2.0-85077701328
"Prakash Chaudhari C., Bhole K.","57214990639;55485785300;","A review on characteristics of natural fibre composite",2020,"IOP Conference Series: Materials Science and Engineering","810","1","012007","","",,3,"10.1088/1757-899X/810/1/012007","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084587268&doi=10.1088%2f1757-899X%2f810%2f1%2f012007&partnerID=40&md5=cce0130e8e69d1bc88398a8a50a82262","Sardar Patel College of Engineering, Andheri West-Mumbai, 400058, India","Prakash Chaudhari, C., Sardar Patel College of Engineering, Andheri West-Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Andheri West-Mumbai, 400058, India","Since the last we saw huge growth in innovation and research in field of natural fibre composite (NFC). Availability of Natural Fibres (like coir, abaca, banana, jute, sisal, cotton) are huge in India. It is not surprising that the natural fibre composite is attracting the researchers all around the world because of superiority of its compared to other fibre composites and their capabilities in wide range of applications. The present study aims at various applications of natural fibre composite and their mechanical characteristics. This review also provides the various aspects that affects the mechanical characteristics of natural fibre. © 2020 IOP Publishing Ltd. All rights reserved.","Applications; Composite; Mechanical Properties; Natural Fibre",,,,,,,,,,,,,,,,,"Faissal, C., Behrouz, T., Tai Bruce, L., Mohamed El, M., Bukkapatnam Satish, T.S., Thermal effects on tribological behavior in machining natural fiber composites (2018) 46th SME North American Manufacturing Research Conference, Procedia Manufacturing, 26, pp. 305-316; Mulinari, D.R., Baptista, C.A.R.P., Souza, J.V.C., Voorwald, H.J.C., Mechanical properties of coconut fibers reinforced polyester composites (2011) Procedia Engineering, 10, pp. 2074-2079; Amir, N., Kamal Ariff Zainal, A., Faizzaty Binti Md, S., Effects of fibre configuration on mechanical properties of banana fibre/pp/mapp natural fibre reinforced polymer composite (2017) Advances in Material & Processing Technologies Conference, Procedia Engineering, 184, pp. 573-580; Pickering, K.L., Aruan Efendy, M.G., Le, T.M., A review of recent developments in natural fibre composites and their mechanical performance (2016) Composites: Part A, 83, pp. 98-112; Kin-Tak, L., Pui-Yan, H., Min-Hao, Z., David, H., Properties of natural fibre composites for structural engineering applications (2018) Composites: Part B, 136, pp. 222-233; Swagata, D., Nam Kyeun, K., Raj, D., Debes, B., Effects of sample orientation on the fire reaction properties of natural fibre composites (2019) Composites: Part B, 157, pp. 195-206; Alexander, H., John, S., Effect of time at temperature for natural fibres (2017) 3rd International Conference on Natural Fibers-Advanced Materials for A Greener World, Procedia Engineering, 200, pp. 269-275; Elanchezhian, C., Vijaya Ramnath, B., Ramakrishnan, G., Rajendrakumar, M., Naveenkumar, V., Saravanakumar, M.K., Review on mechanical properties of natural fiber composites (2018) Materials Today: Proceedings, 5, pp. 1785-1790; Changduk, K., Haseung, L., Hyunbum, P., Design and manufacturing of automobile hood using natural composite structure (2016) Composites: Part B, 91, pp. 18-26; Kim, N.K., Dutta, S., Bhattacharyya, D., A review of flammability of natural fibre reinforced polymeric composites (2018) Composites Science and Technology, 162, pp. 64-78; Lisa, B., Amina, F., Said, M., Gilles, L., Laurent, R., Elaboration and properties of a composite bio-based PCM for an application in building envelopes (2018) Construction and Building Materials, 185, pp. 156-165; Kalagi Ganesh, R., Rajashekar, P., Narayan, N., Experimental study on mechanical properties of natural fiber reinforced polymer composite materials for wind turbine blades (2018) Materials Today: Proceedings, 5, pp. 2588-2596; Andrea, S., Paolo, B., Patrizio, F., Cristina, M., Valentina, M., Francesco, M., Francesco, P., Improving the sound absorption performance of sustainable thermal insulation materials: Natural hemp fibres (2019) Applied Acoustics, 150, pp. 279-289; Obinna, O., Nemkumar, B., Plant-based natural fibre reinforced cement composites: A review (2016) Cement and Concrete Composites, 68, pp. 96-108; Layth, M., Ansari, M.N.M., Grace, P., Mohammad, J., Saiful Islam, M., A Review on Natural Fiber Reinforced Polymer Composite and Its Applications (2015) International Journal of Polymer Science, 2015, p. 1; Saravana Bavan, D., Mohan Kumar, G.C., Potential use of natural fiber composite materials in India (2010) Journal of Reinforced Plastics and Composites OnlineFirst, pp. 1-4",,,,"Institute of Physics Publishing","2nd International Conference on Emerging trends in Manufacturing, Engines and Modelling, ICEMEM 2019","23 December 2019 through 24 December 2019",,159592,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85084587268
"Mateen S.A., Bhole K.S.","57216759724;55485785300;","A review on microfluidic devices for separation of blood constituents",2020,"IOP Conference Series: Materials Science and Engineering","810","1","012024","","",,1,"10.1088/1757-899X/810/1/012024","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084583287&doi=10.1088%2f1757-899X%2f810%2f1%2f012024&partnerID=40&md5=d3d11f8fdd1409ca991cf672058413d2","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Mateen, S.A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","This paper presents review of microfluidic device used for extraction of red blood cell, white blood cell, and plasma from the whole blood sample. . Micro fluidic based cell separation has various advantages as it reduces sample size, faster sample processing, has more sensitivity and low device cost as compared to the conventional method of blood cell separation. Basically there are two techniques for blood separation using microfluidic device, one is called active separation and another is passive separation method. The review highlights various cell separation methods. We will also take review on microfluidic based blood cell separation techniques. Separation of blood cells helps in clinical diagnosis and therapeutic research. © 2020 IOP Publishing Ltd. All rights reserved.",,,,,,,,,,,,,,,,,,"Siddhartha, T., Varun Kumar, Y.V., Amit, P., Passive blood plasma separation at the microscale: A review of design principles and microdevices (2015) J. Micromech. Micromechanics and Micro Engineering, p. 1; Fung, Y.C., (1981) Biomechanics-Mechanical Properties of Living Tissues, 103 (4), p. 231; Spell, D.W., Jones, D.V., Harper, W.F., David Bessman, J., The value of a complete blood count in predicting cancer of the colon (2004) Cancer Detection and Prevention, 28 (1), p. 37; Da Han, K., Chia Chien, W., Wei Yu, S., Nien Tsu, H., A Microfluidic Device for Simultaneous Extraction of Plasma (2018) Red Blood Cells, and On-Chip White Blood Cell Trapping Scientific Reports 1; Yuta, N., Sakiko, H., Yasuda, Blood plasma separation and extraction from a minute amount of blood using dielectrophoretic and capillary forces (2009) Science Direct, 145, p. 561; Turgeon, M.L., Clinical Hematology 2005 Theory and Procedures; Kim, M., Mo Jung, S., Jun Kang, L., Yang, S., (2010) A Microfluidic Device for Continuous White Blood Cell Separation and Lysis from Whole Artificial Organs, 34, p. 996; Davis, J.A., Deterministic hydrodynamics: Taking blood apart (2006) Proceedings of the National Academy of Sciences, 103 (40), p. 14779; Dimov, I.K., Stand-alone self-powered integrated microfluidic blood analysis system (SIMBAS) (2011) Lab on A Chip, 11 (5), p. 845; Seo, H.K., Kim, Y.H., Kim, H.O., Kim, Y.J., Hybrid cell sorters for on-chip cell separation by hydrodynamics and magnetophoresi (2010) Journal of Micromechanics and Microengineering, 20, p. 223; Madadi, M., Casals-Terré, J., Sellarès, J., Hydrodynamic and direct-current insulator-based dielectrophoresis (H-DC-iDEP) microfluidic blood plasma separation (2015) Analytical and Bioanalytical Chemistry, 407 (16), p. 4733; Chen, Y., High-throughput acoustic separation of platelets from whole blood (2016) Lab Chip, 16 (18), p. 3466; Szydzik, C., Khoshmanesh, K., Mitchell, A., Karnutsch, C., Microfluidic platform for separation and extraction of plasma from whole blood using dielectrophoresis (2015) Biomicrofluidics, 9 (6); Prasanna, G., Kiran, B., (2011) ASME International Mechanical Engineering Congress and Exposition; Kiran, B., Sunil, E., Prasanna, G., Fabrication of Continuously Varying Thickness Micro-cantilever using Bulk Lithography Process (2014) ASME International Manufacturing Science and Engineering Conference; Kiran, B., Prasanna, G., Kundu, T., On the Evolution of Cured Voxel in Bulk Photopolymerization upon Gaussian Laser Exposure (2014) Journal of Applied Physics, 116 (4); Prasanna, G., Kiran, B., Characterization of 'Bulk Lithography' Process for Fabrication of 3D Micro-structures (2013) ASME Journal on Nano and Micro Manufacturing, 1 (1); Prasanna, G., Suhas, D., Rahul, R., Kiran, B., Alem, B., On-axis Linear Focused Spot Scanning Microstereolithography System: Optomechatronic Design (2013) Analysis and Development, Journal of Advanced Manufacturing Systems, 12 (1), p. 43; Han, K.H., Frazier, A.B., Paramagnetic capture mode magnetophoretic microseparator for high efficiency blood cell separations (2006) Lab on A Chip, 6 (2), p. 265; Dow, P., Kotz, K., Gruszka, S., Holder, J., Fiering, J., Acoustic separation in plastic microfluidics for rapid detection of bacteria in blood using engineered bacteriophage (2018) Lab Chip, 18 (6), p. 923; Yang, S., Undar, A., Zahn, J.D., A microfluidic device for continuous, real time blood plasma separation (2006) Lab on A Chip, 6 (7), p. 871",,,,"Institute of Physics Publishing","2nd International Conference on Emerging trends in Manufacturing, Engines and Modelling, ICEMEM 2019","23 December 2019 through 24 December 2019",,159592,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85084583287
"Devkare S.S., Bhole K.S.","57216757287;55485785300;","Review of Micro cantilever sensors for detecting diseases: Fabrication Methodologies and sensing techniques",2020,"IOP Conference Series: Materials Science and Engineering","810","1","012069","","",,,"10.1088/1757-899X/810/1/012069","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084573882&doi=10.1088%2f1757-899X%2f810%2f1%2f012069&partnerID=40&md5=a403207f96d94178a9d132785411e8e6","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Devkare, S.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Recently Lab on chip devices are widely used for detecting various diseases. Cantilever being used as commonly among variety of sensors used on such chips. This paper presents review of various fabrication methodology and analysis techniques used in sensing diseases using micro-cantilever sensors. The principal aim in detecting diseases using blood sample is to know concentration of antigens or bacteria in sample. This also provides stage of disease in the patient. Various techniques such as ELISA (Enzyme Linked Immunosorbent Assay), Radio-Immuno Assay, X-ray are used for detecting the stages of disease. However, time required in these techniques is very large. To reduce the time in detection, simple micro cantilever Bio-sensor is used widely. For the purpose of detection, cantilevers are coated with antibody to attract the antigens from blood sample which is dropped on cantilever beam. Antigens that get adhered to the surface of cantilever thus develop a surface stress causes bending of cantilever. This redirection of the cantilever can be detected by various strategies and thus we can predict about the concentration of the antibodies in a particular blood sample. This paper exhaustively presents the fabrication methodology and disease detection technique using micro-cantilever. © 2020 IOP Publishing Ltd. All rights reserved.",,,,,,,"Ministry of Communication and Information Technology, MCIT; DIT University, DITU","[3] Sneha Dhakane and W V Patil 2013 Piezo-resistive method for tuberculosis detection using Micro-cantilever biosensor, Micro system Technologies 457. [4] P.Sangeetha and Dr. A Vimala Juliet 2013 Biosensor for Tuberculosis detection using MEMS device, 3rd International Conference on Electronics, Biomedical Engineering and its Applications 52. [5] Deep Kishore Parsediya 2016 Deflection and Stresses of Effective Micro-cantilever Beam designs under low mass loading, International Conference on Electrical Power and Energy Systems (ICEPES) 1111. [6] Dr. Rajendra Patrikar , Mrs. Jayu Kalambe 2013 Fabrication of Micro-cantilever Based Sensor, Research Project at Indian Institute of Technology Bombay under Indian Nano electronics User Program (INUP) sponsored by DIT, MCIT Government of India 1. [7] Prasanna Gandhi and Kiran Bhole 2011 USA 3D Microfabrication using Bulk Lithography, ASME International Mechanical Engineering Congress and Expositio 393. [8] Kiran Bhole, Sunil Ekshinge, and Prasanna Gandhi 2014 USA Fabrication of Continuously Varying Thickness Micro-cantilever using Bulk Lithography Process, ASME International Manufacturing Science and Engineering Conference V001T01A009. [9] Kiran Bhole, Prasanna Gandhi, and T Kundu,2014 On the Evolution of Cured Voxel in Bulk Photopolymerization upon Gaussian Laser Exposure, Journal of Applied Physics, 116. [10] Prasanna Gandhi and Kiran Bhole 2013 Characterization of ‘Bulk Lithography’ Process for Fabrication of 3D Micro-structures, ASME Journal on Nano and Micro Manufacturing 1.",,,,,,,,,,"Sangeetha, P., Vimala Juliet, A., (2014) Simulation and Analysis of Micro Cantilever Sensor for Enhanced Bio Sensing of Disease Causing Pathogens, IJEDR Conference Proceeding (NCETSE-2014), p. 131; Tzeng, T.J., Cheng, Y.R., (2011) Adhesin-Specific Nano Mechanical Cantilever Biosensors for Detection of Microorganisms, ASME, p. 1; Sneha, D., Patil, W.V., (2013) Piezo-resistive Method for Tuberculosis Detection Using Micro-cantilever Biosensor, p. 457; Sangeetha, P., Vimala Juliet, A., Biosensor for Tuberculosis detection using MEMS device (2013) 3rd International Conference on Electronics, Biomedical Engineering and Its Applications, p. 52; Deep Kishore, P., Deflection and Stresses of Effective Micro-cantilever Beam designs under low mass loading (2016) International Conference on Electrical Power and Energy Systems (ICEPES), p. 111; Rajendra, P., Kalambe, J., (2013) Research Project at Indian Institute of Technology Bombay under Indian Nano Electronics User Program (INUP) Sponsored by DIT, p. 1; Prasanna, G., Kiran, B., USA 3D Microfabrication using Bulk Lithography (2011) ASME International Mechanical Engineering Congress and Expositio, p. 393; Kiran, B., Sunil, E., Prasanna, G., USA Fabrication of Continuously Varying Thickness Micro-cantilever using Bulk Lithography Process (2014) ASME International Manufacturing Science and Engineering Conference; Kiran, B., Prasanna, G., Kundu, T., On the Evolution of Cured Voxel in Bulk Photopolymerization upon Gaussian Laser Exposure (2014) Journal of Applied Physics, p. 116; Prasanna, G., Kiran, B., Characterization of 'Bulk Lithography' Process for Fabrication of 3D Micro-structures (2013) ASME Journal on Nano and Micro Manufacturing, p. 1; Prasanna, G., Suhas, D., Rahul, R., Kiran, B., Alem, B., On-axis Linear Focused Spot Scanning Microstereolithography System: Optomechatronic Design, Analysis and Development (2013) Journal of Advanced Manufacturing Systems, 12 (1), p. 43; Cifre, J., Bertomeu, J., Puigdollers, J., Polo, M.C., Andreu, J., Lloret, A., Polycrystalline silicon films obtained by Hot Wire Chemical Vapour Deposition (1994) Applied Physics, 59 (6), p. 645; Avaram, M., Avaram, A., Comanescu, F., Popescu, A.M., Voitincu, C., Romania Reactive Ion Etching for patterning high aspect ratio and Nano scale features (2009) National Institute for Research and Development in Micro Technologies, p. 253; Zewen, Z., Yu, W., Yu, X., Jin, L., Junzhuan, W., Lin, P., Yi, S., (2010) Structural Evolution of the Incubation Layer in Microcrystalline Silicon Films Deposited by Jet-ICPCVD, p. 1; Sandeep Kumar, V., A Review of Micro cantilevers for Sensing Applications, AZojono (2007) A Journal on Nanotechnology Online, p. 1; Sudip, N., Kale Nitin, S., Ramgopal Rao, V., Sharma Dinesh, K., An Ultra-sensitive R/R Measurement System for Biochemical Sensors using Piezoresistive Micro-Cantilevers (2009) 31st Annual International Conference of the IEEE EMBS, p. 3794; Ahsan Saeed, M., Khan Shahbaz, M., Nisar, A., Umair Khan, M., Design and Analysis of Capacitance based Bio MEMS Cantilever Sensor for Tuberculosis Detection (2016) IEEE, p. 1; Wachter, E.A., Thundat, T., Oden, P.I., Warmack, R.J., (1996) Remote Optical Detection Using Micro Cantilevers, American Institute of Physics, p. 3434; Christiane, Z., (2004) Cantilever-based Biosensors, Analytical and Bio Analytical Chemistry, p. 946",,,,"Institute of Physics Publishing","2nd International Conference on Emerging trends in Manufacturing, Engines and Modelling, ICEMEM 2019","23 December 2019 through 24 December 2019",,159592,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85084573882
"Gaikwad L., Sunnapwar V.","56198941700;6504099005;","An integrated Lean, Green and Six Sigma strategies: A systematic literature review and directions for future research",2020,"TQM Journal","32","2",,"201","225",,30,"10.1108/TQM-08-2018-0114","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078978841&doi=10.1108%2fTQM-08-2018-0114&partnerID=40&md5=8a35e60c1c81b5117fdb64faaf7ec321","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, India","Gaikwad, L., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sunnapwar, V., Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, India","Purpose: The purpose of this paper is to present a systematic literature review and its analysis concerning a possible framework, compatibility, drivers and barriers for integrating three manufacturing strategies – Lean, Green and Six Sigma. In particular, analyzing current proposals and identifying the literature gaps in the existing literature from which future research directions and challenges have been suggested for developing a specific integrated framework for the Indian manufacturing industry. Design/methodology/approach: This study explores manufacturing strategic area in depth through literature review, which will point out to the better understanding of the compatibility and impact of these initiatives through the conceptual framework, on the performance of the manufacturing organization. Findings: The review of shortlisted articles indicates that Lean, Green and Six Sigma (LGSS) strategies help the manufacturing organizations to compete in global markets through the impact of a sustainability strategy for their business. Various researchers provide evidence of challenges like cost reduction, quality improvement, on-time delivery, changing needs of the customers and scarce resources that can be overcome through these strategies to achieve overall business objectives. Research limitations/implications: In this research, only works of literature related to LGSS and sustainability have been studied so information related to linking between these strategies in manufacturing industries is limited. Practical implications: Help the manufacturing practitioners to deploy three strategies simultaneously in an environment when the linking among LGSS methods in manufacturing industries has not been established. Hence simultaneous deployment of these three strategies helps the organization to boost its operational and environmental performance. Social implications: The strategies, LGSS, will be adopted in the operational management to reduce both waste and pollution which will definitely help to society. It will highlight the need for cost effective and easy to implement solutions as well as brand building, which is one of the top incentives for LGSS, highlighting the importance of public perception of how companies operate. Originality/value: An integrated framework of the LGSS will help the Indian manufacturing industries to improve performance and competitiveness in the global market. © 2020, Emerald Publishing Limited.","Green; Integrated framework; Lean; Six Sigma; Systematic literature review","Competition; Cost effectiveness; Cost reduction; Environmental management; Industrial research; International trade; Process engineering; Process monitoring; Silicon; Six sigma; Sustainable development; Waste management; Work simplification; Design/methodology/approach; Future research directions; Green; Integrated frameworks; Lean; Manufacturing organizations; Sustainability strategies; Systematic literature review; Green manufacturing",,,,,,,,,,,,,,,,"Andersson, R., Eriksson, H., Torstensson, H., Similarities and differences between TQM, Six Sigma and Lean (2006) The TQM Magazine, 18 (3), pp. 282-296; Andrea, P., Found, P., Bernardes, A.M., A Lean and Green model for a production cell (2014) Journal of Cleaner Production, 85, pp. 19-30; 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"Karekar P., Shrutika C., Pimple B.B.","57216864888;57216857501;36976185300;","Torque Ripple Minimization of BLDC motor Drive using DC Link Current Control with Low Pass Compensator",2020,"2020 International Conference on Power Electronics and IoT Applications in Renewable Energy and its Control, PARC 2020",,,"9087180","107","112",,2,"10.1109/PARC49193.2020.236567","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084978196&doi=10.1109%2fPARC49193.2020.236567&partnerID=40&md5=e3cf2ccc471b78ffac5efa7d49a6b57c","Sardar Patel College of Engineering, EED, Mumbai, India","Karekar, P., Sardar Patel College of Engineering, EED, Mumbai, India; Shrutika, C., Sardar Patel College of Engineering, EED, Mumbai, India; Pimple, B.B., Sardar Patel College of Engineering, EED, Mumbai, India","This paper presents a dc link current control technique for BLDC motor which has an ability to reduce commutation torque ripple significantly. As compare to other torque ripple minimization techniques, it does not require torque observer and calculation of commutation time. Torque is regulated by dc link current control loop in both steady and commutation period. Saturation phenomenon of Proportional-Integral (PI) controller in commutation period is analysed which causes a commutation torque ripple. To avoid this saturation, a Modified Pulse Width Modulation (MPWM) technique which eliminates reverse dc link current and Low Pass (LP) compensation in current sensor is used because of which controllability of PI controller can be achieved in commutation period and ripple can be minimized. The study is carried out on BLDC motor with 1500rpm, 5N.m capacity and effectiveness of proposed control method is verified through simulation on MATLAB simulink. © 2020 IEEE.","BLDC motor; Commutation torque ripple; DC link current reversal; Low Pass (LP) compensator; PI controller","AC motors; Brushless DC motors; Controllers; Electric current control; Electric drives; Internet of things; MATLAB; Power electronics; Torque; Two term control systems; Voltage control; Commutation time; Commutation torque ripple; Current sensors; Dc link currents; MATLAB/ SIMULINK; Proportional integral controllers; Saturation phenomenons; Torque ripple minimization; Electric machine control",,,,,,,,,,,,,,,,"Kim, D.-K., Lee, K.-W., Kwon, B.-I., Commutation torque ripple reduction in a position sensorless brushless dc motor drive (2006) IEEE Transactions on Power Electronics, 21 (6), pp. 1762-1768; Krishnan, R., (2017) Permanent Magnet Synchronous and Brushless DC Motor Drives, , crc press; Carlson, R., Lajoie-Mazenc, M., Fagundes, J., Analysis of torque ripple due to phase commutation in brushless dc machines (1992) IEEE Transactions on Industry Applications, 28 (3), pp. 632-638; Holtz, J., Springob, L., Identification and compensation of torque ripple in high-precision permanent magnet motor drives (1996) IEEE Transactions on Industrial Electronics, 43 (2), pp. 309-320; Li, T., Slemon, G., Reduction of cogging torque in permanent magnet motors (1988) IEEE Transactions on Magnetics, 24 (6), pp. 2901-2903; Urasaki, N., Senjyu, T., Kinjo, T., Funabashi, T., Sekine, H., Dead-time compensation strategy for permanent magnet synchronous motor drive taking zero-current clamp and parasitic capacitance effects into account (2005) IEE Proceedings-Electric Power Applications, 152 (4), pp. 845-853; Pindoriya, R., Mishra, A., Rajpurohit, B., Kumar, R., An analysis of vibration and acoustic noise of bldc motor drive (2018) 2018 IEEE Power & Energy Society General Meeting (PESGM), pp. 1-5. , ieee; Bianchi, N., Bolognani, S., Design techniques for reducing the cogging torque in surface-mounted pm motors (2002) IEEE Transactions on Industry Applications, 38 (5), pp. 1259-1265; Fang, J., Li, H., Han, B., Torque ripple reduction in bldc torque motor with nonideal back emf (2011) IEEE Transactions on Power Electronics, 27 (11), pp. 4630-4637; Wang, S., Bldc ripple torque reduction via modified sinusoidal pwm (2008) Fairchild Semiconductor Power Seminar 2009, pp. 1-10. , Citeseer; Liu, Y., Zhu, Z.Q., Howe, D., Commutation-torque-ripple minimization in direct-torque-controlled pm brushless dc drives (2007) IEEE Transactions on Industry Applications, 43 (4), pp. 1012-1021; Yao, X., Lu, G., Zhao, J., Lin, H., Torque ripple minimization in brushless dc motor with optimal current vector control technique 2018 Chinese Automation Congress CAC, pp. 2524-2529. , ieee; Masmoudi, M., El Badsi, B., Masmoudi, A., Direct torque control of brushless dc motor drives with improved reliability (2014) IEEE Transactions on Industry Applications, 50 (6), pp. 3744-3753. , Nov; Yao, X., Zhao, J., Wang, J., Huang, S., Jiang, Y., Commutation torque ripple reduction for brushless dc motor based on an auxiliary step-up circuit (2019) IEEE Access, 7 (721), p. 138. , 138 731; Jiang, G., Xia, C., Chen, W., Shi, T., Li, X., Cao, Y., Commutation torque ripple suppression strategy for brushless dc motors with a novel noninductive boost front end (2018) IEEE Transactions on Power Electronics, 33 (5), pp. 4274-4284. , May; Song, J.-H., Choy, I., Commutation torque ripple reduction in brushless dc motor drives using a single dc current sensor (2004) IEEE Transactions on Power Electronics, 19 (2), pp. 312-319; Lai, Y.-S., Shyu, F.-S., Lin, Y.-K., Novel pwm technique without causing reversal dc-link current for brushless dc motor drives with bootstrap driver (2005) Fourtieth IAS Annual Meeting. Conference Record of the 2005 Industry Applications Conference, 2005., 3, pp. 2182-2188. , ieee",,,,"Institute of Electrical and Electronics Engineers Inc.","2020 International Conference on Power Electronics and IoT Applications in Renewable Energy and its Control, PARC 2020","28 February 2020 through 29 February 2020",,159720,,9781728165752,,,"English","Int. Conf. Power Electron. IoT Appl. Renew. Energy Control, PARC",Conference Paper,"Final","",Scopus,2-s2.0-85084978196
"Rane S.B., Narvel Y.A.M., Bhandarkar B.M.","56149402100;57192108846;57192102198;","Developing strategies to improve agility in the project procurement management (PPM) process: Perspective of business intelligence (BI)",2020,"Business Process Management Journal","26","1",,"257","286",,23,"10.1108/BPMJ-07-2017-0196","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073976363&doi=10.1108%2fBPMJ-07-2017-0196&partnerID=40&md5=8c40b31b5876c5bf358f8fe98da687dc","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Digital Solutions, Oracle Practice, Larsen Toubro Infotech Ltd, Mumbai, India; Indian Institute of Industrial Engineering, Mumbai, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India, Digital Solutions, Oracle Practice, Larsen Toubro Infotech Ltd, Mumbai, India; Bhandarkar, B.M., Indian Institute of Industrial Engineering, Mumbai, India","Purpose: The ability of an organization to observe varying demands and efficiently meet them can be described as agility. Project procurement management (PPM) in the past was stable as things did not change very often and were very predictable. Due to hyper-competition, less predictable market and exponential innovation, the existing PPM becomes very unstable which marks the requirement of an agile model to manage procurement projects effectively. The paper aims to discuss this issue. Design/methodology/approach: For achieving the improvements, various barriers to improving agility in PPM were identified from the literature and experts’ review, followed by obtaining quantified impacts of identified barriers from the experts using the Delphi technique. Finally, interpretive structural modeling along with Matrice d’ Impacts Croises Multiplication Appliqué an Classement analysis was used to analyze the interactions among barriers to prioritize and strategize their mitigation. Findings: As per the analysis, the lack of top management alignment and commitment, lack of digital strategy, lack of new technology competencies and inefficiencies of financial factors were the most critical barriers that would come across while improving agility in PPM for any organization. Industries should have a stable, well-established and supportive top management that has a vision for digital transformation along with upgrading the companies’ technology layer for automating most of the manual processes to have intelligent decision-making capability. Originality/value: Industries need to be agile in their operations for being more competitive and responsive to the market. PPM being the most critical part of the entire value chain needs to be agile in the first place. The strategies developed as an output of this research can be utilized by industries for improving agility in their business processes. © 2019, Emerald Publishing Limited.","Agility; Business intelligence; Delphi; Interpretive structural modelling; MICMAC; Project procurement management",,,,,,,,,,,,,,,,,"Agarwal, A., Shankar, R., Tiwari, M.K., Modeling the metrics of lean, agile and leagile supply chain: an ANP-based approach (2006) European Journal of Operational Research, 173 (1), pp. 211-225; Aitken, J., Christopher, M., Towill, D., Understanding, implementing and exploiting agility and leanness (2002) International Journal of Logistics Research and Applications, 5 (1), pp. 59-74; Al‐Mashari, M., Zairi, M., BPR implementation process: an analysis of key success and failure factors (1999) Business Process Management Journal, 5 (1), pp. 87-112. , https://doi.org/10.1108/14637159910249108; Al‐Mashari, M., Zairi, M., Revisiting BPR: a holistic review of practice and development (2000) Business Process Management Journal, 6 (1), pp. 10-42. , https://doi.org/10.1108/14637150010283045; 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Swafford, P.M., Ghosh, S., Murthy, N., Achieving supply chain agility through IT integration and flexibility (2008) International Journal of Production Economics, 116 (2), pp. 288-297; Tan, K., Kannan, V., Handfield, R., Supply chain management: supplier performance and firm performance (1998) International Journal of Purchasing and Materials Management, 34 (3), pp. 2-9; Tassabehji, R., Moorhouse, A., The changing role of procurement: developing professional effectiveness (2008) Journal of Purchasing and Supply Management, 14 (1), pp. 55-68; Thakker, S.V., Rane, S.B., Implementation of green supplier development process model in Indian automobile industry (2018) Management of Environmental Quality: An International Journal, 29 (5), pp. 938-960. , https://doi.org/10.1108/MEQ-03-2018-0052; Thamir, A., Poulis, E., Business intelligence capabilities and implementation strategies (2015) International Journal of Global Business, 8 (1), pp. 34-35; Tiwari, R.K., Identification of factors affecting reverse chain performance in relation to customer satisfaction using ISM modelling and MICMAC analysis (2013) Uncertain Supply Chain Management, 1 (4), pp. 237-252; Toke, L.K., Gupta, R.C., Dandekar, M., An empirical study of green supply chain management in Indian perspective (2012) International Journal of Applied Science and Engineering Research, 1 (2), pp. 372-383; Ubeda, R., Alsua, C., Carrasco, N., Purchasing models and organizational performance: a study of key strategic tools (2015) Journal of Business Research, 68 (2), pp. 177-188; Vachon, S., Klassen, R.D., Extending green practices across the supply chain – the impact of upstream and downstream integration (2006) International Journal of Operations and Production Management, 26 (7), pp. 795-821; Van Hoek, R.I., Epilogue – moving forward with agility (2001) International Journal of Physical Distribution & Logistics Management, 31 (4), pp. 290-301. , https://doi.org/10.1108/09600030110394941; Van-Hau, T., Getting value from business intelligence systems: a review and research agenda (2017) Decision Support Systems, 93, pp. 111-124. , https://doi.org/10.1016/j.dss.2016.09.019; Vastag, G., Kasarda, J.D., Boone, T., Logistical support for manufacturing agility in global markets (1994) International Journal of Operations & Production Management, 14 (11), pp. 73-85. , https://doi.org/10.1108/01443579410068657; Walker, D.H.T., Rahmani, F., Delivering a water treatment plant project using a collaborative project procurement approach (2016) Construction Innovation, 16 (2), pp. 158-184. , https://doi.org/10.1108/CI-03-2015-0015; Warfield, J.N., Developing interconnected matrices in structural modelling (1974) IEEE Transactions on Systems Men and Cybernetics, 4 (1), pp. 51-81; White, G.R.T., Parfitt, S., Lee, C., Mason‐Jones, R., Challenges to the development of strategic procurement: a meta-analysis of organizations in the public and private (2016) Strategic Change, 25 (3), pp. 285-298; Whitmore, B., (2017) Get your purchasing in order: 5 common procurement problems, , https://blog.procurify.com/2015/11/24/get-your-purchasing-in-order-5-common-procurement-problems-with-easy-fixes/, (accessed, May 25, 2017; Wittemann, C., (2010) Business intelligence project management 101: managing BI projects within the PMI process groups, , http://pmiaustin.org/images/downloads/Articles/wittemann_business_intelligence_pm.pdf, PMI Virtual Library, Project Management: (accessed, May 25, 2017; Yadav, V., (2017) Building a flexible and agile procurement organization, , http://sig.org/docs2/S11_Building_a_Flexible_and_Agile_Procurement_Organization_GEP_2017_03_09.pdf, GEP: (accessed, May 26, 2017; Yusuf, Y.Y., Adeleye, E.O., Sivayoganathan, K., Volume flexibility: the agile manufacturing conundrum (2003) Management Decision, 41 (7), pp. 613-624; Yusuf, Y.Y., Sarahadi, M., Gunasekaran, A., Agile manufacturing: the drivers, concepts, and attributes (1999) International Journal of Production Economics, 62 (1), pp. 33-43; Zairi, M., Al-Mashari, M., Developing a sustainable culture of innovation management: a prescriptive approach (2005) Knowledge and Process Management, 12 (3), pp. 190-202; Zhelyazkov, G., Agile supply chain: Zara’s case study analysis (2011) Design, Manufacture and Engineering Management, Strathclyde University Glasgow; Zhu, Q., Sarkis, J., The moderating effects of institutional pressures on emergent green supply chain practices and performance (2007) International Journal of Production Research, 45 (18-19), pp. 4333-4355","Narvel, Y.A.M.; Department of Mechanical Engineering, India; email: yahyanarvel@gmail.com",,,"Emerald Group Holdings Ltd.",,,,,14637154,,,,"English","Bus. Process Manage. J.",Article,"Final","",Scopus,2-s2.0-85073976363
"Ronge D., Ubale D.","57223999485;57214074252;","Design of an earth-air heat exchanger system for space cooling in climatic conditions of Nagpur, India",2020,"Techno-Societal 2018 - Proceedings of the 2nd International Conference on Advanced Technologies for Societal Applications","1 1",,,"479","488",,,"10.1007/978-3-030-16848-3_44","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85106734951&doi=10.1007%2f978-3-030-16848-3_44&partnerID=40&md5=ac9505088112e4080044fed25dd830eb","Sardar Patel College of Engineering, Mumbai, Maharashtra, India","Ronge, D., Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Ubale, D., Sardar Patel College of Engineering, Mumbai, Maharashtra, India","Earth Air Heat Exchanger (EAHE) system is a Passive Cooling technique which uses earth’s potential to maintain a constant temperature throughout the year at certain depths as a source or sink to cool air during summer and vice versa in winter for space air-conditioning application. EAHE systems are best suited in hot and dry climatic conditions because EAHE systems in humid areas face challenges of condensation of water and contamination by microorganisms. Commercial Heating, Ventilation, and Air Conditioning (HVAC) systems are now established everywhere because there are standard methods for their calculations and manpower for installation. EAHE systems, being in their early stages lack such standards, installations guidelines and hence have less commercialization. One such effort has been made in this paper to design an EAHE system for a classroom in a hot and dry climate of Nagpur City, India. Heat exchanger calculations were made based on the NTU method, air flow rates were referred from ASHRAE ventilation standard and a piping layout is created so as to use the designed system for commercial purposes. © Springer Nature Switzerland AG 2020.","Earth-air heat exchanger; Earth’s undisturbed temperature; NTU; Nusselt number","Earth (planet); Heat exchangers; Air flow-rate; Climatic conditions; Constant temperature; Earth-air heat exchangers; Earthair heat exchanger (EAHE); Passive cooling techniques; Piping layout; Space cooling; Air conditioning",,,,,,,,,,,,,,,,"Ubale, D.P., Heat transfer enhancement in heat exchanger using twisted-tape inserts: A review. International Conference on Ideas (2017) Impact and Innovation in Mechanical Engineering (IJRITCC), 5 (6), pp. 425-428; Ubale, D., Ubale, P.V., A critical review on flow, heat transfer characteristics and correlations of helically coiled heat exchanger (2017) Int J Adv Eng Res Dev, 4 (9), pp. 519-524; Ubale, D., Ubale, P.V., ; Ubale, D.P., Umale, S.S., Gulhane, N.P., Experimental investigation of condensation heat transfer in vertical shell and helical coil heat exchanger (2018) Adv Sci Eng Med, 10 (3), pp. 398-402; Ingersoll, L.R., Plass, H.J., Theory of the ground pipe source for the heat pump (1948) ASHVE Trans, 54, pp. 339-348; Carslaw, H.S., Jaeger, J.C., (1959) Conduction of Heat in Solids, , Oxford University Press, Oxford; Ronge, D., Maurya, R.S., ; de Paepe, M., Janssens, A., Thermo-hydraulic design of earth-air heat exchangers (2003) Energ Buildings, 35 (4), pp. 389-397; Al-Ajmi, F., Loveday, D.L., Hanby, V.I., The cooling potential of earth-air heat exchangers for domestic buildings in a desert climate (2006) Build Environ, 41 (3), pp. 235-244; Mihalakakou, G., Santamouris, M., Asimakopoulos, D., Argiriou, A., On the ground temperature below buildings (1995) Sol Energy, 55 (5), pp. 355-362; Kusuda, T., Piet, O., Bean, J.W., (1983) Annual Variation of Temperature Field and Heat Transfer under the Heated Ground Surface: Slab-On-Grade Floor Heat Loss Calculations, p. 156. , building science series, p; Misra, R., Bansal, V., Das Agrawal, G., Mathur, J., Asari, T.K., CFD analysis based parametric study of derating factor for earth air tunnel heat exchanger (2013) Appl Energy, 103, pp. 266-277; Bisoniya, T.S., Kumar, A., Baradar, P., Experimental and analytical studies of the earth–air heat exchanger (EAHE) systems in India: A review (2013) Renew Sust Energ Rev, 19, pp. 238-246; Bisoniya, T.S., Kumar, A., Baradar, P., Cooling potential evaluation of earth–air heat exchanger system for the summer season (2014) Int J Eng Tech Res, 2 (4), pp. 309-316; Mathur, A., Surana, A.K., Verma, P., Mathur, S., Agrawal, G.D., Mathur, J., Investigation of soil thermal saturation and recovery under intermittent and continuous operation of EATHE (2015) Energ Buildings, 109, pp. 291-303; Campbell, G.S., Jungbauer, J.D., Bidlake, W.R., Hungerford, R.D., Predicting the effect of temperature on soil thermal conductivity (1994) Soil Sci, 158 (5), pp. 307-313; Pramanik, P., Aggarwal, P., Comparison of thermal properties of three texturally different soils under two compaction levels (2013) Afr J Agric Res, 8 (28), pp. 3679-3687; ASHRAE climatic design conditions 2009/2013. http://ashrae-meteo.info/; ASHRAE standard 62.2-2013 Ventilation for Acceptable IOQ","Ronge, D.; Sardar Patel College of EngineeringIndia","Pawar P.M.Apte S.S.Ronge B.P.Vibhute A.S.Balasubramaniam R.",,"Springer","2nd International Conference on Advanced Technologies for Societal Applications, Techno-Societal 2018",,,259819,,9783030168476,,,"English","Proc. Int. Conf. Adv. Technol. Soc. Appl.",Conference Paper,"Final","",Scopus,2-s2.0-85106734951
"Kamble R.G., Raykar N.R., Jadhav D.N.","57222639381;19934528100;6701509024;","Machine learning approach to predict fatigue crack growth",2020,"Materials Today: Proceedings","38",,,"2506","2511",,10,"10.1016/j.matpr.2020.07.535","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103554285&doi=10.1016%2fj.matpr.2020.07.535&partnerID=40&md5=d510d019c8c111ff9bb81848523293ef","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India","Kamble, R.G., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Raykar, N.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Jadhav, D.N., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India","Prediction of fatigue crack growth is an important requirement during estimation of residual life of machine components or during failure analysis. The existing theoretical models are specialized to predict the crack growth for one of the three stage of classical crack growth diagram. In this work, a novel and unified machine learning based approach has been developed to cover both stage-II and stage-III regions of crack growth rate. Three alternative machine learning algorithms are investigated to identify the most suitable algorithm for prediction of fatigue crack growth rate. The models are trained using experimental data conducted on CT specimens of carbon steel subjected to different types of cyclic loading. The comparison of mean squared error and R2 score in terms of accuracy in percentage obtained from the three models is presented. The guidelines for training and tuning of machine learning models are discussed. © 2020 Elsevier Ltd. All rights reserved.","Crack growth rate; CT specimen; Cyclic loading; Machine learning; Mean squared error; R2 score","Cyclic loads; Forecasting; Growth rate; Learning algorithms; Machine learning; Mean square error; Classical cracks; Crack growth rates; CT specimens; Cyclic loading; Machine learning approaches; Machine-learning; Mean squared error; R2 score; Residual life; Theoretical modeling; Fatigue crack propagation",,,,,,,,,,,,,,,,"Paris, P., Erdogan, F., A critical analysis of crack propagation laws (1963) J. Fluids Eng. Trans. ASME, 85 (4), pp. 528-533; Forman, R.G., Kearney, V.E., Engle, R.M., Numerical analysis of crack propagation in cyclic-loaded structures (1967) J. Fluids Eng. Trans. ASME, 89 (3), pp. 459-463; Priddle, E.K., High cycle fatigue crack propagation under random and constant amplitude loadings (1976) Int. J. Press. Vessel. Pip., 4 (2), pp. 89-117; Kujawski, D., A new (?K+ Kmax)0.5 driving force parameter for crack growth in aluminum alloys (2001) Int. J. Fatigue, 23, pp. 733-740; Dinda, S., Kujawski, D., Correlation and prediction of fatigue crack growth for different R-ratios using Kmax and ?k+ parameters (2004) Eng. Fract. Mech., 71 (12), pp. 1779-1790; Jang, D.W., Lee, S., Park, J.W., Baek, D.C., Failure detection technique under random fatigue loading by machine learning and dual sensing on symmetric structure (2018) Int. J. Fatigue, 114, pp. 57-64. , Sep; Nowell, D., Nowell, P.W., A machine learning approach to the prediction of fretting fatigue life (2020) Tribol. Int., 141. , Jan; Yan, W., Deng, L., Zhang, F., Li, T., Li, S., Probabilistic machine learning approach to bridge fatigue failure analysis due to vehicular overloading (2019) Eng. Struct., 193, pp. 91-99. , Aug; Pestana, M.S., Kalombo, R.B., Freire Júnior, R.C.S., Ferreira, J.L.A., Da Silva, C.R.M., Araújo, J.A., Use of artificial neural network to assess the effect of mean stress on fatigue of overhead conductors (2018) Fatigue Fract. Eng. Mater. Struct., 41 (12), pp. 2577-2586; (2014) Am. Soc. Test. Mater., 1, pp. 1-50. , ASTM E647-13, ""Standard test method for measurement of fatigue crack growth rates,""; (2010) Am. Soc. Test. Mater., 3, pp. 1-48. , ASTM E1820-09, ""Standard test method for measurement of fracture toughness""; (2010) Am. Soc. Test. Mater., pp. 1-33. , ASTM E399-, ""Standard test method for linear-elastic plane-strain fracture toughness of metallic materials""","Jadhav, D.N.; Mechanical Engineering Department, India; email: d_jadhav@spce.ac.in","Gupta M.Davim P.Reddy Paturi U.M.",,"Elsevier Ltd","1st International Conference and Exposition on Mechanical, Material and Manufacturing Technology, ICE3MT 2020","9 October 2020 through 10 October 2020",,167890,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","All Open Access, Hybrid Gold",Scopus,2-s2.0-85103554285
"Kazi S., Umale S., Venkatesh M., Neve V.","57222637379;55318982400;57224607611;57222633689;","Application of various correlations for design of demisters to study the effect of geometrical parameters on its performance",2020,"Materials Today: Proceedings","38",,,"3035","3040",,2,"10.1016/j.matpr.2020.09.381","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103551990&doi=10.1016%2fj.matpr.2020.09.381&partnerID=40&md5=e0e2946db7a9176376e53bdce1810bcd","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Larsen AndToubro Ltd., Powai, Mumbai, India","Kazi, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Umale, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Venkatesh, M., Larsen AndToubro Ltd., Powai, Mumbai, India; Neve, V., Larsen AndToubro Ltd., Powai, Mumbai, India","Separation of water from steam water mixture in a WHB system is an important function of ""demisters"" where downstream equipment have stringent steam quality requirement in the range of 99.5% to 99.9%. Demister is a porous blanket of wires used to retain the liquid droplets carried by the vapour. Steam quality at demister outlet depends on separation efficiency of the demister. Various authors developed a number of equations to determine this separation efficiency after carrying out experimental and mathematical analysis. In this paper, a comparative study and thorough analysis of these equations is carried out for selecting appropriate correlation of demisters based on desired application. Demister efficiency of a demister with a thickness of 100mm, wire diameter varying from 0.15mm to 0.5mm is determined. Pressure range is 20 bars a-140 bars a and droplet diameters of 5µ, 10µ, 20µ, 30µ, 50µ and 100µ. Wire Material is SS304L. It is observed that demister efficiency is 99.99% at low pressures (~below 60 bars a) irrespective of the droplet diameter, and it reduces with increasing pressure. The demister efficiency reduces significantly beyond~80 bars a. It is observed that for steam with droplets less than 10µ & at low pressures; correlations provided by Oliveira et al. gives conservative efficiency. For droplets greater than 10µ diameter, both Calvert and Mohebbi et al. correlations can be used. At light steam loads and separation of less than 5µ droplet diameters, 0.09mm to 0.15mm diameter demister mesh wire provides better results, whereas, at high vapour loads the wire diameter of 0.15mm to 0.25mm can be selected. © 2020 Elsevier Ltd. All rights reserved.","Correlation; Demister; Entrainment; Inertial impaction; Separation efficiency","Drops; Efficiency; Geometry; Separation; Steam; Correlation; Demister; Droplet diameters; Entrainment; Inertial impaction; Low pressures; Performance; Separation efficiency; Steam quality; Wire diameter; Wire",,,,,,,,,,,,,,,,"El-Dessouky, H.T., Alatiqi, I.M., Ettouney, H.M., Al-Deffeeri, N.S., Performance of wire mesh mist eliminator (2000) Chem. Eng. Process. Process Intensif., 39 (2), pp. 129-139; Kayode Coker, A., (2007) Ludwig's Applied Process Design for Chemical and Petrochemical Plants, p. 246. , Chp.6 -Mechanical Separations. Ed. 4, Gulf Professional Publishing; Calvert, S., Venturi and other atomizing scrubbers efficiency and pressure drop (1970) AICHE J., 16 (3), pp. 392-396; Edward, W., Poppele, (1958) Correlation of Maximum Air Velocity with Liquid Entrainment Loading for Wire Mesh Mist Eliminators, , Thesis submitted to Newark College of Engineering, Newark, New Jersey; AMISTCO, Mesh and Vane Mist Eliminators Product Catalogue, Texas; Ali, M., Yan, C., Sun, Z., Gu, H., Mehboob, K., Dust particle removal efficiency of a venturi scrubber (2013) Ann. Nucl. Energy, 54, pp. 178-183; Souders, M., Jr., Brown, G.G., Design of fractionating columns (1934) Ind. Eng. Chem., 26 (1), pp. 98-103; Bradie, J.K., Dickson, A.N., Removal of entrained liquid droplets by wire-mesh demisters (1969) Proc. Instn. Mech. Eng., 184 (3), pp. 195-203; Walton, W.H., Woolcock, A., (1960) Aerodynamic Capture of Particles, pp. 129-153. , in: E.G. Richardson (Ed.), Pergamon Press, New York; Mohebbi, A., Taheri, M., Fathikaljahi, J., Talaie, M.R., Simulation of an orifice scrubber performance based on Eulerian/Lagrangian method (2003) J. Hazard. Mater., 100 (1-3), pp. 13-25; Taheri, (1973) J. Air Pollut. Control Assoc., 23 (11), p. 963; Joao Americo, A.O., Jr., Bergman Fonte, C., Eduardo Fontes, C., Numerical Simulation of Demister Equipment for Application in Gravitational Separators (2009) 20th International Congress of Mechanical Engineering, , Gramado, RS, Brazil; Dutta, A., (2007) Process Engineering and Design Using Visual Basic, , CRC Press; Ryley, D.J., Fallon, J.B., Size Sampling of Steam-Borne Water Droplets Proc Instn. Mech Engrs., 180, pp. 1965-1966","Kazi, S.; Department of Mechanical Engineering, India; email: kaziswaleha15@gmail.com","Gupta M.Davim P.Reddy Paturi U.M.",,"Elsevier Ltd","1st International Conference and Exposition on Mechanical, Material and Manufacturing Technology, ICE3MT 2020","9 October 2020 through 10 October 2020",,167890,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","All Open Access, Hybrid Gold",Scopus,2-s2.0-85103551990
"Pasi B.N., Mahajan S.K., Rane S.B.","57218911081;57197121288;56149402100;","The current sustainability scenario of Industry 4.0 enabling technologies in Indian manufacturing industries",2020,"International Journal of Productivity and Performance Management","70","5",,"1017","1048",,18,"10.1108/IJPPM-04-2020-0196","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85097051659&doi=10.1108%2fIJPPM-04-2020-0196&partnerID=40&md5=0e3a0ae352d6a1764591216b14924460","Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Mechanical Engineering, Vishwaniketan iMEET, Navi Mumbai, India; Directorate of Technical Education, Mumbai, India","Pasi, B.N., Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India, Mechanical Engineering, Vishwaniketan iMEET, Navi Mumbai, India; Mahajan, S.K., Directorate of Technical Education, Mumbai, India; Rane, S.B., Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: The purposes of this research article are as follows: to explore the understanding of the Industry 4.0 (I4.0) concept among Indian manufacturing industries, to determine the motivating factors for I4.0 implementation, to identify I4.0 enabling technologies which are used by Indian manufacturing industries and assess their sustainability, to explore the impact of above identified enabling technologies on sustainability pillars, to determine how Indian manufacturing industries interpret the concept of I4.0 and to develop a road map for I4.0 implementation and sustainability. Design/methodology/approach: To perform this research work, a dual research methodology was adopted. Questionnaires were sent to 16 Indian manufacturing industries, and expert interviews were conducted with seven experts who have been practicing the I4.0 concept since the last three years in their business. Also, a sustainability measurement tool was developed to measure the sustainability of the used I4.0 enabling technologies. Findings: In this research article, it is found that smart sensors and robot arms have high sustainability, whereas cyber physical systems (CPSs) and big data analytics have low sustainability. During an expert interview, it has been found that adoption of the I4.0 concept in Indian manufacturing industries is creating job loss fear in employees. Also, it is found that Indian workers must be trained to adopt and sustain I4.0 enabling technologies. Research limitations/implications: The sustainability of I4.0 enabling technologies in Indian manufacturing industries was indicated by analyzing responses received through questionnaires and expert interviews. There are other measures of sustainability which are beyond this study. Further studies are expected to fill the gap. Practical implications: The authors have explored reasons for low sustainability of I4.0 enabling technologies in Indian manufacturing industries, suggested a road map for its implementation and sustainability and identified the relationship between different parameters (such as job loss, job creation, workers’ qualification and business profit) and I4.0 sustainability, therefore helping Indian organizations to develop sustainable manufacturing systems based on the I4.0 concept. Originality/value: This research article gives an idea about sustainability of I4.0 enabling technologies in Indian manufacturing industries. © 2020, Emerald Publishing Limited.","Big data analytics; Cyber physical system; Indian manufacturing industries; Industry 4.0; Industry 4.0 enabling technologies; Sustainability",,,,,,,,,,,,,,,,,"Alexopoulos, K., Makris, S., Xanthakis, V., Sipsas, K., George, C., A concept for context-aware computing in manufacturing: the white goods case (2016) International Journal of Computer Integrated Manufacturing, 29 (8), pp. 839-849; Atzori, L., Iera, A., Morabito, G., The internet of things: a survey (2010) Computer Networks, 54 (15), pp. 2787-2805; Bhaveshkumar, N.P., Subhash, K.M., Santosh, B.R., Smart supply chain management: a perspective of industry 4.0 (2020) International Journal of Advanced Science and Technology, 29 (5), pp. 3016-3030; Bhaveshkumar, N.P., Subhash, K.M., Santosh, B.R., Redesigning of smart manufacturing system based on IoT: perspective of disruptive innovations of industry 4.0 Paradigm (2020) International Journal of Mechanical and Production Engineering Research and Development (IJMPERD), 10 (3), pp. 727-746; Bodrow, W., Impact of Industry 4.0 in service oriented firm (2017) Advances in Manufacturing, 5 (4), pp. 394-400; Brettel, M., Friederichsen, N., Keller, M., Rosenberg, M., How Virtualization, decentralization and network building change the manufacturing landscape: an industry 4.0 perspective (2014) International Journal of Mechanical, Aerospace, Industrial and Mechatronics Engineering, 8 (1), pp. 37-44; Buer, S.V., Strandhagen, J.O., Chan, F.T.S., The link between Industry 4.0 and lean manufacturing: mapping current research and establishing a research agenda (2018) International Journal of Production Research, 56 (8), pp. 2924-2940; Dolgui, Ivanov, Sokolov, Scheduling in production, supply chain and Industry 4.0 systems by optimal control: fundamentals, state-of-the-art and applications (2018) International Journal of Production Research, 27, pp. 37-48; Fettermann, D.C., Cavalcante, C.G.S., de Almeida, T.D., Tortorella, G.L., How does Industry 4.0 contribute to operations management? (2018) Journal of Industrial and Production Engineering, 35 (4), pp. 255-268; Ghobakhloo, M., The future of manufacturing industry: a strategic roadmap toward Industry 4.0 (2018) Journal of Manufacturing Technology Management, 29 (6), pp. 910-936; Gonzalez, A.G.C., Alves, M.V.S., Viana, G.S., Carvalho, L.K., Basilio, J.C., Supervisory control-based navigation architecture: a new framework for Autonomous robots in industry 4.0 environments (2018) IEEE Transactions on Industrial Informatics, 14 (4), pp. 1732-1743; Hofmann, E., Rüsch, M., Industry 4.0 and the current status as well as future prospects on logistics (2017) Computers in Industry, 89, pp. 23-34; Jagdish, R.J., Mantha, S.S., Rane, S.B., Practice bundles for integrated green-lean manufacturing systems (2013) ICGCT, 23, pp. 521-536; Jagdish, R.J., Mantha, S.S., Rane, S.B., Barriers for successful implementation of JIT: a manufacturer perspective (2014) International Journal of Procurement Management, 7, pp. 316-342; Jagdish, R.J., Mantha, S.S., Rane, S.B., Exploring barriers in lean implementation (2014) International Journal of Lean Six Sigma, 5, pp. 122-148; Jagdish, R.J., Mantha, S.S., Rane, S.B., Development of framework for sustainable Lean implementation: an ISM approach (2014) Journal of Industrial Engineering International, 10, pp. 71-109; Jagdish, R.J., Mantha, S.S., Rane, S.B., Roadmap for Lean implementation in Indian automotive component manufacturing industry: comparative study of UNIDO model and ISM model (2015) Journal of Industrial Engineering International, 11, pp. 179-198; Jagdish, R.J., Mantha, S.S., Rane, S.B., Analysis of interactions among the barriers to JIT production: interpretive structural modelling approach (2015) Journal of Industrial Engineering International, 11, pp. 331-352; Kamble, S.S., Gunasekaran, A., Gawankar, S.A., Sustainable Industry 4.0 framework: a systematic literature review identifying the current trends and future perspectives (2018) Process Safety and Environmental Protection, 117, pp. 408-425; Kong, X.T.R., Luo, H., Huang, G.Q., Yang, X., Industrial wearable system: the human-centric empowering technology in Industry 4.0 (2018) Journal of Intelligent Manufacturing, 29 (3), pp. 1-17; Lee, J., Bagheri, B., Kao, H.A., A cyber-physical systems architecture for industry 4.0-based manufacturing system (2015) Manufacturing Letters, 3, pp. 18-23; Li, Z., Wang, Y., Wang, K.S., Intelligent predictive maintenance for fault diagnosis and prognosis in machine centers: industry 4.0 scenario (2017) Advances in Manufacturing, 5 (4), pp. 377-387; Liao, Y., Deschamps, F., Loures, E.F.R., Ramos, L.F.P., Past, present and future of Industry 4.0 - a systematic literature review and research agenda proposal (2017) International Journal of Production Research, 55 (12), pp. 3609-3629; Lin, K.C., Shyu, J.Z., Ding, K., A cross-strait comparison of innovation policy under industry 4.0 and sustainability development transition (2017) Sustainability (Switzerland), 9 (5), pp. 786-798; Long, F., Zeiler, P., Bertsche, B., Modelling the production systems in industry 4.0 and their availability with high-level Petri nets (2016) IFAC-Papers OnLine, 49 (12), pp. 145-150; Longo, F., Nicoletti, L., Padovano, A., Smart operators in industry 4.0: a human-centered approach to enhance operators' capabilities and competencies within the new smart factory context (2017) Computers and Industrial Engineering, 113, pp. 144-159; Machado, C.G., Winroth, M.P., Ribeiro da Silva, E.H.D., Sustainable manufacturing in Industry 4.0: an emerging research agenda (2019) International Journal of Production Research, 23, pp. 1-23; Mariyono, J., Improvement of economic and sustainability performance of agribusiness management using ecological technologies in Indonesia (2019) International Journal of Productivity and Performance Management, 69 (5), pp. 989-1008; Moeuf, A., Pellerin, R., Lamouri, S., Tamayo-Giraldo, S., Barbaray, R., The industrial management of SMEs in the era of Industry 4.0 (2018) International Journal of Production Research, 56 (3), pp. 1118-1136; Müller, J.M., Kiel, D., Voigt, K.I., What drives the implementation of Industry 4.0? The role of opportunities and challenges in the context of sustainability (2018) Sustainability (Switzerland), 10 (1), pp. 247-264; Oesterreich, T.D., Teuteberg, F., Understanding the implications of digitisation and automation in the context of Industry 4.0: a triangulation approach and elements of a research agenda for the construction industry (2016) Computers in Industry, 83, pp. 121-139; Rane, S.B., Mishra, N., Roadmap for business analytics implementation using DIPPS model for sustainable business excellence: case studies from the multiple fields (2018) International Journal of Business Excellence, 15, pp. 308-334; Rane, S.B., Potdar, P., Development of project risk management framework based on Industry 4.0 technologies (2019) Benchmarking: An International Journal, 38, pp. 169-188; Rose, K., Scott, E., Chapin, L., The internet of things: an overview understanding the issues and challenges of a more connected world (2015) The Internet Society (ISOC), 27, pp. 147-163; Sanders, Elangeswaran, Wulfsberg, Industry 4.0 implies lean manufacturing: research activities in industry 4.0 function as enablers for lean manufacturing (2016) Journal of Industrial Engineering and Management, 9, pp. 811-833; Schluse, M., Priggemeyer, M., Atorf, L., Rossmann, J., Experimentable digital Twins-streamlining simulation-based systems engineering for industry 4.0 (2018) IEEE Transactions on Industrial Informatics, 14 (4), pp. 1722-1731; Shamim, S., Cang, S., Yu, H., Li, Y., Examining the feasibilities of Industry 4.0 for the hospitality sector with the lens of management practice (2017) Energies, 10 (4), pp. 499-514; Sivathanu, B., Pillai, R., Smart HR 4.0 – how industry 4.0 is disrupting HR (2018) Human Resource Management International Digest, 25 (3), pp. 174-184; Strandhagen, J.W., Alfnes, E., Strandhagen, J.O., Vallandingham, L.R., The fit of Industry 4.0 applications in manufacturing logistics: a multiple case study (2017) Advances in Manufacturing, 5 (4), pp. 344-358; Thakker, S., Rane, S.B., Implementation of green supplier development process model in Indian automobile industry (2018) Management of Environmental Quality: An International Journal, 29, pp. 938-960; Theorin, A., Bengtsson, K., Provost, J., Lieder, M., Johnsson, C., Lundholm, T., Lennartson, B., An event-driven manufacturing information system architecture for Industry 4.0 (2017) International Journal of Production Research, 55 (5), pp. 1297-1311; Tortorella, G.L., Fettermann, D., Implementation of Industry 4.0 and lean production in Brazilian manufacturing companies (2017) International Journal of Production Research, 56 (8), pp. 2975-2987; Viryasitavat, W., Da Xu, L., Bi, Z., Sapsomboon, A., Blockchain-based business process management (BPM) framework for service composition in industry 4.0 (2018) Journal of Intelligent Manufacturing, 29 (5), pp. 1-12; Wang, S., Wan, J., Zhang, D., Li, D., Zhang, C., Towards smart factory for Industry 4.0: a self-organized multi-agent system with big data based feedback and coordination (2016) Computer Networks, 101, pp. 158-168; Wang, Y., Ma, H.S., Yang, J.H., Wang, K.S., Industry 4.0: a way from mass customization to mass personalization production (2017) Advances in Manufacturing, 5 (4), pp. 311-320; Wu, D., Rosen, D.W., Schaefer, D., Scalability planning for cloud-based manufacturing systems (2015) Journal of Manufacturing Science and Engineering, 13, pp. 148-162; Xu, L., Xu, E.L., Li, L., Industry 4.0: state of the art and future trends (2018) International Journal of Production Research, 56 (8), pp. 2941-2962; Yin, Y., Stecke, K.E., Li, D., The evolution of production systems from industry 2.0 through industry 4.0 (2018) International Journal of Production Research, 56 (2), pp. 848-861; Zhong, R.Y., Dai, Q., Qu, T., Hu, G., Huang, G.Q., RFID-enabled real-time manufacturing execution system for mass-customization production (2016) Computer Integrated Manufacturing, 29, pp. 283-292","Pasi, B.N.; Mechanical Engineering, India; email: bhavesh.pasi258@gmail.com",,,"Emerald Group Holdings Ltd.",,,,,17410401,,,,"English","Int. J. Product. Perform. Manage.",Article,"Final","",Scopus,2-s2.0-85097051659
"Godse L.S., Bhalerao M.J., Khwaja F.M., Kulkarni N.R., Karandikar P.B.","55948079200;57215597583;57219201742;57192955846;35791861700;","Development of statistical model for selection of electrode parameters in manufacturing of ultracapacitor",2020,"Key Engineering Materials","862 KEM",,,"22","27",,,"10.4028/www.scientific.net/KEM.862.22","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091665208&doi=10.4028%2fwww.scientific.net%2fKEM.862.22&partnerID=40&md5=e63bc16caef2588b4f02b3995d2d03b4","Department of Electrical Engineering, AISSMS CoE and PES Modern CoE, Pune, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engineering, PES Modern College of Engineering, Pune, India; Department of Electrical Engineering, Army Institute of Technology, Pune, India","Godse, L.S., Department of Electrical Engineering, AISSMS CoE and PES Modern CoE, Pune, India; Bhalerao, M.J., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Khwaja, F.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kulkarni, N.R., Department of Electrical Engineering, PES Modern College of Engineering, Pune, India; Karandikar, P.B., Department of Electrical Engineering, Army Institute of Technology, Pune, India","Ultracapacitor is a new electrical energy storage device which has high power density than conventional battery and capacitor. It offers high capacitance in small volume compared to conventional capacitors. While selecting ultracapacitors for various applications, parameters like specific resistance, internal capacitance, pulse current, energy density are required to be considered. Amongst these factors, specific capacitance of ultracapacitor depends mainly on parameters of electrode. The present paper is focused on modeling of ultracapacitor based on variations in some of the electrode parameters. The objective of present research work is to apply a statistical method to obtain an electrode material based model for prismatic type ultracapacitor. To have deep insight about the performance through modeling approach, the number of trials have been taken by doing the variations in the electrode materials of ultracapacitor and the quantity of the electrode material loaded on the current collector. The effect of both these variations is studied over the specific capacitance, which is taken as output parameter of model. Developed model is validated at selected values of input parameters. © 2020 Trans Tech Publications Ltd, Switzerland.","Electrode; Material; Modeling; Ultracapacitor","Capacitance; Electrodes; Engineering research; Land vehicle propulsion; Supercapacitor; Conventional batteries; Conventional capacitors; Electrical energy storage devices; Electrode parameters; Internal capacitance; Specific capacitance; Specific resistances; Statistical modeling; Capacitor storage",,,,,,,,,,,,,,,,"Sarfraz, M., Shakir, I., Recent advances in layered double hydroxides as electrode materials for high-performance electrochemical energy storage devices (2017) J. Energy Storage, 13, pp. 103-122; Goiklea, E., Balducci, A., Naoi, K., Taberna, P. L., Salanne, M., Yushin, G., Materials for supercapacitors: when Li-ion battery is not enough (2018) Mater. Today, 21 (4), pp. 419-436; Gonsalves, T. C., Electrochemical Characteristics and Microstructures of Activated Carbon Powder Supercapacitors for Energy Storage (2018) Mater. Sci. Forum, 930, pp. 597-602; Mao, M. L., Metal-Organic Frameworks/Carboxyl Graphene Derived Porous Carbon as a Promising Supercapacitor Electrode Material (2017) Key Eng. Mater, 727, pp. 756-763; Obeidat, A. M., Mohammad, A. G., Obaidat, M., Solid-state ultracapacitors with ionic liquid gel polymer electrolyte and polypyrrole electrodes for electrical energy storage (2017) J. Energy Storage, 13, pp. 123-128; Ates, M., Uludag, N., Karazehir, T., Arıcan, F., Ultracapacitor Behavior of Poly(Carbazole-EDOT) Derivatives/multi-walled carbon nanotubes, characterizations and equivalent circuit model evaluations (2014) J. Polym. Plastics Technol. Eng, 53 (10), pp. 1070-1081; Godse, L. S., Karkaria, V. N., Bhalerao, M. J., Khatua, S., Karandikar, P. B., Electrode-Electrolyte compatibility for superior performance of supercapacitor (2019) Int. Conf. power Electronics Appl. Technol; Mainar, A. R., Iruin, E., Colmenares, L. C., Kvasha, A., An overview of progress in electrolytes fo secondary zinc-air batteries and other storage systems based on zinc (2018) J. Energy Storage, 15, pp. 304-328; Lee, K. M., Kim, M. J., Lee, K. S., Nylon 6, 6/polyaniline based sheath nanofibres for high performance supercapacitors (2016) J. Eletrochimica Acta, 213, pp. 124-131; Mandake, P., Karandikar, P. B, Effect of separator thickness variation for supercappacitor with polythylene separator material (2016) IJSRSET, 2 (2), pp. 967-971; Upriti, H., Dixit, A., Shailendra, A. Paul, Karandikar, P. B., Optimization of electrode factors of stacked structured ultracapacitor (2014) Energy Procedia, 54 (6), pp. 367-375; Karandikar, P. B., Talange, D. B., Mhaskar, U., Bansal, R., Investigations for parameter improvement of manganese oxide based aqueous ultracapacitor (2012) Mater. Manufact. Process, 11 (1), pp. 1164-1170; Karandikar, P. B., Talange, D. B., Mhaskar, U., Bansal, R., Validation of capacitance and ESR model of manganese oxide based aqueous ultracapacitor (2012) Electric Power Components Syst, 10 (1), pp. 1105-1118; Pham, C. T., Månsson, D., Experimental validation of a general energy storage modeling approach (Part III) (2018) J. Energy Storage, 20, pp. 542-550; Luo, W., Xue, H., The Synthesis and Elechemical Performance of NiCo2O4 embedded Carbon nanofibers for high-performance supercapacitors (2019) J. Fullerenes Nanotubes Carbon Nanostruct, 27 (3), pp. 189-197; Manikanda, K., Pradheep, T., Suresh, S., Application of Tauguchi and Response Surface Methodology (RSM) in Steel Turning Process toImprove Surface Roughness and Material Removal Rate (2018) Mater. today:PROCEEDINGS, 5 (11), pp. 24622-24631","Bhalerao, M.J.; Department of Mechanical Engineering, India; email: bhaleraomayank@gmail.com","Hu J.W.",,"Trans Tech Publications Ltd","4th Annual International Conference on Material Science and Engineering Technology, ICMSET 2020","20 March 2020 through 22 March 2020",,245389,10139826,9783035716962,KEMAE,,"English","Key Eng Mat",Conference Paper,"Final","",Scopus,2-s2.0-85091665208
"Patil V., Narnaware T., Gangwani N., Raykar N.R.","57224775029;57219111470;57219110293;19934528100;","Development of flexible universal gripper for handling light weight parts of arbitrary shape",2020,"Materials Today: Proceedings","28",,,"2591","2598",,4,"10.1016/j.matpr.2020.05.705","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091313115&doi=10.1016%2fj.matpr.2020.05.705&partnerID=40&md5=def13af45f8c0b3c3248d801e1d6a70d","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India","Patil, V., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Narnaware, T., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Gangwani, N., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Raykar, N.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India","A variety of grippers or end effectors are used in industrial robotic manipulators to accommodate the needs of handling different types of objects prevalent in a given automation scenario. With numerous available mechanisms: magnetic, suction, mechanical, shape-memory and some more, there is a range of options to choose from. In this paper, development and construction of a flexible universal gripper which can handle a variety of objects without need of changing gripper is presented. The gripper is designed to pick up arbitrarily shaped solids, nonporous items of weight up to 800 gm with a minimum plane area of 18x18 sq.mm on a surface. The design of gripper parts, that is, suction cup and corrugated flexible fingers is explained with the help of analytical as well as finite element analysis. A new analytical model for design of corrugated flexible fingers is developed. The results of a preliminary test carried out to check lifting capacity of gripper are presented. The proposed gripper strengthens the positives and works around the weaknesses of existing types, boasting of safe design, easy manufacturing, low cost, lightweight assembly, effective gripping and stable holding of items. © 2019 Elsevier Ltd.","End effector; Fingers; Flexible gripper; Soft robotics; Suction cup","Industrial manipulators; Arbitrary shape; Finger; Flexible grippers; Industrial robotics; Light weight; Mechanical; Robotic manipulators; Shape-memory; Soft robotics; Suction cup; Grippers",,,,,,,,,,,,,,,,"Meneses, M.A., (2015) Mechanical Design of A Robot's Gripper; Blanes, C., Mellado, M., Ortiz, C., Valera, A., (2011) Technologies for Robot Grippers in Pick and Place Operations for Fresh Fruits and Vegetables; Inoue, Y., Takahashi, M., (1996) Silicone Rubber Laminate and Method of Making (Patent); Amend, J.R., Hod Lipson, J.R., (2013) Robotic Apparatus, Method, and Applications (Patent); Ethan Schaler, W., Ruffatto, D., Paul, E.G., Victor, W., Aaron, P., (2017) An Electrostatic Gripper for Flexible Objects; Wang, W., Ahn, S., Memory, S., (2017) Alloy-Based Soft Gripper with Variable Stiffness for Compliant and Effective Grasping; Fraś, J., Maciaś, M., Czubaczyński, F., Sałek, P., Główka, J., (2016) Soft Flexible Gripper Design, Characterization and Application; Miron, G., Bédard, B., Plante, J., Sleeved Bending Actuators for Soft Grippers: A Durable Solution for High Force-to-Weight Applications (2018) Actuators; Warren, C.Y., Richard, G.B., Ali, M.S., (2012) Roark's Formulas for Stress and Strain","Raykar, N.R.; Mechanical Engineering Department, India; email: nilesh_raykar@spce.ac.in","Patil S.S.Sharma R.K.",,"Elsevier Ltd","2nd International Conference on Advances in Mechanical Engineering and Nanotechnology, ICAMEN 2020","28 February 2020 through 29 February 2020",,162222,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85091313115
"Ovalekar J.M., Raykar N.R., Mohan P.M.","57219115771;19934528100;57219108236;","Comparative study of design methods for bolted flanges subjected to external loading",2020,"Materials Today: Proceedings","28",,,"2599","2604",,,"10.1016/j.matpr.2020.05.736","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091296163&doi=10.1016%2fj.matpr.2020.05.736&partnerID=40&md5=9b4a0ce3d68f736663af27ed69f03847","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Aker Powergas Pvt. Ltd., Mumbai, 400042, India","Ovalekar, J.M., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Raykar, N.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Mohan, P.M., Aker Powergas Pvt. Ltd., Mumbai, 400042, India","Bolted flange leak tightness evaluation has been an involved topic and design calculations are further complicated in the presence of external loads. The present work compares three design methods used for incorporating effect of external loads in flange design: ASME BPVC, ASME Code Case, and equivalent pressure method. Total 35 flanges of different standard sizes and rating classes are analyzed in this study. For each case, maximum allowable external loads are computed by each of the three methods. Based on the results obtained from this study, practical guidelines are developed which will help practicing engineers to select an appropriate method to meet a specific design requirement. © 2019 Elsevier Ltd.","ASME BPVC; Bolted flanges; Code case 2901; Equivalent pressure method; External loads","Bolts; Codes (symbols); Design; ASME BPVC; Bolted flange; Code case 2901; Comparatives studies; Design method; Equivalent pressure; Equivalent pressure method; External loading; External loads; Pressure methods; Flanges",,,,,,,,,,,,,,,,"William, J.K., (1996) Analysis of Flange Joints under External Loads; William, J.K., Design for Leakage in Flange Joints under External Loads, Proceedings of PVP2005 (2005) 2005 ASME Pressure Vessels and Piping Division Conference, , July 17-21; Bouzid, A., Birembaut, Y., Lejeune, H., On the Effect of External Bending Loads in Bolted Flange Joints, Proceedings of PVP2007 (2007) ASME Pressure Vessels and Piping Division Conference, , July 22-26; Brown, W., Improved Analysis of External Loads on Flanged Joints (2013) Proceedings of the ASME 2013 Pressure Vessels and Piping Conference PVP2013, , July 14-18; (2017) ASME, Section VIII, Div. 2, Pressure Vessels, the American Society of Mechanical Engineers, , New York; (2019) ASME Code Case 2901, the American Society of Mechanical Engineers, , New York; Kellogg Company, M.W., (1956) Design of Piping Systems, , John Wiley New York; (2013) Dennis Moss and Michael Basic, Pressure Vessel Design Manual, , Fourth Edition; (2017) ASME B16.5, the American Society of Mechanical Engineers, , New York; (2017) ASME B16.20, the American Society of Mechanical Engineers, , New York; (2010) Modern Flange Design, Bulletin 502, Edition VII, , Taylor Forged Engineered System Inc; (2007) Standards of Tubular Exchange Manufacturers Association (TEMA), , 9th Edition; (2018) ASME B36.10M, the American Society of Mechanical Engineers, , New York","Raykar, N.R.; Mechanical Engineering Department, India; email: nilesh_raykar@spce.ac.in","Patil S.S.Sharma R.K.",,"Elsevier Ltd","2nd International Conference on Advances in Mechanical Engineering and Nanotechnology, ICAMEN 2020","28 February 2020 through 29 February 2020",,162222,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85091296163
"Pasi B.N., Mahajan S.K., Rane S.B.","57218911081;57197121288;56149402100;","Enabling Technologies and Current Research Scenario of Industry 4.0: A Systematic Review",2020,"Lecture Notes in Mechanical Engineering",,,,"265","273",,5,"10.1007/978-981-15-4485-9_28","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090739750&doi=10.1007%2f978-981-15-4485-9_28&partnerID=40&md5=ff7eb8025ef6c1265b3f6d56125cb3dd","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Mechanical Engineering, ViMEET, Khalapur, India; Directorate of Technical Education, Mumbai, India","Pasi, B.N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India, Department of Mechanical Engineering, ViMEET, Khalapur, India; Mahajan, S.K., Directorate of Technical Education, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","This research was carried out to review the Industry 4.0 enabling technologies. This study incorporates the recently published research articles on Industry 4.0 enabling technologies and applications of these enabling technologies. To perform this research work, bibliometric analysis was carried out. Further, content analysis was used to identify the various domains within the literature on smart manufacturing. These techniques were used to identify the current trends, various research works and the contribution of researchers in Industry 4.0 domain. It was observed that many research articles on Industry 4.0 are theoretical in nature which did not give a strong benchmark for policymakers. It was found that Germany was the leading country in the publication of research articles on Industry 4.0 followed by USA, UK, and China. © 2020, Springer Nature Singapore Pte Ltd.","Bibliometric analysis; Industry 4.0; Smart manufacturing","Binary alloys; Flow control; Industrial research; Potassium alloys; Uranium alloys; 'current; Bibliometrics analysis; Content analysis; Enabling technologies; Policy makers; Smart manufacturing; Systematic Review; Technologies and applications; Industry 4.0",,,,,,,,,,,,,,,,"Alexopoulos, K, Makris, S, Xanthakis, V, Sipsas, K, Chryssolouris, G, A concept for context-aware computing in manufacturing: the white goods case (2016) Int J Comput Integr Manuf, 29 (8), pp. 839-849; Atzori, L, Iera, A, Morabito, G, The internet of things: a survey (2010) Comput Netw, 54 (15), pp. 2787-2805; Brettel, M, Friederichsen, N, Keller, M, Rosenberg, M, How virtualization, decentralization and network building change the manufacturing landscape: an industry 4.0 perspective (2014) Int J Mech Aerosp Ind Mechatron Eng, 8 (1), pp. 37-44; Bodrow, W, Impact of Industry 4.0 in service oriented firm (2017) Adv Manuf, 5 (4), pp. 394-400; Buer, SV, Strandhagen, JO, Chan, FTS, The link between Industry 4.0 and lean manufacturing: mapping current research and establishing a research agenda (2018) Int J Prod Res, 56 (8), pp. 2924-2940; Fettermann, DC, Cavalcante, CGS, de Almeida, TD, Tortorella, GL, How does Industry 4.0 contribute to operations management? (2018) J Ind Prod Eng, 35 (4), pp. 255-268; Ghobakhloo, M, The future of manufacturing industry: a strategic roadmap toward Industry 4.0 (2018) J Manuf Technol Manage, 29 (6), pp. 910-936; Gonzalez, AGC, Alves, MVS, Viana, GS, Carvalho, LK, Basilio, JC, Supervisory control-based navigation architecture: a new framework for autonomous robots in industry 4.0 environments (2018) IEEE Trans Ind Inf, 14 (4), pp. 1732-1743; Hofmann, E, Rüsch, M, Industry 4.0 and the current status as well as future prospects on logistics (2017) Comput Ind, 89, pp. 23-34; Kamble, SS, Gunasekaran, A, Gawankar, SA, Sustainable Industry 4.0 framework: a systematic literature review identifying the current trends and future perspectives (2018) Process Saf Environ Prot, 117, pp. 408-425; Kong, XTR, Luo, H, Huang, GQ, Yang, X, Industrial wearable system: the human-centric empowering technology in Industry 4.0 (2018) J Intell Manuf, 29 (3), pp. 1-17; Li, Z, Wang, Y, Wang, KS, Intelligent predictive maintenance for fault diagnosis and prognosis in machine centers: industry 4.0 scenario (2017) Adv Manuf, 5 (4), pp. 377-387; Liao, Y, Deschamps, F, Loures E de, FR, Ramos, LFP, Past, present and future of Industry 4.0—a systematic literature review and research agenda proposal (2017) Int J Prod Res, 55 (12), pp. 3609-3629; Lin, KC, Shyu, JZ, Ding, K, A cross-strait comparison of innovation policy under industry 4.0 and sustainability development transition (2017) Sustainability (Switzerland), 9 (5), p. 786; Longo, F, Nicoletti, L, Padovano, A, Smart operators in industry 4.0: a human-centered approach to enhance operators’ capabilities and competencies within the new smart factory context (2017) Comput Ind Eng, 113, pp. 144-159","Pasi, B.N.; Department of Mechanical Engineering, Andheri, India; email: bnpasi@vishwaniketan.edu.in","Vasudevan H.Kottur V.K.N.Raina A.A.",,"Springer Science and Business Media Deutschland GmbH","2nd International Conference on Intelligent Manufacturing and Automation, ICIMA 2020","27 March 2020 through 28 March 2020",,241819,21954356,9789811544842,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85090739750
"Mathew G., Rane S.B.","57218913474;56149402100;","Reliability Estimation of Molded Case Circuit Breaker in Development Phase",2020,"Lecture Notes in Mechanical Engineering",,,,"581","589",,,"10.1007/978-981-15-4485-9_59","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090696706&doi=10.1007%2f978-981-15-4485-9_59&partnerID=40&md5=adec8783d08e57bf0bcc09e6a6ce1aa3","Dwarkadas J. Sanghvi College of Engineering, Vile Parle, Mumbai, Maharashtra  400056, India; Sardar Patel College of Engineering, Andheri, Mumbai, India","Mathew, G., Dwarkadas J. Sanghvi College of Engineering, Vile Parle, Mumbai, Maharashtra  400056, India; Rane, S.B., Sardar Patel College of Engineering, Andheri, Mumbai, India","Life test of molded case circuit breakers (MCCB) on mechanical endurance test setup showed degradation in the functional deliverables of a MCCB, such as reset force and contact pressure. Degradation in functional deliverables affects the satisfactory working of the circuit breaker and decreases its reliability. Functional deliverables of a MCCB in development phase can be measured using two systems of measurement. A gage repeatability and reproducibility study using 2 operators, 5 parts and 3 trials was performed to select the best measurement system. MCCBs were then tested on a life cycle test setup, and the degradation in the deliverables was measured using the selected measurement system. These measured values were analyzed, and the circuit breaker reliability was then predicted using Minitab software. © 2020, Springer Nature Singapore Pte Ltd.","Degradation analysis; Reliability; Repeatability; Reproducibility","Electric network analysis; Life cycle; Reliability analysis; Software reliability; Timing circuits; Circuit-breakers; Degradation analysis; Development phasis; Measurement system; Molded case circuit breakers; Molded case circuit-breaker; Reliability estimation; Repeatability; Reproducibilities; Test setups; Electric circuit breakers",,,,,,,,,,,,,,,,"Kuo, CC, Huang, PJ, Repeatability and reproducibility study of thin film optical measurement system (2012) Optik, 124 (18), pp. 3489-3493; Peruchi, RS, Balestrassi, PP, Paiva, AP, Ferreira, JR, Carmelossi, MD, A new multivariate gage R&R method for correlated characteristics (2013) Int J Prod Econ, 144 (1), pp. 301-315; Cottenden, AM, Rothwell, JG, Leander, H, Grau, C, Brooks, RJ, An investigation of the repeatability and reproducibility of ISO 11948-1 (the Rothwell method) for measuring the absorption capacity of incontinence pads (2001) Med Eng Phys, 24, pp. 159-163; Abenhaim, GN, Desrochers, A, Tahan, AS, An investigation of the repeatability of nonrigid parts measurements: a case Study of an aluminium panel (2013) CIRP Conf Comput Aided Tolerancing, 10, pp. 105-111; Lenis, YA, Agudelo, A, Pérez, JF, Analysis of statistical repeatability of a fixed bed downdraft biomass gasification facility (2012) Appl Therm Eng, 51 (1–2), p. 1006; Monnet, T, Thouzé, A, Pain, MT, Begon, M, Assessment of reproducibility of thigh marker ranking during walking and landing tasks (2012) Med Eng Phys, 34 (8), pp. 1200-1208; Al-Refaie, A, Bata, N, Evaluating measurement and process capabilities by GR&R with four quality measures (2010) Measurements, 43 (6), pp. 842-851; Voor, MJ, Yang, S, Burden, RL, Waddell, SW, In vivo micro-CT scanning of a rabbit distal femur: Repeatability and reproducibility (2007) J Biomech, 41 (1), pp. 186-193","Mathew, G.; Dwarkadas J. Sanghvi College of Engineering, Vile Parle, India; email: greg_12@ymail.com","Vasudevan H.Kottur V.K.N.Raina A.A.",,"Springer Science and Business Media Deutschland GmbH","2nd International Conference on Intelligent Manufacturing and Automation, ICIMA 2020","27 March 2020 through 28 March 2020",,241819,21954356,9789811544842,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85090696706
"Mathew G., Rane S.B., Patil Y., Mohan S.V.","57218913474;56149402100;57210155093;57218913370;","Development of Spring Life Test Apparatus and Life-Cycle Assessment of Extension Springs",2020,"Lecture Notes in Mechanical Engineering",,,,"493","501",,,"10.1007/978-981-15-4485-9_51","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090695521&doi=10.1007%2f978-981-15-4485-9_51&partnerID=40&md5=1d7c7cc4ad60fe0109d73148bd281f14","Dwarkadas J. Sanghvi College of Engineering, Vile Parle, Mumbai, Maharashtra  400056, India; Sardar Patel College of Engineering, Andheri, Mumbai, India; L&T EAIC, Mumbai, India","Mathew, G., Dwarkadas J. Sanghvi College of Engineering, Vile Parle, Mumbai, Maharashtra  400056, India; Rane, S.B., Sardar Patel College of Engineering, Andheri, Mumbai, India; Patil, Y., L&T EAIC, Mumbai, India; Mohan, S.V., L&T EAIC, Mumbai, India","Life-cycle test of moulded case circuit breakers (MCCB) on mechanical endurance test apparatus exhibited springs as the weak links. Therefore, improvement in the reliability of the circuit breaker mechanism was possible only with an improvement in the life of the springs. To evaluate spring life, a life-cycle test apparatus was developed which subjected springs to actual load conditions as experienced in MCCB. This paper describes the development and working of the test apparatus. The paper also explains how reliability of springs can be estimated using life data provided by the apparatus. © 2020, Springer Nature Singapore Pte Ltd.","Fatigue failure; Hook failure; Reliability; Weibull plot","Electric circuit breakers; Failure (mechanical); Reliability; Cycle tests; Extension springs; Fatigue failures; Hook failure; Life-tests; Mechanical; Molded case circuit breakers; Molded case circuit-breaker; Test apparatus; Weibull plots; Life cycle",,,,,,,,,,,,,,,,"Cui, Y, Khan, AW, A case study—reliability based product development and improvement model (2007) Qual Reliab Eng Int, 24, pp. 361-373; Zanoff, J, Ekwaro-Osire, S, An Approach that can quickly assess product reliability (2009) Qual Reliab Eng Int, 26, pp. 571-578; Chen, J, Xia, Z, Fatigue behaviour of coke drum materials under thermal-mechanical cyclic loading (2014) Theor Appl Mech Lett, 4 (4), p. 041006; Pyttel, B, Brunner, I, Kaiser, B, Berger, C, Mahendran, M, Fatigue behaviour of helical compression springs at a very high number of cycles—investigation of various influences (2013) Int J Fatigue, 60, pp. 101-109; Ravi Kumar, B, Das Swapan, K, Bhattacharya, DK, Fatigue failure of helical compression spring in coke oven batteries (2003) Eng Fail Anal, 10 (3), pp. 291-296; Schulz, BA, Moran, AL, Fatigue failure of an F/A-18 fin retainer spring (2001) Eng Fail Anal, 8 (2), pp. 167-172; Berger, C, Kaiser, B, Results of very high cycle fatigue tests on helical compression springs (2006) Int J Fatigue, 28 (11), pp. 1658-1663; Rivera, R, Chiminelli, A, Gómez, C, Núñez, JL, Fatigue failure analysis of a spring for elevator doors (2010) Eng Fail Anal, 17 (4), pp. 731-738; Nohut, S, Schneider, GA, Failure probability of ceramic coil springs (2009) J Eur Ceram Soc, 29 (6), pp. 1013-1019; Das, SK, Mukhopadhyay, NK, Ravi Kumar, B, Bhattacharya, DK, Failure analysis of a passenger car coil spring (2006) Eng Fail Anal, 14, pp. 158-163; Cheng, JX, Yan, WC, Mechanical spring reliability assessments based on FEA generated fatigue stress and monte carlo simulated stress/ strength distributions (2004) International compressor engineering conference, , (Paper no: 1693)","Mathew, G.; Dwarkadas J. Sanghvi College of Engineering, Vile Parle, India; email: greg_12@ymail.com","Vasudevan H.Kottur V.K.N.Raina A.A.",,"Springer Science and Business Media Deutschland GmbH","2nd International Conference on Intelligent Manufacturing and Automation, ICIMA 2020","27 March 2020 through 28 March 2020",,241819,21954356,9789811544842,,,"English","Lect. Notes Mech. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85090695521
"Sonavane V., Bhole K.","57204174132;55485785300;","Static and Frequency Analysis of Triple Stage Three Arm Spiral Shape Flexural bearing using FEA",2020,"Materials Today: Proceedings","24",,,"1383","1391",,1,"10.1016/j.matpr.2020.04.456","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090600189&doi=10.1016%2fj.matpr.2020.04.456&partnerID=40&md5=61ffc54cdae64a058913097a33e1d6ec","Research Scholar, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India","Sonavane, V., Research Scholar, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Bhole, K., Research Scholar, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India","This paper deals with the Static and Modal analysis of the triple layer two stacked flexure bearing.In our previous papers, we have deal with the double stack double layer static and frequency analysis. There is less data available for the designer to choose desired bearing for desired output and hence more simulations are made and are presented graphically in this paper. The models were prepared in CATIA and were simulated in ANSYS software. After laying the boundary conditions, the results were obtained, and some results were validated by comparing them with previous obtained results in research papers. A design procedure is laid for designer to choose the optimum combination for the desired output. © 2018 Elsevier Ltd.","Cryogenics; Design methodology; Flexural mechanisms; parameter analysis; Spiral arm","Design; Finite element method; Design Methodology; Double layers; Double stacks; Flexural bearing; Flexural mechanism; Flexure-bearing; Frequency Analysis; Parameter analysis; Spiral arms; Spiral shape; Modal analysis",,,,,,,,,,,,,,,,"Avtar, S., Massachusetts institute of (2004) Technology; Gandhi, P.S., Deshmukh, S., (2009) J. Micromech. Microeng., 20, pp. 1-11; Deshmukh, S., Gandhi, P.S., (2008) J. Mater. Process. Technol, 209, pp. 1275-1285; Gandhi, P.S., Bhole, K.S., (2011) IMECE2011-62473, 11, pp. 393-399; Gandhi, P.S., Bhole, K.S., Chaudhari, N., (2012) MSEC2012-7357, pp. 959-964; Gandhi, P.S., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Manuf. Syst, 12, pp. 43-68; Gandhi, P.S., Bhole, K.S., (2013) J. Micro Nano-Manuf., 1; Luo, H.P., Zhang, B., Zhou, Z.X., (2008) CIRP Annals - Manufacturing Technology, 57, pp. 179-182; Bhole, K.S., Gandhi, P.S., Kundu, T., (2014) J. Appl. Phys, 116; Gaunekar, A.S., Goddenhenrich, T., (1996) Cryogenics, 36, pp. 359-364; Lee, C.C., Pan, R.B., Cryocoolers (1997) New York: PlenumPress, 9, pp. 413-420; Trollier, T., Ravex, A., Mullie, J., ISSCryocoolers (2003) New York: Plenum Press, 12, pp. 31-35; Rawlings Richard, M., Miskimins, S.M., Proc. of SPIE, Infrared technology and applications (2000) XXVI, 4130, pp. 406-412; Gaunekar, A.S., Widdowson, G.P., (2005) Precis. Eng, 29, pp. 81-85; Chen, N., Chen, X., Wu, Y.N., Yang, C.G., (2006) Cryogenics, 46, pp. 409-419; Amoedo, S., Thebaud, E., Gschwendtner, M., White, D., (2016) Cryogenics; Prasad, R., Achanur, M., Damu, C., (2014) IJERT,ISSN:2278-0181, , April; Tian, Y., Shirinzadeh, B., Zhang, D., (2009) Precis. Eng, 33, pp. 160-166; Tian, Y., Zhang, D., Shirinzadeh, B., (2011) Precis. Eng, 35, pp. 554-565; Simcock, C.J., (2007) Cryocoolers, 14, pp. 335-343; Qi, Y., Wu, Y., Zhang, H., Chen, X., (2009) ASME International Conference, IDETC/CIE, DETC2009-86371, pp. 805-809; Phakatkar, H., Sahasrabudhe, A., MandarLele (2015) J. Mater. Sci. Surface Eng, 3 (2), pp. 211-215; Longsworth, R.C., (1993) NASA ContractReport, 4538; Benschoptonny, M., Bruins Peter (2003) Proc, SPIE, Infrared Technologyand Applications XXVIII, 4820, pp. 33-42; Hyacinth, X., Suganthi, U., Natarajan, N., Ramasubbu (2015) Int. J. Adv. Manuf. Tech., 81, pp. 199-217; Stephen, A., GezaSchrauf, SalarMehrafsun, Frank Vollertsen (2014) Proc. CIRP, 24, pp. 130-133; Marquardt, E., Radebaugh, R., Kittelproc, P., (1992) 7th International Cryogenics Conf., pp. 783-804; (2007) Optomechanical Translational Stages, , http://www.holmarc.com/optomechanics.html, Holmarc; (2015) BLDC Motors, , http://www.maxonmotor.in, Maxon; (2015) Micro Tools, A., , http://axismicrotools.com/micro-drills-reamers, micro-drill bits; (2015) Showa Tools Limited, , http://www.showatool.com/en/products/rsc/index.php, chuck collet; (2012) Optical Microscope, , http://www.olympusims.com/en/microscope/mx51/, Olympus; Bhole, K., Sonavane, V., (2018) Materials Today Proceedings, 5 (9), pp. 19380-19390; Sonavane, V., Bhole, K., (2018) FEAST Conference, pp. 115-120. , Nit-Trichy","Sonavane, V.; Research Scholar, India; email: vinit.sonavane93@gmail.com","Basavarajappa S.Rao C.S.P.Nagaraja S.R.",,"Elsevier Ltd","2018 International Conference on Advances in Materials and Manufacturing Applications, IConAMMA 2018","16 August 2018 through 18 August 2018",,162165,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85090600189
"Walte A.B., Bhole K., Gholave J.","57218877428;55485785300;37072312800;","Mechanical Characterization of Coir Fiber Reinforced Composite",2020,"Materials Today: Proceedings","24",,,"557","566",,14,"10.1016/j.matpr.2020.04.309","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090555133&doi=10.1016%2fj.matpr.2020.04.309&partnerID=40&md5=f1d56df6dd8d7174b4e2c64f14d18379","Sardar Patel College of Engineering, Mumbai, 400058, India","Walte, A.B., Sardar Patel College of Engineering, Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Mumbai, 400058, India; Gholave, J., Sardar Patel College of Engineering, Mumbai, 400058, India","Over a long period of the time fiber reinforced composite have being used in a variety of applications. Their high specific strength and modulus are the main contributing factor in their increasing demand in the day to day application. Fibers used as reinforcement in this polymer-based composite may be naturally occurring or man-made. A study has been carried out to make use of naturally occurring coir fiber as reinforcement in an epoxy-based composite. The main objective of this research is to study the effect of fiber orientation and fiber length on the mechanical properties of the coir fiber reinforced composite. Coir fiber composite with fiber orientated as random and aligned is manufactured with fiber length varying in three levels (30 mm, 40 mm & 50 mm). Coir fibers were treated with 5% Sodium Hydroxide solution before adding them to epoxy resin. Composite is manufactured with fiber volume fraction of 25% and epoxy 75% were manufactured using hand lay-up technique. Mechanical properties such as tensile strength, flexural strength, impact strength, and hardness were found to improve on account of increase in fiber length. It is observed that with the change in fiber orientation from random to aligned, hardness values reduced whereas tensile strength, flexural strength, and impact strength improved. © 2018 Elsevier Ltd.","Coir fiber; Epoxy; Fiber length; Fiber orientation; Fiber volume fraction; Mechanical behavior; Polymer composite; Surface treatment","Bending strength; Epoxy resins; Fibers; Hardness; Impact strength; Reinforcement; Sodium hydroxide; Tensile strength; Volume fraction; Coir fibers; Epoxy; Fiber length; Fiber volume fractions; Fibre orientation; Fibre-reinforced composite; In-fiber; Mechanical behavior; Naturally occurring; Polymer composite; Surface treatment",,,,,,,,,,,,,,,,"Mulinari, D.R.A., Baptista, C.A.R.P.B., Souza, J.V.C.A., Voorwald, H.J.C.C., (2011) Procedia Engineering, 10, pp. 2074-2079; Huang, Gu., (2009) Materials and Design, 30, pp. 3931-3934; Rout, J., Misra, M., Tripathy, S.S., Nayak, S.K., Mohanty, A.K., (2001) Composites Science and Technology, 61, pp. 1303-1310; Biswas, S., Kindo, S., Patnaik, A., (2011) Fibers and Polymers, 12 (1), pp. 73-78; Romli, F.I., Alias, A.N., Rafie, A.S.M., Majid, D.L.A.A., (2012) AASRI Procedia, 3, pp. 242-247; Nam, T.H., Ogihara, S., Tung, N.H., Kobayashi, S., Composites Part B: Engineering, 42 (6), pp. 1648-1656; Haque, M., Islam, N., Huque, M., Hasan, M., Islam, S., Islam, S., (2010) Advance Composite Materials, 19, pp. 91-106; Huu Nama, T., Shinji Ogihara, Nguyen Huy Tung, Satoshi Kobayashi (2011) Composites: Part B, 42, pp. 1648-1656; Zaman, H.U., Beg, M.D.H., (2014) Fibers and Polymers, 15 (4), pp. 831-838; Kumaresan, M., Sathish, S., Karthi, N., (2015) Journal of Applied Science and Engineering, 18 (3), pp. 289-294; Lai, C.Y., Sapuan, S.M., Ahmad, M., Yahya, N., Dahlan, K.Z.H.M., Polymer-Plastics Technology and Engineering (2005) Taylor and Francis, 44, pp. 619-632; Shrivastavaa, R., Telangb, A., Ranac, R.S., Rajesh Purohit, D., (2017) Materials Today: Proceedings, 4, pp. 3477-3483; Krishnamoorthy, K., Sasikumar, T., (2016) International Journal of Applied Engineering Research ISSN 0973-4562, 11 (1), pp. 380-384; Analysis and Performance of Fiber Composites- Third Edition- Agarwal, Broutman, and Chandrashekra, , Wiley India Publication; www.nptel.ac.in; www.astm.org; www.iso.org",,"Basavarajappa S.Rao C.S.P.Nagaraja S.R.",,"Elsevier Ltd","2018 International Conference on Advances in Materials and Manufacturing Applications, IConAMMA 2018","16 August 2018 through 18 August 2018",,162165,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85090555133
"Devkare S.S., Bhole K.S., Kale B.S., Sharma C.","57216757287;55485785300;57194765857;57213588846;","Control of viscous fingering of Bingham plastic fluid in lifting plate Hele-Shaw cell",2020,"Materials Today: Proceedings","28",,,"1920","1926",,8,"10.1016/j.matpr.2020.05.314","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090133509&doi=10.1016%2fj.matpr.2020.05.314&partnerID=40&md5=bf229a8fed0bd872990c10df353b4f3b","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, 400058, India; Department of Mechanical Engineering, DattaMeghe College of Engineering, Airoli Navi Mumbai, 400708, India","Devkare, S.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, 400058, India; Bhole, K.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, 400058, India; Kale, B.S., Department of Mechanical Engineering, DattaMeghe College of Engineering, Airoli Navi Mumbai, 400708, India; Sharma, C., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, 400058, India","Bio-mimicking the natural structure is one of the important aspects which have been developed with various inventions in the fields of engineering. There has been a subsequent effort to mimic the branched structure that can be seen in the leaves of trees and also in the branched structure of veins and arteries in the human body. This is done on the Lifting plate Hele-Shaw Cell (LHSC) setup. In LHSC, Bingham plastic fluid is squeezed between two parallel plates and then one of the plates is lifted up. This leads to some indefinite branched pattern commonly known as viscous fingers or micro fractals. Viscous fingering can be obtained using Newtonian fluid, Bingham plastic fluid. In this paper Bingham plastic fluid is used to study. Saffman-Taylor instability explains the formation of these viscous fingers. The main part of this paper is to control the formation of the viscous fingers and to get it in the desired shape. This can be done by providing some anisotropies on the surface of the plate in the form of pits or holes. The experiments are conducted under wide range of lifting velocities in Hele-Shaw cell. The geometrical dimensions of the viscous fingers are measured and their variation with the lifting velocity is plotted. © 2020 Elsevier Ltd.","Lifting plate Hele-Shaw cell; Micro fractals; Saffman-Taylor instability; Source holes; Viscous fingers","Cells; Cytology; Newtonian liquids; Plates (structural components); Bingham plastic fluids; Biomimicking; Branched structures; Hele-Shaw cells; Lifting plate hele-shaw cell; Micro fractal; Saffman-Taylor instability; Source hole; Viscous fingering; Viscous fingers; Fractals",,,,,"University of Mumbai, UM: APD/237/601","Authors would like to acknowledge financial support for this work through Minor Research Grant, University of Mumbai, INDIA (Reference No. APD/237/601 of 2019 ).",,,,,,,,,,"Kessler, D.A., Levine, H., Coalescence of Saffman-Taylor fingers: A new global instability (1986) Am. Phys. Soc., pp. 3625-3627; Dias, E.O., Miranda, J.A., Determining the number of fingers in the lifting Hele-Shaw problem (2013) Phys. Rev. E, 88, pp. 1-6; Singare, A.A., Kale, B.S., Suresh Bhole, K., Experimental characterization of meso-micro fractals from nanoparticle seeded resin in lifting plate Hele-Shaw Cell (2018) Mater. Today: Proc, 5 (11), pp. 24213-24220; Kale Bharatbhushan, S., Bhole, K., Parametric Analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell (2019) Iop Conference Series: Mater. Sci. Eng., 577 (1), pp. 1-8. , IOP Publishing; Kale Bharatbhushan, S., Bhole, K., Khond, P., Experimental modelling of meso fractals generated from non newtonian fluid from lifting plate Hele-Shaw Cell (2019) Adv. Mater. Manuf. Characterization, 9 (2), pp. 29-35; Ul Islam, T., Gandhi, P.S., Fabrication of multi scale fractal-like structures by controlling fluid interface instability (2016) Sci. Rep., pp. 1-9; Ul Islam, T., Gandhi, P.S., Viscous fingering in multiport Hele Shaw Cell for controlled shaping of fluids (2017) Sci. Rep., pp. 1-9; Sinha, S., Dutta, T., Tarafdar, S., Adhesion and fingering in the lifting Hele-Shaw cell: Role of the substrate (2008) Eur. Phys. J. E, pp. 267-275; Tarafdar, S., Nag, S., Dutta, T., Sinha, S., Computer simulation of viscous fingers in a lifting Hele-Shaw cell with grooved plates (2009) Indian Acad. Sci., 73 (4), pp. 743-754; Gordon, S.M., Shand, E.W., (1932) Surface Tension of Tooth Paste Solutions, American Dental Association Bureau of Chemistry, Chicago, 3, pp. 1148-1152; Kanhurkar, S.D., Patankar, V., Islam, T., Prasanna, S., Gandhi and Amitabh Bhattacharya, Stability of Viscous Fingering in Lifted Hele Shaw Cell with a Hole (2019) Phys. Rev. Fluids, 4, pp. 1-26","Kale, B.S.; Department of Mechanical Engineering, India; email: bhrtkale18@gmail.com","Chauhan A.Sehgal S.",,"Elsevier Ltd","2020 International Conference on Aspects of Materials Science and Engineering, ICAMSE 2020","29 May 2020 through 30 May 2020",,161770,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85090133509
"Mishra N., Rane S.B.","57202760964;56149402100;","Development and deployment of organisational culture maturity model (TMKC) for the business excellence success",2020,"International Journal of Business Excellence","21","2",,"153","169",,,"10.1504/IJBEX.2020.107591","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85086036071&doi=10.1504%2fIJBEX.2020.107591&partnerID=40&md5=aa048f1ef7f8eccd2e4a718dfd314dcd","Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400058, India","Mishra, N., Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400058, India; Rane, S.B., Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400058, India","The paper describes the development of the maturity-based organisational culture model (TMKC - team bonding-motivation-knowledge management-commitment for improvement). Each level of the model has practices for the improvements. The model deployment in 11 different organisations indicates the earnings before interest, depreciation, taxes and amortisation (EBITDA) are significantly higher. Delphi method-based survey, dipstick survey and correlation analysis were applied to discover the extent of the problem. The cluster analysis, principal components analysis and artificial neural network were used to prioritise organisation-based cultural factors from 13 to 4. The impact of TMKC model was validated through pilots and statistical tests. The higher maturity levels of 4 and 5 have significantly increased business excellence (BE) initiative goal achievement rate from 34% to 86%. The successful TMKC model deployment positively impacts % EBITDA change. The model has been piloted in 11 cases and its finding can change with deployments in varied instances. Copyright © 2020 Inderscience Enterprises Ltd.","Artificial neural network; BE; Business excellence; Cluster analysis; Delphi-based survey; Maturity models; Principal components analysis; Team bonding-motivation-knowledge management-commitment for the improvement; TMKC",,,,,,,,,,,,,,,,,"Alas, R., Vadi, M., The impact of organisational culture on organisational learning and attitudes concerning change from an institutional perspective (2006) International Journal of Strategic Change Management, 1 (1-2), pp. 155-170; Antunes, P., Carreira, P., da Silva, M., Towards an energy management maturity model (2014) Energy Policy, 73 (100), pp. 803-814; Arling, P., Chun, M., Facilitating new knowledge creation and obtaining KM maturity (2011) Journal of Knowledge Management, 15 (2), pp. 231-250; Baskarada, S., (2009) IQM-CMM: Information Quality Management Capability Maturity Model, , Springer International Publishing, Berlin, Germany; Bochert, S., Schneider, S., Weßels, D., The Kiel maturity model as a future-oriented mindset for sustainable knowledge management processes (2016) International Journal of Sustainable Economy, 8 (4), pp. 312-323; Breyfogle, F., (1999) Implementing Six Sigma: Smarter Solutions Using Statistical Methods, , John Wiley and Sons, New York; Cadden, T., Marshall, D., Cao, G., Opposites attract: Organisational culture and supply chain performance (2013) Supply Chain Management: An International Journal, 18 (1), pp. 86-103; Chemweno, P., Pintelon, L., Horenbeek, A., Muchiri, P., Asset maintenance maturity model: Structured guide to maintenance process maturity (2015) International Journal of Strategic Engineering Asset Management, 2 (2), pp. 119-135; Edwards, J., Kleiner, B., Transforming organisational values and culture effectively (1988) Leadership & Organization Development Journal, 9 (1), pp. 13-16; El-Baz, H., Zualkernan, I., Employee competency maturity model and its application in global software outsourcing (2011) International Journal of Computer Applications in Technology, 40 (3), pp. 170-180; Friedrich, R., (2017) The Virtual Team Maturity Model, , Springer International Publishing, Berlin, Germany; Frimodig, L., Torkkeli, M., Sources for success - New venture creation in seed and business accelerators (2017) International Journal of Business Excellence, 12 (4), pp. 489-507; Gertsen, F., How continuous improvement evolves as companies gain experience (2001) International Journal of Technology Management, 22 (4), pp. 303-326; Hatefi, M., A model for measuring success of an organisational management system (2017) International Journal of Advanced Operations Management, 9 (2), pp. 73-87; Humphrey, W., (1990) Managing Software Processes, , Addison Wesley¸ Massachusetts; Husson, F., Pages, J., Le, S., (2010) Exploratory Multivariate Analysis by Example Using R, , CRC Press, Florida; Kosieradzka, A., Maturity model for production management (2017) Procedia Engineering, 182, pp. 342-349; Kothandaraman, K., Kamalanabhan, T., People process excellence and business outcomes - A structural equation modelling-based analysis (2018) International Journal of Business Excellence, 15 (1), pp. 1-17; Kruger, C., Johnson, R., Is there a correlation between knowledge management maturity and organizational performance? 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Shah, H., Kant, R., Identification of critical knowledge management enablers for implementation of KM in manufacturing organisations (2018) International Journal of Business Excellence, 14 (3), pp. 285-318; Shahriari, M., Abzari, M., Isfahani, A., Kianpour, M., The effect of high-performance work systems on radical innovation in knowledge-based companies through moderating role of innovation capabilities (2018) International Journal of Business Excellence, 16 (3), pp. 269-285; Shanmuganathan, S., Samarasinghe, S., (2016) Artificial Neural Network Modelling (Studies in Computational Intelligence), , Springer, Berlin; Shukla, R., Garg, D., Agarwal, A., Modelling supply chain coordination for performance improvement using analytical network process-based approach (2018) International Journal of Business Excellence, 14 (1), pp. 18-48; Smith, G., Kleiner, B., Differences in corporate cultures and their relationship to organisational effectiveness (1987) Leadership & Organization Development Journal, 8 (5), pp. 10-12; Sreenath, T., Bagodi, V., Interrelationships amongst performance measures towards excellence: A study of small and medium enterprises (2017) International Journal of Business Excellence, 13 (2), pp. 141-159; Taeger, D., Kuhnt, S., (2014) Statistical Hypothesis Testing with SAS and R, , John Wiley and Sons, New Jersey; Tan, C., Sim, Y., Yeohet, W., (2011) A Maturity Model of Enterprise Business Intelligence, 11p. , Article ID IBIMA Publishing, Pennsylvania; Teah, H., Pee, L., Kankanhalli, A., Development and application of a general knowledge management maturity model (2009) Journal of Information & Knowledge Management, 8 (2), pp. 79-99; Till, A., (2016) Measuring Technology Maturity-Operationalizing Information from Patents, Scientific Publications, and the Web, , Springer International Publishing, Berlin, Germany; Vaus, D., (2001) Research Design in Social Research, , Sage Publications Ltd., California; Vidal, L., Marle, F., Bocquet, J., Building up a project complexity framework using an international Delphi study (2013) International Journal of Technology Management, 62 (2-4), pp. 251-283; Xenikou, A., Simosi, M., Organizational culture and transformational leadership as predictors of business unit performance (2006) Journal of Managerial Psychology, 21 (6), pp. 566-579","Mishra, N.; Department of Mechanical Engineering, India; email: mishranu@yahoo.com",,,"Inderscience Publishers",,,,,17560047,,,,"English","Int. J. Bus. Excellence",Article,"Final","",Scopus,2-s2.0-85086036071
"Londhe B.U., Bhole K.S., Sharma C., Bhole D.K.","57213607705;55485785300;57213588846;57213600316;","Development of Polymer Microneedle upon Exposure of Hollow Gaussian Beam on Unconstraint Depth Resin",2019,"IOP Conference Series: Materials Science and Engineering","577","1","012047","","",,,"10.1088/1757-899X/577/1/012047","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85077909681&doi=10.1088%2f1757-899X%2f577%2f1%2f012047&partnerID=40&md5=4fc2d5190b8b762424103a9382673846","Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Shree L R Tiwari College of Engineering, Mira Road, Thane, 401107, India","Londhe, B.U., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Bhole, K.S., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Sharma, C., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Bhole, D.K., Shree L R Tiwari College of Engineering, Mira Road, Thane, 401107, India","This paper presents characterization of unconstraint depth photopolymerization yielding different forms of cured voxel under exposure of hollow Gaussian beam. The governing model consists of nonlinear Schrodinger equation along with transient diffusion phenomenon and intensity dependent refractive gradient is considered in predicting the curing behaviour. The effect of various process parameters viz; intensity of and degree of hollowness of Gaussian beam, time of exposure on the formation of cured voxel is presented in this paper. Typical of cured voxel resembles hollow microneedle under certain conditions of exposure. The study proposes potential possibility to be used as one of the methods to develop hollow microneedle being used in many biomedical applications for effective drug delivery. © Published under licence by IOP Publishing Ltd.",,"Control nonlinearities; Curing; Drug delivery; Gaussian distribution; Manufacture; Medical applications; Needles; Nonlinear equations; Photopolymerization; Schrodinger equation; Biomedical applications; Hollow Gaussian beam; Intensity-dependent; Microneedles; Polymer Micro needles; Process parameters; Transient diffusion; Gaussian beams",,,,,,,,,,,,,,,,"Subramanyam Paduchuri, V., Radha Rani, E., (2014) Indo American Journal of Pharmaceutical Research, 4, pp. 1917-1922; Yeu-Chun, K., (2012) Advanced Drug Delivery Reviews, 64 (14), pp. 1547-1568; Richa, P., Yogesh, P., (2016) International Journal of Modern Trends in Engineering and Research, 3; Yang, S., Megens, M., Aizenberg, J., Wiltzius, P., Chaikin, P.M., Russel, W.B., (2002) Chemistry of Materials, 14 (7), pp. 2831-2833; Park Jeon, J.U., Cirelli, R., Yang, S., Heitzman, C.E., Braun, P.V., Kenis, P.J.A., Rogers, J.A., (2004) Proc. 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Theory Simul, 16 (4), p. 319; Ewa, A., (2001) Prog. Polym. Sci., 26 (4), pp. 605-665; Tang, Y., (2005) School of Chemical and Bimolecular Engineering","Londhe, B.U.; Sardar Patel College of EngineeringIndia; email: bhagylondhe@gmail.com","Rao C.S.P.Basavarajappa S.",,"IOP Publishing Ltd","International Conference on Advances in Materials and Manufacturing Applications 2018, IConAMMA 2018","16 August 2018 through 18 August 2018",,156326,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85077909681
"Kale B.S., Bhole K.","57194765857;55485785300;","Parametric Analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell",2019,"IOP Conference Series: Materials Science and Engineering","577","1","012154","","",,7,"10.1088/1757-899X/577/1/012154","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85077906190&doi=10.1088%2f1757-899X%2f577%2f1%2f012154&partnerID=40&md5=81f90a35abd0139cc62b35d9a728d599","Datta Meghe College of Engineering, Airoli, Navi Mumbai, India; Sardar Patel College of Engineering, Andheri, Mumbai, India","Kale, B.S., Datta Meghe College of Engineering, Airoli, Navi Mumbai, India; Bhole, K., Sardar Patel College of Engineering, Andheri, Mumbai, India","Development of meso and micro size fractal structures is required to mimic various biological systems for various functions. Meso and micro size fractal structures are fabricated by several processes in Engineering. A number of fluid flows are exhaustively analyzed and investigated in the direction of development of meso and micro fractal structures. Hele-Shaw flow is one of the flows which fabricated meso and micro structure. Formation of fractals in Hele-Shaw cell can be done by compressing fluid in two flat parallel plates and lifting of upper plate in the upward direction. Lifting velocity of the upper plate, a gap between the plates, and fluid properties viz. density, viscosity are the major parameters in the formation of fractal. This paper presents the characterization of the fluid, study and analysis of microfractals followed by a mathematical model. The characterization of the fluid consists of photopolymer seeded with the nanopowder in the lifting plate of Hele-Shaw. The resin is prepared by mixing photoinitiator Benzoyl Ethyl Ether (BEE), Hexanediol Diacrylate (HDDA) added with ceramic nanopowder. Through the design of the experiment, micro fractal growth is observed and analysed. The fractals growth controlling parameters viz. gap between plates, velocity causes fluid separation are varied through the experimental setup. Effect of variation in viscosity set by varying loading fraction of seeded ceramic nanoparticles in a resin is observed for formation of fractals. Effect of process parameters on formation and growth of fractals is studied and presented. A dimensionless model of fractal growth is presented to analyse the effect of various parameters. Experimental methodology introduced a new style for the formation of controlled fractals or to imitate different meso and micro fractals available in nature or living things. © Published under licence by IOP Publishing Ltd.",,"Flow of fluids; Manufacture; Nanoparticles; Nanostructured materials; Plates (structural components); Polymethyl methacrylates; Resins; Viscosity; Ceramic nanoparticles; Ceramic nanopowders; Controlling parameters; Design of the experiment; Dimensionless models; Experimental methodology; Hexanediol diacrylate; Parametric -analysis; Fractals",,,,,,"Authors would like to acknowledge financial support for this work through generous donation under Technical Education Quality Improvement Program-II (TEQIP-II). Authors also acknowledge the support of Sardar Patel College of Engineering Andheri, Mumbai to carry out the project work.",,,,,,,,,,"Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Mfg. Sys., 12 (1), pp. 43-68; Bhole, K., Gandhi, P., Kundu, T., (2014) J. Appl. Phys., 116 (4); Gandhi, P., Bhole, K., (2013) J. of Micro and Nano-Mfg., 1 (4); Gandhi, P., Bhole, K., 3D microfabrication using bulk lithography (2011) ASME 2011 International Mechanical Engineering Congress and Exposition, pp. 393-399; Ladd, C., So, J.H., Muth, J., Dickey, M.D., (2013) Adv. Materials, 25 (36), pp. 5081-5085; Jang, J.H., Ullal, C.K., Maldovan, M., Gorishnyy, T., Kooi, S., Koh, C., Thomas, E.L., (2007) Adv. Functional Materials, 17 (16), pp. 3027-3041; Jang, D., Meza, L.R., Greer, F., Greer, J.R., (2013) Nature Materials, 12 (10), p. 893; Cohen, D.L., Malone, E., Lipson, H., Bonassar, L.J., (2006) Tissue Engineering, 12 (5), pp. 1325-1335; Kondic, L., Palffy-Muhoray, P., Shelley, M.J., (1996) Physical Review E, 54 (5), pp. R4536-R4539; Chevalier, C., Ben, M., Bonn, D., Lindner, A., (2006) J. Fluid Mech, 552 (1), pp. 83-97; Kondic, L., Shelley, M.J., Palffy-Muhoray, P., (1998) Physical Review Letters, 80 (7), p. 1433; Teodorescu, R., Lee, S.Y., Wiegmann, P., (2008) Tech. Rep.; Hadavinia, H., Advani, S., Fenner, R., (1995) Engg. Analysis with Boundary Elements, 16 (2), pp. 183-195; Kabiraj, S.K., Tarafdar, S., (2003) Physica A: Stats. Mechanics and Its Appl., 328 (3-4), pp. 305-314; Kim, H., Funada, T., Joseph, D.D., Homsy, G., (2009) Physics of Fuids, 21; Miranda, J., Widom, M., (1998) Physica D: Nonlinear Phenomena, 120 (3-4), pp. 315-328; Shelley, M.J., Tian, F.R., Wlodarski, K., (1997) Nonlinearity, 10 (6), p. 1471; Brandao, R., Fontana, J.V., Miranda, J.A., (2013) Physical Review E, 88 (6); Lindner, A., Bonn, D., Poire, E.C., Amar, M.B., Meunier, J., (2002) Journal of Fluid Mechanics, 469, pp. 237-256; Holzbecher, E., Modeling of viscous fingering (2009) COMSOL Conference; Choudhury, M.D., Tarafdar, S., (2015) Indian J. of Phy., 89 (5), pp. 471-477; Cummings, L., Howison, S., King, J., (1999) European J. of App. Math., 10 (6), pp. 635-680; Imomnazarov, K.K., (2004) Math. and Comp. Modelling, 40 (1-2), pp. 5-10; Fontana, J.V., Dias, E.O., Miranda, J.A., (2014) Physical Review E, 89 (1); Islam, T.U., Gandhi, P.S., (2016) Scientific Reports, 6 (1)",,"Rao C.S.P.Basavarajappa S.",,"IOP Publishing Ltd","International Conference on Advances in Materials and Manufacturing Applications 2018, IConAMMA 2018","16 August 2018 through 18 August 2018",,156326,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85077906190
"Chandanshive V.B., Kambekar A.R.","57418057700;6504409358;","Estimation of Building Construction Cost Using Artificial Neural Networks",2019,"Journal of Soft Computing in Civil Engineering","3","1",,"91","107",,12,"10.22115/SCCE.2019.173862.1098","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090986574&doi=10.22115%2fSCCE.2019.173862.1098&partnerID=40&md5=e8eca2db0bdc98e39116570551ae1a4b","Civil Engineering, SPCE, Andheri (West), Maharashtra, Mumbai, 400058, India","Chandanshive, V.B., Civil Engineering, SPCE, Andheri (West), Maharashtra, Mumbai, 400058, India; Kambekar, A.R., Civil Engineering, SPCE, Andheri (West), Maharashtra, Mumbai, 400058, India","The cost estimation of the building construction projects at initial stages with a higher degree of accuracy plays a vital role in the success of every construction project. Based on the survey and feedback of the design professionals and construction contractors, a dataset of 78 building construction projects was obtained from a mega urban city Mumbai (India) and geographically nearby region. The most influential design parameters of the structural cost of buildings (Indian National Rupees: INR) were identified and assigned as an input and the total structural skeleton cost (INR) signifies the output of the neural network models. This research paper aims to develop a multilayer feed forward neural network model trained along with a backpropagation algorithm for the prediction of building construction cost (INR). The early stopping and Bayesian regularization approaches are implemented for the better generalization competency of neural networks as well as to avoid the overfitting. It has been observed during the construction cost prediction that the Bayesian regularization approach performance level is better than early stopping. The results obtained from the trained neural network model shows that it was able to predict the cost of building construction projects at the early stage of the construction. This study contributes to construction management and provides the idea about the entire financial budget that will be helpful for the property owners and financial investors in decision making and also to manage their investment in the volatile construction industry. © 2019 The Authors. Published by Pouyan Press.","Artificial neural network; Cost predictions; Early stopping; Hidden layers; Regularization; Training functions",,,,,,,,,,,,,,,,,"Arafa, M., Alqedra, M., Early stage cost estimation of buildings construction projects using artificial neural networks (2011) J Artif Intell, 4, pp. 63-75; Petroutsatou, K., Georgopoulos, E., Lambropoulos, S., Pantouvakis, J.P., Early Cost Estimating of Road Tunnel Construction Using Neural Networks (2012) J Constr Eng Manag, 138, pp. 679-687; Yeh, I.-C., Quantity Estimating of Building with Logarithm-Neuron Networks (1998) J Constr Eng Manag, 124, pp. 374-380; Hegazy, T., Ayed, A., Neural Network Model for Parametric Cost Estimation of Highway Projects (1998) J Constr Eng Manag, 124, pp. 210-218; Cheng, M.-Y., Tsai, H.-C., Sudjono, E., Conceptual cost estimates using evolutionary fuzzy hybrid neural network for projects in construction industry (2010) Expert Syst Appl, 37, pp. 4224-4231; Hyari, K.H., Al-Daraiseh, A., El-Mashaleh, M., Conceptual Cost Estimation Model for Engineering Services in Public Construction Projects (2016) J Manag Eng, 32; Murat Günaydın, H., Zeynep Doğan, S., A neural network approach for early cost estimation of structural systems of buildings (2004) Int J Proj Manag, 22, pp. 595-602; Doğan, S.Z., Arditi, D., Murat Günaydin, H., Using Decision Trees for Determining Attribute Weights in a Case-Based Model of Early Cost Prediction (2008) J Constr Eng Manag, 134, pp. 146-152; Adeli, H., Wu, M., Regularization Neural Network for Construction Cost Estimation (1998) J Constr Eng Manag, 124, pp. 18-24; Ae, S., Ak, M., COST ESTIMATION PREDICTIVE MODELING: REGRESSION VERSUS NEURAL NETWORK (1997) Eng Econ, 42, pp. 137-161; Attalla, M., Hegazy, T., Predicting Cost Deviation in Reconstruction Projects: Artificial Neural Networks versus Regression (2003) J Constr Eng Manag, 129, pp. 405-411; Kim, G.-H., An, S.-H., Kang, K.-I., Comparison of construction cost estimating models based on regression analysis, neural networks, and case-based reasoning (2004) Build Environ, 39, pp. 1235-1242; Liu, J.-G., Zhang, X.-L., Wu, W.-P., (2006) Application of Fuzzy Neural Network for Real Estate Prediction, pp. 1187-1191; Lowe, D.J., Emsley, M.W., Harding, A., Predicting Construction Cost Using Multiple Regression Techniques (2006) J Constr Eng Manag, 132, pp. 750-758; Shehab, T., Farooq, M., Sandhu, S., Nguyen, T.-H., Nasr, E., Cost Estimating Models for Utility Rehabilitation Projects: Neural Networks versus Regression (2010) J Pipeline Syst Eng Pract, 1, pp. 104-110; Wang, Y.-R., Yu, C.-Y., Chan, H.-H., Predicting construction cost and schedule success using artificial neural networks ensemble and support vector machines classification models (2012) Int J Proj Manag, 30, pp. 470-478; Naik MG, Kumar DR. Construction Project Cost and Duration Optimization Using Artificial Neural Network. AEI 2015, Reston, VA: American Society of Civil Engineers; 2015, p. 433–44. doi:10.1061/9780784479070.038; Gardner, B.J., Gransberg, D.D., Rueda, J.A., Stochastic Conceptual Cost Estimating of Highway Projects to Communicate Uncertainty Using Bootstrap Sampling (2017) ASCE-ASME J Risk Uncertain Eng Syst Part a Civ Eng, 3; Beale, M.H., Hagan, M.T., Demuth, H.B., (1992) Neural Network Toolbox user’s Guide, , MathWorks Inc; Mackay, D.J.C., Bayesian Interpolation (1992) Neural Comput, 4, pp. 415-447; Patel, D.A., Jha, K.N., Neural Network Model for the Prediction of Safe Work Behavior in Construction Projects (2015) J Constr Eng Manag, 141","Chandanshive, V.B.; Civil Engineering, Andheri (West), Maharashtra, India; email: a_kambekar@spce.ac.in",,,"Pouyan Press",,,,,25882872,,,,"English","J. Soft. Comput. Civ. Eng.",Article,"Final","",Scopus,2-s2.0-85090986574
"Indalkar S.S., Sabnis A.","57215216252;54416304100;","An off Board Electric Vehicle Charger Based on ZVS Interleaved AC-DC Boost PFC Converter",2019,"2019 8th International Conference on Power Systems: Transition towards Sustainable, Smart and Flexible Grids, ICPS 2019",,,"9067544","","",,8,"10.1109/ICPS48983.2019.9067544","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084285851&doi=10.1109%2fICPS48983.2019.9067544&partnerID=40&md5=2d0b9b1df9ac6cb396992ade12e1b5a6","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India","Indalkar, S.S., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Sabnis, A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India","One major concern with Electric Vehicle (EV) is its range anxiety. Consequently, there's a need to develop a charger which transfers power directly from the residential grid supply to the vehicle. Converters used for charging in electric vehicles results in multiple shortcomings such as harmonic distortions at AC utility source along with lower Power Factor (PF). The EV chargers will be connected to grid for long hours (2-10hours), consequently the switching losses in converter will become significantly large. This paper proposes a new configuration used for battery charging of EVs using residential AC supply based of Zero Voltage Switching (ZVS) Interleaved AC-DC Boost Power Factor Correction (PFC) converter Interleaved DC-DC Buck Converter with the aim of lowering harmonics switching losses, improving PF and providing supplementary grid services while diminishing range anxiety by ensuring easy availability of EV charging points. © 2019 IEEE.","CC-CV; CV; Electric Vehicle; EV Charging; Interleaved Boost PFC Converter; Interleaved Buck Converter; ZVS.","Charging (batteries); Electric inverters; Electric power factor correction; Electric power transmission networks; Electric vehicles; Housing; Rectifying circuits; Zero voltage switching; Boost PFC; DC-DC buck converter; EV Charging; Grid services; Power factor correction converters; Power factors; Range anxieties; Switching loss; DC-DC converters",,,,,,,,,,,,,,,,"Dzikiy, P., https://electrek.co/2019/04/16/ev-registrations-double-2018/, April 16th 2019; https://en.wikipedia.org/wiki/Listofelectriccarscurrentlyavailable; Pahlevaninezhad, M., Das, P., Drobnik, J., Jain, P.K., Bakhshai, A., A ZVS interleaved boost ac/dc converter used in electric vehicles (2012) IEEE Transactions on Power Electronics, 27 (8). , August; Indalkar, S.S., Sabnis, A., Comparison of acdc converter topologies used for battery charging in electric vehicle (2019) 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies (ICICICT), pp. 735-739. , July; Krishna, P.S., Paul, J.E., Hari, K.R., Study and analysis of conventional and modified interleaved buck converter (2015) International Journal of Engineering Research and General Science, 3 (6). , Nov-Dec; Skanda, V., Nahar, A., Interleaved Power Factor Correction (IPFC) Using the DsPIC DSC, , 2009 Microchip Technology Inc; Raggl, K., Nussbaumer, T., Kolar, J.W., Guideline for a simplified differential-mode EMI filter design (2010) IEEE Trans. Ind. Electron, 57 (3), pp. 1031-1040. , Mar; Biela, J., Wirthmueller, A., Waespe, R., Heldwein, M.L., Raggl, K., Kolar, J.W., Passive and active hybrid integrated EMI filters (2009) IEEE Trans. Power Electronics, 24 (5), pp. 1340-1349. , May; Shenoy, K.L., Nayak, C.G., Mandi, R.P., Design and implementation of interleaved boost converter (2017) International Journal of Engineering and Technology (IJET), 9. , 3S July; Changsrisuk, J., Po-Ngam, S., The hybrid photovoltaic energy system for electric vehicle battery charger (2017) International Electrical Engineering Congress (IEECON); Gautam, D., Musavi, F., Edington, M., Eberle, W., Dunford, W.G., An automotive on-board 3.3 kw battery charger for phev application (2011) IEEE Vehicle Power and Propulsion Conference, , Sept; Joseph, A., Francis, J., Design and simulation of two phase interleaved buck converter (2015) International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 4. , Special 1, March",,,,"Institute of Electrical and Electronics Engineers Inc.","8th International Conference on Power Systems, ICPS 2019","20 December 2019 through 22 December 2019",,159393,,9781728141039,,,"English","Int. Conf. Power Syst.: Transit. towards Sustain., Smart Flex. Grids, ICPS",Conference Paper,"Final","",Scopus,2-s2.0-85084285851
"Jadhav S., Lavand S., Gajjar G.","57192540477;57190437478;6506783556;","Wide Area Measurement System based Frequency Data Mining for Event Detection in Power System",2019,"2019 8th International Conference on Power Systems: Transition towards Sustainable, Smart and Flexible Grids, ICPS 2019",,,"9067527","","",,2,"10.1109/ICPS48983.2019.9067527","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084279875&doi=10.1109%2fICPS48983.2019.9067527&partnerID=40&md5=a6a74740bdd3dbfc42995b983dc95b81","Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, 400058, India; Indian Institute of Technology Bombay, Dept. of Electrical Engineering, Mumbai, 400076, India","Jadhav, S., Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, 400058, India; Lavand, S., Sardar Patel College of Engineering, Dept. of Electrical Engineering, Mumbai, 400058, India; Gajjar, G., Indian Institute of Technology Bombay, Dept. of Electrical Engineering, Mumbai, 400076, India","The wide-area measurement system or WAMS has been commissioned at various substations. Phasor Measurement Units (PMUs) have been positioned at various 400kV substations and several Phasor Data Concentrators (PDCs) have been positioned at respective Regional Load Dispatch Centres (RLDCs). The volume of data excerpted is hefty. More often than not, the power system is in an ambient condition; ostensibly there are constantly a few occasions for every day, happening in the framework which may influence the strength and stability of our power system. Frequency is a ubiquitous signal in the power system. Which retorts to each significant perturbations like power swings, short circuit faults etc. This report introduces a strategy to consequently distinguish such disturbances while mining data from WAMS. The PMUs are able to compute the time-stamped value of frequency, rate of change of frequency, current and voltage in phasor format. Frequency measurements gathered from different locations are being brought to the algorithm of automatic event detection. The new technique has been enumerated to automatically recognize an event by utilizing frequency data acquired from only one location. L-1 Trend filter and Extended L-1 Trend filter is used to automatically detect the event and instance of the start of the event respectively. Two case studies and its outcomes for event detection has contrived here. © 2019 IEEE.","Auto Event Detection; Extended L - 1 Norm Filter; Frequency Data Mining; L - 1 Trend Filter; PDCs; PMUs; WAMS applications","Data mining; Electric load dispatching; Filtration; Geodesy; Passive filters; Surveying; Ambient conditions; Event detection; Frequency data; Frequency measurements; Phasor data concentrators; Phasor measurement unit (PMUs); Rate of change of frequencies; Short-circuit fault; Phasor measurement units",,,,,,,,,,,,,,,,"Gajjar, G., Soman, S.A., Auto detection of power system events using wide area frequency measurements (2014) 18th National Power System Conference, Guwahati, , Dec; Mining Wide Area Frequency Measurements in Power System, , https:www:ee:iitb:ac:in=course=gopal=thesis=gopalthesis:pdf; https:==nptel:ac:in=courses=108101039; Nadkarni, A., Soman, S.A., Applications of trend-filtering to bulk PMU time-series data for wide area operator awareness (2018) 2018 Power Systems Computation Conference; Girgis, A., Hwang, T.D., Optimal estimation of voltage phasors and frequency deviation using linear and non-linear Kalman filtering Theory and limitations (1984) IEEE Transactions on Power Apparatus and Systems, PAS-103 (10), p. 29432951. , Oct; Kim, S., Koh, K., Boyd, S., Dimitry, G.L., (2009) 1 Trend Filtering/SIAM Review, Problems and Techniques Section, 51 (2), p. 33960. , May; Macas, J.A.R., Gomez, A., (1998) Exposito Efficient Moving-Window DFT Algorithms IEEE Transactions on Circuits and Systems-II: Analog and Digital Signal Processing, 45 (2). , February; Phadke, A.G., James, S.T., Computer Relaying for Power Systems, , 2nd edition. Willy India; Jolliffe, I.T., (2002) Principal Component Analysis, Ser. Springer Series in Statistics, , New York: Springer-Verlag; Golub, G.H., Van Loan, C.F., (1996) Matrix Computations, , 3rd ed. Baltimore: Johns Hopkins University Press",,,,"Institute of Electrical and Electronics Engineers Inc.","8th International Conference on Power Systems, ICPS 2019","20 December 2019 through 22 December 2019",,159393,,9781728141039,,,"English","Int. Conf. Power Syst.: Transit. towards Sustain., Smart Flex. Grids, ICPS",Conference Paper,"Final","",Scopus,2-s2.0-85084279875
"Rane S.B., Potdar P.R., Rane S.","56149402100;57208580113;41762617600;","Accelerated life testing for reliability improvement: a case study on Moulded Case Circuit Breaker (MCCB) mechanism",2019,"International Journal of System Assurance Engineering and Management","10","6",,"1668","1690",,3,"10.1007/s13198-019-00914-6","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075380424&doi=10.1007%2fs13198-019-00914-6&partnerID=40&md5=60752371ce53b240bc779512026d2caf","Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri–West, Mumbai, 400058, India; Sardar Patel College of Engineering, Munshi Nagar, Andheri–West, Mumbai, 400058, India; Department of Mechanical Engineering, Goa College of Engineering, Farmagudi, Ponda, Goa  403401, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri–West, Mumbai, 400058, India; Potdar, P.R., Sardar Patel College of Engineering, Munshi Nagar, Andheri–West, Mumbai, 400058, India; Rane, S., Department of Mechanical Engineering, Goa College of Engineering, Farmagudi, Ponda, Goa  403401, India","MCCB plays a critical role in electricity distribution, and its failure may be costly and hazardous. According to Conseil International des Grands Réseaux Électriques (CIGRE) report CIGRE SC13 (High voltage circuit breaker reliability data for use in system reliability studies, CIGRE Publication, Paris, 1991), it is explored that majority of the circuit breaker failures (90%) occurred due to the failure of the mechanism. In this study, MCCB mechanism is under development stage due to which failure data of mechanism is not available to predict reliability. Therefore, it is essential to assess and improve reliability of MCCB mechanism to know and achieve higher reliability. This paper demonstrates the process of reliability assessment and improvement of the MCCB mechanism by using Boolean algebra and Accelerated Life Test (ALT). Further, Weibull distribution is selected for reliability prediction based on comparison with other distributions. Reliability of mechanism is compared with before improvement and after improvement conditions. In reliability testing, ALT is used, and the result shows that frequency of latch link failure is maximum due to denting and distortion of link. Further, few improvement measures are proposed based on design and manufacturing aspects, and results of suggested measures shows improvement in MCCB mechanism reliability from 72.44 to 95.06%. The design for reliability approach can be implemented rigorously if the failures identified at the development stage of the product, which helps to reduce the considerable losses in the future. © 2019, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","ALT; Bollean algebra; Fault Tree Analysis (FTA); Reliability modeling; Reliability of mechanism; Weibull distribution","Boolean algebra; Electric circuit breakers; Electric network analysis; Electric utilities; Fault tree analysis; Product design; Reliability analysis; Testing; Timing circuits; Weibull distribution; Accelerated life testing; Circuit breaker failures; Electricity distribution; Fault tree analyses (FTA); High voltage circuit breaker; Reliability assessments; Reliability improvement; Reliability model; Failure (mechanical)",,,,,,"The authors acknowledge the support received from Larsen & Toubro Switchgear Ltd, Mumbai, Maharashtra, India. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.",,,,,,,,,,"Al Rahbi, Y., Rizwan, S.M., Alkali, B.M., Cowell, A., Taneja, G., Reliability analysis of a rodding anode plant in aluminum industry with multiple units failure and single repairman (2019) Int J Syst Assur Eng Manag, 10, pp. 97-109; Alaeddini, A., Dogan, I., Using Bayesian networks for root cause analysis in statistical process control (2011) Exp Syst Appl, 38, pp. 11230-11243; Almalki, S.J., Yuan, J., A new modified Weibull distribution (2013) Reliab Eng Syst Saf, 111, pp. 164-170; Andrade, A.R., Teixeira, P.F., Statistical modelling of railway track geometry degradation using Hierarchical Bayesian models (2015) Reliab Eng Syst Saf, 142, pp. 169-183; Arcidiacono, G., Development of a FTA versus parts count method model: comparative FTA (2003) Qual Reliab Eng Int, 19, pp. 411-424; Bajeel, P., Kumar, M., Reliability test plan for a series system with variable failure rates (2017) Int J Qual Reliab Manag, 34, pp. 849-861; Basak, P., Basak, I., Balakrishnan, N., Estimation for the three-parameter lognormal distribution based on progressively censored data (2009) Comput Stat Data Anal, 53, pp. 3580-3592; Bergès, C., Soufflet, P., Jadrani, A., Risk and reliability assessment about a manufacturing issue in a power MOSFET for automotive applications (2014) Microelectron Reliab SI ESREF, 54, pp. 1887-1890; Beshir, M.J., Cheng, T.C., Farag, A.S.A., Comparison of two bulk power adequacy assessment programs: TRELSS and COMREL (1996) Proceedings of 1996 Transmission and Distribution Conference and Exposition. 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J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-85075380424
"Dandage R.V., Mantha S.S., Rane S.B.","57194626842;13005618000;56149402100;","Strategy development using TOWS matrix for international project risk management based on prioritization of risk categories",2019,"International Journal of Managing Projects in Business","12","4",,"1003","1029",,29,"10.1108/IJMPB-07-2018-0128","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85063325617&doi=10.1108%2fIJMPB-07-2018-0128&partnerID=40&md5=15a90f50cbb38b5c55425b0a933d74d4","Department of Mechanical Engineering, Rajendra Mane College of Engineering and Technology, Ratnagiri, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Veermata Jijabai Technological Institute, Mumbai, India; All India Council for Technical Education, New Delhi, India","Dandage, R.V., Department of Mechanical Engineering, Rajendra Mane College of Engineering and Technology, Ratnagiri, India, Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Mantha, S.S., Department of Mechanical Engineering, Veermata Jijabai Technological Institute, Mumbai, India, All India Council for Technical Education, New Delhi, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: International projects very commonly experience failure due to various factors at the global level. Especially, large projects at the international level virtually have no chance of meeting scope, time, cost and quality. This fact has been underlined by most of the international surveys and published literature. Effective risk management plays a vital role in preventing projects from failure by implementing appropriate risk response strategies. The success of risk management will be based on the understanding of various risk categories which specifically affect international projects, analysis of their interdependence, prioritize them according to their importance and develop strategies for risk management based on the prioritization. The paper aims to discuss these issues. Design/methodology/approach: This paper represents typical eight risk categories frequently observed in the international projects through literature survey and feedback from project professionals. Interpretive structural modeling (ISM) and Matrice d’Impacts croises-multiplication applique´ an classment (MICMAC) analysis have been used to analyze the interactions among the risk categories and prioritize them. The strategy management tool threats, opportunities, weaknesses and strengths (TOWS) matrix has been used to develop the strategies for effective project risk management. Findings: The analysis represents political risks, contractual and legal risks, cultural risks, and financial and economic risks as the highest priority risk categories, the mitigation of which should be paid the highest attention. The strengths-threats strategy has been applied to develop the strategies by identifying the various internal strengths of project organization to overcome the various threats caused by the eight risk categories observed in international projects. Research limitations/implications: This paper tries to represent the prioritization of international project risk categories which are generic in nature. For any specific international project, the risk categories as well as their prioritization may be slightly varying. The tool used for prioritization; Interpretive structural modeling (ISM) is more suitable for few numbers of variables as it becomes complex as the number of variables increases. The strengths and threats considered for developing strategies using TOWS matrix are based on the feedback from project professionals and may vary according to the nature of project. Originality/value: This paper uses ISM and MICMAC for risk prioritization in international projects and TOWS matrix for developing risk management strategies. 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Yang, R.J., Zou, P.X.W., Stakeholder-associated risks and their interactions in complex green building projects: a social network model (2014) Building and Environment, 73, pp. 208-222. , March; Yao, Z., Selecting risk response strategies considering project risk interdependence (2016) International Journal of Project Management, 34 (5), pp. 819-830; Yazid, A., Abdullah, A., Hussain, M., A review of infrastructure project risk management (2014) International Business Management, 8 (6), pp. 342-347; Yrd, D., Omur, Y.S., Analysing the barriers encountered in innovation process through interpretive structural modelling: evidence from Turkey (2010) Yonetimve Ekonomi, 17 (2), pp. 207-225; Zhang, X., Social risks for international players in the construction market: a China study (2011) Habitat International, 35 (3), pp. 514-519; Zwikael, O., Sadeh, A., Planning effort as an effective risk management tool (2007) Journal of Operations Management, 25 (4), pp. 755-767; Zwikael, O., Pathak, R., Singh, G., Ahmad, S., The moderating effect of risk on the relationship between planning and success (2013) International Journal of Project Management, 32 (3), pp. 435-441. , http://dx.doi.org/10.1016/j.ijproman.2013.07.002; Marle, F., Vidal, L., Project risk management processes: improving coordination using a clustering approach (2011) Research in Engineering Design, 22 (3), pp. 189-206","Dandage, R.V.; Department of Mechanical Engineering, India; email: dandagerahul@gmail.com",,,"Emerald Group Holdings Ltd.",,,,,17538378,,,,"English","Int. J. Manag. Project Bus.",Article,"Final","",Scopus,2-s2.0-85063325617
"Dubey S.V., Rane S.B.","57211354302;56149402100;","Comparative Study of Structural and Sheetmetal Combination Bracket on Elevator Rail System",2019,"IOP Conference Series: Materials Science and Engineering","594","1","012019","","",,,"10.1088/1757-899X/594/1/012019","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073627363&doi=10.1088%2f1757-899X%2f594%2f1%2f012019&partnerID=40&md5=69831425fbb34e4c53c2c4814b176c0f","Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, 400058, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, 400058, India","Dubey, S.V., Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, 400058, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, 400058, India","Context: - Combination brackets are applied for fixing car and counterweight guide rails on the hoistway wall to deliver smooth and safe travel for side counterweight position. Purpose: - The main intent of this work study is to compare the deflection and stresses value of the structural and sheet metal Combination bracket arises due to effect of forces imposed on the guide rail by the Car guide shoe. Methodology: - Finite element method was performed for Structural and Sheet metal combination bracket to evaluate stress and deflection using SolidWorks Simulation software. Analytical calculation has been performed to calculate the forces acting on rail considering the case of safety gear operation as per EN 81-1 Research findings: - From this analysis, it has been found that structural combination brackets are stiffer compare to those made up of sheet metal. Limitations: - Stress and deflection values shall be varied for different car cabin sizes. A case study of Car Size 1100x2000 mm for 13 passenger capacity rated load has been considered. Originality/value: - This analysis results provides the possibility of selecting most reliable rail bracket for guide rail fixation. © 2019 IOP Publishing Ltd. All rights reserved.",,"Computer software; Elevators; Fasteners; Analytical calculation; Comparative studies; Deflection and stress; Elevator rail; Metal combination; Passenger capacity; Simulation software; Structural combination; Sheet metal",,,,,,,,,,,,,,,,"Neamah Hayder, F., Ali Wisam, H., Stress Analysis of Guide Rails of Elevators (2009) Al-Khwarizmi Engineering Journal, 5, pp. 38-50; Modelling and Analysis of Guide Rail Brackets and Attaching Parts; Recep, Honda, Hakala, A comparative stress analysis of guide rail by FEA JSME, pp. 80-88; Penn, Elsco, Robert, The study of neoprene elevator guide rails (2006) JSME, pp. 112-130; Singh, M.P., Rildova, (2004) 13th World Conference on Earthquake Engineering Vancouver; (2010) Safety Code for Elevators and Escalators; Altuntas, M., (2012); Atay, S., (2013); Atay, S., Kayaoglu, E., Candas, A., Imrak, C.E., Targit, S., Kocabal, Y.Z., Determination of Loads Acting on Guide Rail Fixing under Certain Loading Condition (2014) ELEVCon 20th International Congress on Vertical Transportation Technologies, pp. 85-92; (1994) Bolt Testing Method; Altuntas, M., Salman, O., Imrak, C.E., Experimental stress analysis of elevator guiding equipment (2014) Key Engineering Materials, 572, pp. 177-180; Merz, M., Practical stress behavior of complete rail fastening systems (2010) ELEVATION, 68, pp. 56-62; Merz, M., (2008) Hilti Corporation, ELEVCon the 17th International Congress on Vertical Transportation Technologies, pp. 268-277; Suarez, L.E., Singh, M.P., (1996) Proceedings of the 11th World Conference on Earthquake Engineering, Acapulco, Mexico, CD-ROM, Paper No. 1657; Janovsky, L., (1993) Elevator Mechanical Design; IS 14665 (PART 1)-2000 Electrical traction lifts (Guide lines for dimension of passenger, goods, service & hospital lifts); IS 14665 (PART 2-SEC 1 & 2)-2000-Code of practice for installation, operation and maintenance; IS 14665 (PART 3-SEC 1 & 2)-2000 Safety rules Section 1-Passenger & goods lifts, Section 2-Service lifts; IS 14665 (PART 4-SEC 1 TO 9)-2001 Components; IS 14665 (PART 5)-1999 Electrical traction lifts-Specification (Inspection manual); Safety rules for the construction and installation of lifts-Part 1: Electric lifts. European Committee for Standardization (CEN); Safety rules for the construction and installation of lifts-Part 2: Hydraulic lifts. European Committee for Standardization; Dynamic Analysis of the load Lifting Mechanisms; Jumade, H.S., Bansode, P.P., Mahawadiwar, A.A., Design and Analysis of Machine Room less Elevator (2016) IJSRD - International Journal for Scientific Research & Development, 4; Onur, Y.A., Imrak, C.E., (2005) 7th International Fracture Conference, pp. 109-116; Onur, Y.A., Imrak, C.E., (2007) 11th International Research/Expert Conference Trends in the Development of Machinery and Associated Technology Proceedings, pp. 1015-1018; Watanabe, S., Yumura, T., Funai, N., Hayashi, Y., Minewaki, S., Kibayashi, M., Dynamic Analysis for Elevators installed in Mid-story Seismic Isolated Building (2007) Journal of Environment and Engineering, 2 (3), pp. 436-447; Lee, J.S., Kim, B.S., Tak, C.M., Cho, G.Y., Jung, B.J., Medium and Low Speed (2m/s) Governor of Core Safety Rope of 6mm Diameter Development of MRL Type Elevators (2016) Advanced Science and Technology Letters, 140, pp. 72-78; Yunpu, S., Yixing, S., Design of Structural Parameters for Centrifugal Elevator Overspeed Governors (2014) Sensors & Transducers, 163, pp. 171-179; Li, R., Chen, G., Liang, P., Modeling and Finite Element Analysis of the Hydraulic Buffer in Elevator Systems (2017) Journal of Civil Engineering Research, 7, pp. 63-66; Walgude, T.R., Suryavanshi, A.R., Safeguarding Elevators against Buckling by Providing Adequate Number of Supports (2015) International Engineering Research Journal (IERJ) Special Issue 2, pp. 1130-1136; Abdulmalik, Ibrahim, O., Akonyi, Nasirusule, Bolarinwa, Gabriel, O., Chima, Chinedum, O., The Design of a One-Man Passenger Electric Elevator (2014) Scholars Journal of Engineering and Technology, 2, pp. 806-811; Pai, A., Nair, R., George, P., Subir, S., A Critical Review and Investigation of Machine Room Less (MRL) Elevators (2015) J Appl Mech Eng, 4, p. 166; Gibson George, W., (2008) ELEVATOR HOISTWAY EQUIPMENT: Mechanical and Structural Design, Part i Continuing Education, pp. 97-110; George W. Gibson (2009) ELEVATOR HOISTWAY EQUIPMENT: Mechanical and Structural Design, Part II Continuing Education pp:91-103; ISO 7465 Fourth edition 2007-11-15: Passenger lifts and service lifts-Guide rails for lift cars and counterweights-T-type; The Bombay lift Act, 1939 and the Bombay lift rules, 1958; IS 15259-2002-Installation and Maintenance of Home Lifts-Code of Practice; IS 15330-2003-Installation and Maintenance of Handicapped Persons-Code of Practice; IS 15785-2007-Installation and Maintenance of lift without Machine Rooms-Code of Practice",,"Singh K.Chaudhary H.Shrivastava A.Sharan S.N.Sharma N.N.Akhtar J.","Macwin India Pvt. Ltd.","Institute of Physics Publishing","International Conference on Startup Ventures: Technology Developments and Future Strategies, SV-TDFS 2018","8 October 2018 through 9 October 2018",,152412,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85073627363
"Manglorkar S.S., Sharma A.O., Verma D.S., Rane S.B.","57211347542;57752266300;57193356440;56149402100;","Optimization of Organic Waste Collection for Generation of Bio Gas using IoT Techniques",2019,"IOP Conference Series: Materials Science and Engineering","594","1","012026","","",,1,"10.1088/1757-899X/594/1/012026","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073599754&doi=10.1088%2f1757-899X%2f594%2f1%2f012026&partnerID=40&md5=de86ef5daaab34555a96ad4c29420681","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Manglorkar, S.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sharma, A.O., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Verma, D.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","India is facing some major challenges in waste collection, segregation, transportation, treatment and disposal. Hence, there is a need to spread awareness about waste disposal and define better waste management techniques in India. The purpose of this paper is to utilize Internet of Things for waste management and optimized collection of wet (biodegradable) waste to produce bio-gas. It focuses on improving the current waste management system by using ultra-sonic sensors, Arduino-UNO and EC-GSM. Collection and segregation of waste in an optimized way is necessary because wet waste can be useful in producing bio-gas which in turn can be used to produce clean electricity and natural gas. Lastly, the paper also gives emphasis on cost analysis of this method to calculate revenue generation. © 2019 IOP Publishing Ltd. All rights reserved.","Ardunio UNO; Bio-CNG; Bio-gas; EC-GSM; IOT; Ultrasonic Sensor; wet waste","Biogas; Compressed natural gas; Gases; Internet of things; Ultrasonic sensors; Waste treatment; Ardunio UNO; Bio-CNG; Clean electricity; Management techniques; Revenue generation; Treatment and disposal; Waste collection; Waste management systems; Waste disposal",,,,,,,,,,,,,,,,"Zhu, D., Asnani, P.U., Zurbrugg, C., Anapolsky, S., Mani, S.K., (2007) Improving Municipal Solid Waste Management in India: A Sourcebook for Policymakers and Practitioners; Gupta, S., Mohan, K., Prasad, R., Gupta, S., Kansal, A., Solid waste management in India: Options and opportunities (1998) Resources, Conservation and Recycling, 24 (2), pp. 137-154; Agarwal, R., Chaudhary, M., Singh, J., Waste Management Initiatives in India for human well-being (2015) European Scientific Journal, ESJ, 11; Bharadwaj, A.S., Rego, R., Chowdhury, A., (2016) 2016 IEEE Annual India Conference (INDICON), pp. 1-6",,"Singh K.Chaudhary H.Shrivastava A.Sharan S.N.Sharma N.N.Akhtar J.","Macwin India Pvt. Ltd.","Institute of Physics Publishing","International Conference on Startup Ventures: Technology Developments and Future Strategies, SV-TDFS 2018","8 October 2018 through 9 October 2018",,152412,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85073599754
"Bansode C.R., Remadevi C.","57216271599;57202789419;","Theoretical Model and Simulations of Different Lengths of Tube for Electromagnetic Forming",2019,"Proceedings of the 2019 2nd International Conference on Power and Embedded Drive Control, ICPEDC 2019",,,"9036710","173","178",,,"10.1109/ICPEDC47771.2019.9036710","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85082991239&doi=10.1109%2fICPEDC47771.2019.9036710&partnerID=40&md5=a56cf7b6739e78f8f6bde0e5ea58645c","Sardar Patel College of Engineering, Department of Electrical Engg, Mumbai, India","Bansode, C.R., Sardar Patel College of Engineering, Department of Electrical Engg, Mumbai, India; Remadevi, C., Sardar Patel College of Engineering, Department of Electrical Engg, Mumbai, India","Electromagnetic forming is an impulse high-speed forming technology using a pulsed magnetic field to apply Lorentz' forces to workpiece preferably made of a high electrically conductive material without mechanical contact and without a working medium. This technology is used for joining, cutting, shaping and welding of dissimilar metals. Due to tremendously high velocities in comparison to conventional processes, forming restrictions can be extended to several materials. This paper focuses on the effect of varying tube length on magnetic field distribution and displacement. Using simulations by adjusting tube lengths, a variety of different shapes can be obtained. It is essential to examine deformation styles of the workpiece to be capable to forecast the deforming trends of tubes and make advantageous use of electromagnetic forming. © 2019 IEEE.","'Electromagnetic forming; effect of the tube length.'; high velocities; Lorentz' forces","Conductive materials; Deformation; Dissimilar metals; Magnetic fields; Power control; Electrically conductive; Electromagnetic forming; High velocity; Lorentz; Magnetic field distribution; Pulsed magnetic fields; Theoretical modeling; Tube length; Tubes (components)",,,,,,,,,,,,,,,,"Psyk, V., Risch, D., Kinsey, B., Tekkaya, A., Kleiner, M., Electromagnetic forming, a review (2010) Journal of Material Processing Technology, 211 (5), pp. 787-829; Dond, S., Choudhary, H., Kolge, T., Sharma, A., Robust Electromagnet Design for Pulse Forming Application"" COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering; Kore, S.D., Date, P.P., Kulkarni, S.V., Effect ofprocess parameters on electromagnetic impact welding of aluminum sheets (2007) International Journal of Impact Engineering, 34, pp. 1327-1341; Ho Lee, S., Lee, D., Estimation of the magnetic pressure in tube expansion by electromagnetic forming (1996) Journal of Material Processing Technology, 57 (3-4), pp. 311-315. , 15 February; Song, F.M., Zhang, X., Wang, Z.R., Yu, L.Z., A study of tube electromagnetic forming (2004) J. Mater. Process. Technol., 151, pp. 372-375; Zhang, H., Murata, M., Suzuki, H., Effects of various working conditions on tube bulging by Electromagnetic forming (1995) J. Mater. Process Technol., 48, pp. 113-121",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Power and Embedded Drive Control, ICPEDC 2019","21 August 2019 through 23 August 2019",,158613,,9781728124148,,,"English","Proc. Int. Conf. Power Embed. Drive Control, ICPEDC",Conference Paper,"Final","",Scopus,2-s2.0-85082991239
"Shinde O.D., Anupa S.","57215221024;54416304100;","Comparison of Maximum Power Point Tracking techniques used for solar photovoltaic system",2019,"2019 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019",,,"8993322","1628","1632",,,"10.1109/ICICICT46008.2019.8993322","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85080149092&doi=10.1109%2fICICICT46008.2019.8993322&partnerID=40&md5=71aa17232e9c5add238cf2b177959ec0","Sardar Patel College of Engineering, Electrical Department, Mumbai, India","Shinde, O.D., Sardar Patel College of Engineering, Electrical Department, Mumbai, India; Anupa, S., Sardar Patel College of Engineering, Electrical Department, Mumbai, India","The renewable sources of energy have become a good alternative for conventional sources of energy resources. Hence, the utilization of renewable energy resources like solar, wind etc. has increased the need of research for improving the efficiency of such renewable energy resources so that the maximum energy can be extracted from such renewable sources. This paper presents a comparison between the two Maximum Power Point Tracking (MPPT) algorithms used for the solar renewable system, namely Perturb and Observe (PO) method and Incremental Conductance (IC) method. Limitation of PO method and advantages of IC method is discussed in this paper. This comparison study will be helpful for future solar photovoltaic (P-V) applications. © 2019 IEEE.","incremental conductance; Maximum Power Point Tracking (MPPT); perturb and observe; solar photovoltaic","Integrated circuits; Intelligent computing; Photovoltaic cells; Renewable energy resources; Solar concentrators; Solar power generation; Tracking (position); Incremental conductance; Maximum Power Point Tracking; Maximum power point tracking techniques; Perturb and observe; Renewable sources; Solar photovoltaic system; Solar photovoltaics; Sources of energy; Maximum power point trackers",,,,,,,,,,,,,,,,"Xiao, W., Dunford, W.G., Capel, A., A novel modeling method for photovoltaic cells (2004) 2004 IEEE 35th Annual Power Electronics Specialists Conference, 3, pp. 1950-1956. , (IEEE Cat. no. 04CH37551; Hsiao, Y., Chen, C., Maximum power tracking for photovoltaic power system (2002) Conference Record of the 2002 IEEE Industry Applications Conference. 37th IAS Annual Meeting, 2, pp. 1035-1040. , (Cat. no. 02CH37344), Pittsburgh, PA, USA; Jain, S., Agarwal, V., A new algorithm for rapid tracking of approximate maximum power point in photovoltaic systems (2004) IEEE Power Electronics Letters, 2 (1), pp. 16-19. , March; Schoeman, J.J., Wyk, J.D.V., A simplified maximal power controller for terrestrial photovoltaic pane larrays (1982) 1982 IEEE Power Electronics Specialists Conference, pp. 361-367. , Cambridge, MA, USA; Khalane, P.S., Patil, D.A., Remadevi, C., Literature survey of various maximum power point tracking techniques for photovoltaic systems""international (2017) Conference on Intelligent Computing, Instrumentation and Control Technologies (ICICICT); Xuesong, Z., Daichun, S., Youjie, M., Deshu, C., The simulation and design for mppt of pv system based on incremental conductance method (2010) Wase International Conference on Information Engineering; Soon Tey, K., Mekhilef, S., Modified incrementalconductance mppt algorithm to mitigate inaccurate responses under fast-changing solar irradiation level (2014) Science Direct",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019","5 July 2019 through 6 July 2019",,157717,,9781728102832,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85080149092
"Pisolkar K.M., Kore V., Joshi V., Bhurke A.","57215219993;57211337234;57193646938;57215220306;","Solar PV grid connected system using Phase Lock Loop Synchronization and SPWM technique",2019,"2019 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019",,,"8993206","846","849",,,"10.1109/ICICICT46008.2019.8993206","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85080142521&doi=10.1109%2fICICICT46008.2019.8993206&partnerID=40&md5=3a3b19cfc238383595a77ed5304c6188","Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India; Centre of Excellence, Matunga (E), Mumbai, India","Pisolkar, K.M., Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India; Kore, V., Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India; Joshi, V., Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India; Bhurke, A., Centre of Excellence, Matunga (E), Mumbai, India","In this paper a phase lock loop-based grid-tied solar inverter is designed and verified in MATLAB. Here PLL has been utilized so as to synchronize the yield voltage of inverter with framework voltage [3]. Thus, to achieve the same a sinusoidal reference is generated from PLL Output which generates PWM signal which is controlled by grid voltage [7]. This paper proposes a simulation model of the Solar PV grid connected system (closed loop) using sinusoidal pulse width modulation and Phase lock loop for grid synchronization. The proposed scheme is verified in MATLAB. © 2019 IEEE.","MPPT algorithm; Phase lock loop (PLL); Sine pulse width Modulation (SPWM); three phase conventional inverter","Electric inverters; Intelligent computing; Locks (fasteners); MATLAB; Pulse width modulation; Voltage control; Conventional inverters; Grid synchronizations; Mppt algorithms; Phase lock loop (PLL); Simulation model; Sine pulse width modulations; Sinusoidal pulse width modulation; Solar inverter; Phase locked loops",,,,,,,,,,,,,,,,"Khalane, P.S., Patil, D.A., Remadevi, C., Literature survey of various maximum power point tracking techniques for photovoltaic systems 2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies (ICICICT; Mahir, D., Alper, G., (2017) Analysis and Performance Comparison of DC-DC Power Converters Used in Photovoltaic Systems, pp. 113-119; Jeong, H., Lee, K., Choi, S., Choi, W., Performance improvement of lcl-filter-based grid-connected inverters using pqr power transformation (2009) IEEE Transactions on Power Electronics, 25 (5), pp. 1320-1330; Bao, C., Ruan, X., Wang, X., Li, W., Pan, D., Weng, K., Step-by-step controller design for lcl-type grid-connected inverter with capacitor-current-feedback active-damping (2014) IEEE Transactions on Power Electronics, 29 (3), pp. 1239-1253; Kahlane, A.E.W.H., Hassaine, L., Kherchi, M., Lcl filter design for photovoltaic grid connected systems (2014) Revue des Energies Renouvelables SIENR'14 Ghardaïa, pp. 227-232; Li, P., Zhang, L., Sheng, Y., An effective way for large scale renewable energy power generation connected to the grid-microgrid (2009) Journal of North China Electric Power University(Natural Science Edition), 1, pp. 10-14; Hameed, D., Hamayoon, S., Ali Malik, A., Aslam Ansari, O., Solar grid-tied inverter, with battery back-up, for efficient solar energy harvesting (2016) 2016 IEEE Smart Energy Grid Engineering (SEGE)",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019","5 July 2019 through 6 July 2019",,157717,,9781728102832,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85080142521
"Mahore H.K., Dake V.","57213689326;56453529100;","Modelling and analysis of grid-integrated solar system with power management scheme using battery",2019,"2019 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019",,,"8993217","1620","1623",,2,"10.1109/ICICICT46008.2019.8993217","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85080133997&doi=10.1109%2fICICICT46008.2019.8993217&partnerID=40&md5=59d5d276922457fa9aaf94773af5a914","SPCE, Department of EE, Andheris, Mumbai, India","Mahore, H.K., SPCE, Department of EE, Andheris, Mumbai, India; Dake, V., SPCE, Department of EE, Andheris, Mumbai, India","The paper is based on the modelling and design of the grid-integrated solar system with power management system using battery. The efficiency of the system is increases by the incremental conductance MPPT algorithm. The battery connected power management scheme provide a constant and valid power output from solar radiations regardless of the continuous variation in PV radiations. The power management exploits a buck-boost (bidirectional) DC-DC converters to manage charging and release condition of batteries. DC power from solar cell is converted to AC power by using the single phase Inverter. Low pass LC filter is used to sustain the higher frequency components. © 2019 IEEE.","Bidirectional converter/buck-boost converter (BDC); gate driver (GD); maximum power point tracking (MPPT); pulse width modulation (PWM); PV (photo voltaic); State of charge (SOC)","Charging (batteries); DC-DC converters; Electric power transmission networks; Intelligent computing; Maximum power point trackers; Pulse width modulation; Secondary batteries; Solar cells; Solar system; Voltage control; Bidirectional converter (BDC); Gate drivers; Maximum Power Point Tracking; Photovoltaics; State of charge; Battery management systems",,,,,,,,,,,,,,,,"Subudhi, B., Pradhan, R., A comparative study on maximum power point tracking techniques for photovoltaic power systems (2013) IEEE Transactions on Sustainable Energy, 4 (1). , Jan; Raghuwanshi, S.S., Gupta, K., Modelling of a single-phase grid-connected photovoltaic system using matlab/simulink IEEE International Conference on Computer, Communication and Control (IC4-2015; Kumar Dewangan, P., Nagdeve, U.T., Inverter for grid connected pv system a review (2016) International Journal of Advanced K. Suresh1, Dr R. Arulmozhiyal, ""Design and Implementation of Bi-Directional DC-DC Converter for Wind Energy System"", Scientific Research Conference on Circuits and Systems, 7, pp. 3705-3722; Debela, T., Ensermu, G., Bhattacharya, A., Design, Control and Simulation of Grid Connected DC/AC Microgrid for Residential Applications, , 978-1-5090-3239 6/17/$31.00©2017IEEE; Joshi, M., Vaidya, M.G.A., Modelling and Simulation of Single Phase Grid Connected Solar Photovoltaic System, , 978-1-4799-5364-6/14/$31.00 ©2014 IEEE; Sharique Anees, A., Grid Integration of Renewable Energy Sources: Challenges, Issues and Possible Solutions, , 978-1-4673-0934-9112/$31.00 ©20 12 IEEE; Mohssine, H., Kouichi, M., Bouhouch, F., Debbagh, H., Perturb and observe (p&o) and incremental conductance (inc) mppt algorithms for pv panels (2015) International Journal of Soft Computing and Engineering (IJSCE), 5 (2). , 2231-2307, May",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019","5 July 2019 through 6 July 2019",,157717,,9781728102832,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85080133997
"Mhatre T.V., Dake V.","57215214770;56453529100;","Design and operation of 20KW bidirectional DC-DC converter and comparison of different topologies",2019,"2019 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019",,,"8993350","1512","1515",,,"10.1109/ICICICT46008.2019.8993350","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85080119274&doi=10.1109%2fICICICT46008.2019.8993350&partnerID=40&md5=0e030a0e2c31261beef26421fabcbdfc","Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India","Mhatre, T.V., Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India; Dake, V., Sardar Patel College of Engineering, Department of Electrical Engineering, Andheri(W), Mumbai, India","Today Electrical Vehicles are trending the market and hence an efficient charger for these EV's has become a necessity. The DC-DC converter is an important sub-circuit in this charger. Therefore, the need to improve the performance and efficiency of this converter has become important. This paper talks about the operation and design of an isolated DC-DC converter (DAB) for electric vehicle charger application. The different modes of operation at different load conditions are discussed. Also a comparative study of DAB with CLLC circuit is done. Design and mathematical modelling is validated by simulating in MATLAB. © 2019 IEEE.","Dual Active Bridge(DAB); Electric Vehicle(EV); High Frequency (HF) transformer; inductor current(iL); MATLAB; Phase Shift","Electric vehicles; Intelligent computing; MATLAB; Phase shift; Bidirectional DC-DC converters; Comparative studies; Design and operations; Dual active bridges; Electrical vehicles; High frequency HF; Inductor currents; Isolated dc-dc converters; DC-DC converters",,,,,,,,,,,,,,,,"He, P., Khaligh, A., Comprehensive Analyses and Comparison of 1kW Isolated DC-DC Converters for Bidirectional EV Charging Systems, , IEEE; George, K., Design and Control of A Bidirectional Dual Active Bridge DC-DC Converter to Interface Solar, Battery Storage, and Grid-Tied Inverters, 45. , Electrical Engineering Undergraduate Honors Theses; Mi, C., Bai, H., Wang, C., Gargies, S., Operation, design and control of dual h-bridge-based isolated bidirectional DC-DC converter (2008) IET Power Electronics, p. 20080004. , iet-pel; Koch, G.G., Queiroz, S.S., Rech, C., Oliveira, R.C.L.F., Borges, R.A., Tognetti, E.S., Montagner, V.F., Design of a robust pi controller for a dual active bridge converter (2016) 12th IEEE International Conference on Industry Applications (INDUSCON); Barnola-Sampera, M., Heredero-Peris, D., Villafafila-Robles, R., Montesinos-Miracle, D., Bergas-Jane, J., Vidal-Tejedor, N., Charging/discharging process for electric vehicles: Proposal and emulation (2014) IEEE International Electric Vehicle Conference (IEVC); Peng, F.Z., Li, H., Su, G.J., A new zvs bidirectional DC-DC converter for fuel cell and battery application (2004) IEEE Trans.Power Electron., 19 (1), pp. 54-65",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019","5 July 2019 through 6 July 2019",,157717,,9781728102832,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85080119274
"Indalkar S.S., Sabnis A.","57215216252;54416304100;","Comparison of AC-DC Converter Topologies Used for Battery Charging in Electric Vehicle",2019,"2019 2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019",,,"8993306","1624","1627",,7,"10.1109/ICICICT46008.2019.8993306","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85080114652&doi=10.1109%2fICICICT46008.2019.8993306&partnerID=40&md5=92704433e6549a534e8ad4d9d94a14e7","Sardar Patel College of Engineering, Department of Electrical Engg., Mumbai, India","Indalkar, S.S., Sardar Patel College of Engineering, Department of Electrical Engg., Mumbai, India; Sabnis, A., Sardar Patel College of Engineering, Department of Electrical Engg., Mumbai, India","One major problem with electric vehicles is its range anxiety. Hence, there is a need to develop an AC charger, which transfers power directly from the residential grid to the Electric Vehicle (EV). Converters used in charging of electric vehicle results in various drawbacks such as harmonic distortions at input source, large switching losses as well as poor Power Factor (PF). This paper will explore topologies used for charging of EVs using residential AC grid by means of Conventional AC-DC converter, Interleaved AC-DC Boost converter Zero Voltage Switching Interleaved AC-DC boost Power Factor Correction (PFC) Converter with the goal of lowering total system cost, harmonics losses while diminishing range anxiety and providing supplemental grid services. © 2019 IEEE.","AC/DC Converter; Interleaved Boost Converter","Charging (batteries); DC-DC converters; Electric inverters; Electric losses; Electric power transmission networks; Electric vehicles; Housing; Intelligent computing; Secondary batteries; Topology; Zero voltage switching; Ac/dc converters; BOOST converter; Harmonics loss; Input sources; Interleaved boost converters; Power factor correction converters; Range anxieties; Switching loss; Rectifying circuits",,,,,,,,,,,,,,,,"Pahlevaninezhad, M., Das, P., A zvs interleaved boost ac/dc converter used in electric vehicles (2012) IEEE Transactions on Power Electronics, 27 (8). , August; Changsrisuk, J., Po-Ngam, S., The hybrid photovoltaic energy system for electric vehicle battery charger (2017) International Electrical Engineering Congress (IEECON); Latha Shenoy, K., Gurudas Nayak, C., Mandi, R.P., Design and implementation of interleaved boost converter (2017) International Journal of Engineering and Technology (IJET), 9 (3). , July; Niranjani, G., Subashini, N., Power factor correction and thd minimization using interleaved boost converter in continuous conduction mode (2017) ARPN Journal of Engineering and Applied Sciences, 12 (11). , June; Yao-Ching, H., Te-Chin, H., Hau-Chen, Y., An interleaved boost converter with zero-voltage transition (2009) IEEE Trans. Power Electronics, 24 (4), pp. 973-978. , Apr; Lee, Y.J., Khaligh, A., Emadi, A., Advanced integrated bidirectional ac/dc and dc/dc converter for plug-in hybrid electric vehicles (2009) IEEE Trans. Veh. Technol, 58 (8), pp. 3970-3980. , Oct; Nussbaumer, T., Raggl, K., Kolar, J.W., Design guidelines for interleaved single-phase boost pfc circuits (2009) IEEE Trans. Industrial. Electronics, 56 (7), pp. 2559-2573. , Jul; Gallo, C.A., Tofoli, F.L., Pinto, J.A.C., A passive lossless snubber applied to the ac-dc interleaved boost converter (2010) IEEE Transaction Power Electronics, 25 (3), pp. 775-785. , Mar",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2019","5 July 2019 through 6 July 2019",,157717,,9781728102832,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85080114652
"Mishra N., Rane S.B.","57202760964;56149402100;","Prediction and improvement of iron casting quality through analytics and Six Sigma approach",2019,"International Journal of Lean Six Sigma","10","1",,"189","210",,27,"10.1108/IJLSS-11-2017-0122","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055144585&doi=10.1108%2fIJLSS-11-2017-0122&partnerID=40&md5=81f3fa5ad1d43c8b542e8a6ec4d613e4","Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Mumbai, India","Mishra, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Mumbai, India","Purpose: The purpose of this technical paper is to explore the application of analytics and Six Sigma in the manufacturing processes for iron foundries. This study aims to establish a causal relationship between chemical composition and the quality of the iron casting to achieve the global benchmark quality level. Design/methodology/approach: The case study-based exploratory research design is used in this study. The problem discovery is done through the literature survey and Delphi method-based expert opinions. The prediction model is built and deployed in 11 cases to validate the research hypothesis. The analytics helps in achieving the statistically significant business goals. The design includes Six Sigma DMAIC (Define – Measure – Analyze – Improve and Control) approach, benchmarking, historical data analysis, literature survey and experiments for the data collection. The data analysis is done through stratification and process capability analysis. The logistic regression-based analytics helps in prediction model building and simulations. Findings: The application of prediction model helped in quick root cause analysis and reduction of rejection by over 99 per cent saving over INR6.6m per year. This has also enhanced the reliability of the production line and supply chain with on-time delivery of 99.78 per cent, which earlier was 80 per cent. The analytics with Six Sigma DMAIC approach can quickly and easily be applied in manufacturing domain as well. Research limitations implications: The limitation of the present analytics model is that it provides the point estimates. The model can further be enhanced incorporating range estimates through Monte Carlo simulation. Practical implications: The increasing use of prediction model in the near future is likely to enhance predictability and efficiencies of the various manufacturing process with sensors and Internet of Things. Originality/value: The researchers have used design of experiments, artificial neural network and the technical simulations to optimise either chemical composition or mould properties or melt shop parameters. However, this work is based on comprehensive historical data-based analytics. It considers multiple human and temporal factors, sand and mould properties and melt shop parameters along with their relative weight, which is unique. The prediction model is useful to the practitioners for parameter simulation and quality enhancements. The researchers can use similar analytics models with structured Six Sigma DMAIC approach in other manufacturing processes for the simulation and optimisations. © 2018, Emerald Publishing Limited.","Analytics; Benchmarking; Chi-square test; DMAIC approach; Prediction model; Six sigma",,,,,,,,,,,,,,,,,"Acharya, S., Vadher, J., Sheladiya, M., Madhnan, M., Quality casting of motor body using design of experiment and casting simulation (2016) International Journal of Manufacturing Research, 11 (2); Arcidiacono, G., Wang, J., Yang, K., Operating room adjusted utilization study (2015) International Journal of Lean Six Sigma, 6 (2), pp. 111-137; Auschitzky, E., Hammer, M., Rajagopaul, A., (2014) How big data can improve manufacturing, , www.mckinsey.com/business-functions/operations/our-insights/how-big-data-can-improve-manufacturing, (accessed: 18 December 2016; Bharathi, S., Vinodh, S., Devarapu, S., Siddhamshetty, G., Application of Lean approach for reducing weld defects in a valve component: a case study (2017) International Journal of Lean Six Sigma, 8 (2), pp. 181-209; Breyfogle, F., (1999) Implementing Six Sigma: Smarter Solutions Using Statistical Methods, , John Wiley and Sons, New York, NY; Calcaterraa, S., Campanab, G., Tomesanib, L., Prediction of mechanical properties in spheroidal cast iron by neural networks (2000) Journal of Materials Processing Technology, 104 (1-2), pp. 74-80; Camp, R., (1989) Benchmarking: The Search for Industry Best Practices That Lead to Superior Performance, , Quality Press, Mulwaukee; Cheema, P., Griffiths, A., Towill, D., A review of the cast iron foundry industry: past, present and future. Part 2 – the way forward (1991) International Journal of Quality and Reliability Management, 8 (1); Cheung, N., Garcia, A., The use of a heuristic search technique for the optimisation of quality of steel billets produced by continuous casting (2001) Engineering Applications of Artificial Intelligence, 14 (2), pp. 229-238; Das, A., MondalThakkar, C., Maiti, J., A methodology for modelling and monitoring of centrifugal casting process (2015) International Journal of Quality & Reliability Management, 32 (7), pp. 718-735; Davenport, H., Competing on analytics (2006) Harvard Business Review, 2 (2), pp. 2-11; Desai, D., Prajapati, B., Competitive advantage through Six Sigma at plastic injection molded parts manufacturing unit: a case study (2017) International Journal of Lean Six Sigma, 8 (4), pp. 411-435; Gert, H., Laursen, N., Thorlund, J., (2010) Business Analytics for Managers, , John Wiley and Sons, New Jersey; Gijo, E., Bhat, S., Jnanesh, N., Application of Six Sigma methodology in a small-scale foundry industry (2014) International Journal of Lean Six Sigma, 5 (2), pp. 193-211; Guharaja, S., Haq, A., Karuppannan, K., Optimization of green sand casting process parameters by using Taguchi’s method (2006) The International Journal of Advanced Manufacturing Technology, 30 (11-12), pp. 1040-1048; Frazzon, E., Tortorella, G., Dávalos, R., Holtz, T., Coelho, L., Simulation-based analysis of a supplier-manufacturer relationship in lean supply chains (2017) International Journal of Lean Six Sigma, 8 (3), pp. 262-274; Han, Z., Chen, D., Feng, K., Long, M., Development and application of dynamic soft-reduction control model to slab continuous casting process (2010) ISIJ International, 50 (11), pp. 1637-1643; Hilbe, J., (2009) Logistic Regression Models, , CRC Press, Boca Raton, FL; Hiremath, S., Dulange, S., Advanced techniques in casting defects and rejection analysis: a study in An industry (2015) International Journal of Innovations in Engineering Research and Technology, 2 (9), pp. 1-9; Isack, H., Mutingi, M., Kandjeke, H., Vashishth, A., Chakraborty, A., Exploring the adoption of lean principles in medical laboratory industry: empirical evidences from Namibia (2018) International Journal of Lean Six Sigma, 9 (1), pp. 133-155; Ishikawa, K., (1989) Introduction to Quality Control, , Juse Press Ltd, Tokyo; Islam, S., Credit card account opening excellence using Six Sigma methodology (2016) International Journal of Lean Six Sigma, 7 (3), pp. 294-323; Karunakar, D., Datta, G., Prediction of defects in castings using back propagation neural networks (2016) International Journal of Modelling, Identification and Control, 3 (2); Kumar, S., Satsangi, P., Prajapati, D., Improvement of Sigma level of a foundry: a case study (2013) TQM Journal, 25 (1); Kumaravadivelm, A., Theory of inventive problem-solving method in sand casting process optimisation (2015) International Journal of Productivity and Quality Management, 16 (4); LaValle, S., Lesser, E., Shockley, R., Hopkins, M.S., Kruschwitz, N., Big data, analytics and the path from insights to value (2011) MIT Sloan Management Review, 52 (2); Lewis, R., Manzari, M., Gethin, D., Thermal optimisation in the sand casting process (2001) Engineering Computations, 18 (3-4), pp. 392-417; Li, J., Chen, R., Ma, Y., Ke, W., Characterization and prediction of microporosity defect in sand cast WE54 alloy castings (2014) Journal of Materials Science and Technology, 30 (10), pp. 991-997; Linstone, H., Turoff, M., (1975) The Delphi Method: Techniques and Applications, , Addison-Wesley Boston; Mehta, N., Verma, P., Seth, N., Shrivastava, N., Identification of TQM criterions for engineering education using Delphi technique (2014) International Journal of Intelligent Enterprise, 2 (4), pp. 325-352; Mizuno, S., (1988) Management for Quality Improvement: The 7 New QC Tools, , Productivity Press, Tokyo; Montgomery, D., (2007) Introduction to Statistical Quality Control, , 4th ed., Wiley, New York, NY; Noori, B., Latifi, M., Development of Six Sigma methodology to improve grinding processes: a change management approach (2018) International Journal of Lean Six Sigma, 9 (1), pp. 50-63; (2016) The National Statistical Service of Australian Bureau of Statistics (NSSA), , www.nss.gov.au/nss/home.nsf/NSS/0A4A642C712719DCCA2571AB00243DC6?opendocument, accessed, 18 December 2016; Ozcelik, B., Erzurumlu, T., Comparison of the warpage optimization in the plastic injection molding using ANOVA, neural network model and genetic algorithm (2006) Journal of Materials Processing Technology, 171 (3), pp. 437-445. , 1 February 2006; Papaefthymiou, S., Root cause analysis of surface and internal defects of micro‐alloyed S355 heavy plates (2013) International Journal of Structural Integrity, 4 (1), pp. 91-107; Patel, M., Prasad, K., Parappagoudarb, M., Squeeze casting process modeling by a conventional statistical regression analysis approach (2016) Applied Mathematical Modelling, 40 (15-16), pp. 6869-6888; Perzyk, M., Kochański, A., Prediction of ductile cast iron quality by artificial neural networks (2001) Journal of Materials Processing Technology, 109 (3), pp. 305-307; Raffaeli, R., Favi, C., Mandorli, F., Virtual prototyping in the design process of optimised mould gating system for high pressure die casting (2015) Engineering Computations, 32 (1), pp. 102-128; Ransbotham, S., Kiron, D., Prentice, P., Beyond the hype: the hard work behind analytics success (2016) MIT Sloan Management Review, 57 (3); Reosekar, R., Pohekar, S., Six Sigma methodology: a structured review (2014) International Journal of Lean Six Sigma, 5 (4), pp. 392-422; Rowea, G., Wright, G., The Delphi technique as a forecasting tool: issues and analysis (1999) International Journal of Forecasting, 15 (4), pp. 353-375; Saikaew, C., Wiengwiset, S., Optimization of moulding sand composition for quality improvement of iron castings (2012) Applied Clay Science, 67-68, pp. 26-31. , Vols; Senthilkumara, B., Ponnambalamb, S., Jawahar, N., Process factor optimisation for controlling pull-down defects in iron castings (2009) Journal of Materials Processing Technology, 209 (1), pp. 554-560; Singaraman, L., Improving quality of sand casting using taguchi method and ANN analysis (2010) International Journal on Design and Manufacturing Technologies, 4 (1), pp. 1-5; Snee, R., Lean Six Sigma – getting better all the time (2010) International Journal of Lean Six Sigma, 1 (1), pp. 9-29; Sushil, K., Satsangi, P., Prajapati, D., Optimization of process factors for controlling defects due to melt shop using Taguchi method (2013) International Journal of Quality and Reliability Management, 30 (1), pp. 4-22; Sushil, K., Satsangi, P., Prajapati, D., Improvement of Sigma level of a foundry: a case study (2013) The TQM Journal, 25 (1), pp. 29-43; Timelli, G., Caliari, D., Rakhmonov, J., Influence of process parameters and Sr addition on the microstructure and casting defects of LPDC A356 alloy for engine blocks (2016) Journal of Materials Science and Technology, 32 (6), pp. 515-523; Vaus, D., (2001) Research Design in Social Research, , SAGE Publications Ltd, California; Vidal, L., Marle, F., Bocquet, J., Building up a project complexity framework using an international Delphi study (2013) International Journal of Technology Management, 62 (3-4). , 2; Wilson, W., Nihal, W., Frater, G., The effect of contextual factors on quality improvement success in a lean-driven New Zealand healthcare environment (2018) International Journal of Lean Six Sigma, 9 (2), pp. 199-220; Karthik, S., Vinodh, S., Devarapu, S., Siddhamshetty, G., Application of lean approach for reducing weld defects in a valve component: a case study (2017) International Journal of Lean Six Sigma, 8 (2), pp. 181-209; Lakshmanan, S., Improving quality of sand casting using Taguchi method and ANN analysis (2010) International Journal on Design and Manufacturing Technologies, 4 (1). , January 2010; Tiwari, S., Singh, R., Srivastav, S., Optimisation of green sand casting process parameters for enhancing quality of mild steel castings (2016) International Journal of Productivity and Quality Management, 17 (2)","Mishra, N.; Department of Mechanical Engineering, India; email: mishranu@yahoo.com",,,"Emerald Group Holdings Ltd.",,,,,20404166,,,,"English","Int. J. Lean Six Sigma",Article,"Final","",Scopus,2-s2.0-85055144585
"Kewate S.P., Murudi M.M.","57053434200;8077743100;","Empirical Period-Height Relationship for reinforced Concrete Moment Resisting Buildings in India",2019,"IOP Conference Series: Materials Science and Engineering","481","1","012018","","",,,"10.1088/1757-899X/481/1/012018","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85063768353&doi=10.1088%2f1757-899X%2f481%2f1%2f012018&partnerID=40&md5=856054cfcbd8dbbfa6b6a50d600e0d43","Department of Civil Engineering, Vishwaniketan's Institute of Management Enterpreneurship and Engineeringn, Kumbhivali, Khalapur, Maharashtra, 410203, India; Department of Civil Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, Maharashtra, 400058, India","Kewate, S.P., Department of Civil Engineering, Vishwaniketan's Institute of Management Enterpreneurship and Engineeringn, Kumbhivali, Khalapur, Maharashtra, 410203, India; Murudi, M.M., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, Maharashtra, 400058, India","The fundamental period of vibration of buildings is the unique parameter that has a major influence on the earthquake induced lateral forces. Many design codes provide simple empirical period -height relationships for the determination of the fundamental period of vibration but using these equations time period and the resulted base shear are conservatively estimated. In most design cases the results obtained using conservative estimates formulae are largely deviating from the required engineering accuracy. Therefore a relationship is sought that will give accurate prediction of period of vibration for structural assessment of Indian reinforced concrete moment resisting frame buildings. On the basis of fundamental period of vibration of an Indian reinforced concrete moment resisting frame (RC MRF) building, obtained by finite element analysis, new equation has been proposed. In this study 21 existing reinforced concrete moment resisting frame buildings in India, with varying length, width and height are considered. The fundamental time periods of all the selected buildings were calculated using finite element method and IS 1893(Part 1) : 2002 based empirical formula. The comparison of proposed equation with Indian code shows that finite element analysis yielded 100 % higher periods as compared to the code approach. © 2019 Published under licence by IOP Publishing Ltd.",,"Buildings; Codes (symbols); Critical infrastructures; Finite element method; Magnetorheological fluids; Public works; Reinforced concrete; Safety engineering; Vibration analysis; Accurate prediction; Empirical formulas; Existing reinforced concrete; Fundamental period; Lateral force; Moment resisting; Moment resisting frames; Structural assessments; Structural frames",,,,,,,,,,,,,,,,"Anastasia, K.E., Karabinis, A.I., Correlation of structural seismic damage with fundamental period of RC buildings (2013) Open Journal of Civil Engineering, 3 (1), pp. 45-67. , 3; Li, L.H., Hwang, W.L., Empirical formula for fundamental periods of vibration for Reinforced concrete buildings in Taiwan (2000) Earthquake Engineering and Structural Dynamics, 29 (3), pp. 327-337; Magdy, I.S., Estimation of period of vibration for concrete moment-resisting frame buildings (2015) HBRC Journal, 11 (1), pp. 16-21; Ditommaso, R., Vona, M., Gallipoli, M.R., Mucciarelli, M., Evaluation and considerations about fundamental periods of damaged reinforced concrete buildings (2013) National Hazards Earth System Science, 13 (7), pp. 1903-1912; Goel, R.K., Chopra, A.K., Period formulas for moment - Resisting frame buildings (1997) Journal of Structural Engineering, ASCE, 123 (11), pp. 1454-1461; Pinho, R., Crowley, H., Revisiting Eurocode 8 formulae for periods of vibration and their employment in linear seismic analysis (2010) Earthquake Engineering and Structural Dynamics, 39, pp. 223-235; Prakash, S., Dubey, S.K., Effect of base width and stiffness of the structure on period of vibration of RC framed buildings in seismic analysis (2015) Open Journal of Earthquake Research, 4 (2), pp. 65-73. , 4; Elgohary, H., Empirical formula for the fundamental period of vibration of multi-storey RC framed buildings (2013) Proceeding of Vienna Congress on Recent Advances in Earthquake Engineering and Structural Dynamics, , (Vienna, Austria,) August; Crowley, H., Pinho, R., Simplified equations e the period of vibration of existing building (2006) Proceeding of First European Conference on Earthquake Engineering and Seismology, , (Geneva, Switzerland, September); Chiauzzi, L., Masi, A., Mucciarelli, M., Estimate of fundamental period of reinforced concrete buildings: Code provisions vs. Experimental measures in Victoria and Vancouver(BC,Canada) (2012) Proc. of the 15th World Conference on Earthquake Engineering, , (Lisbon, September); (1978) Tentative Provisions for the Development of Seismic Regulations for Buildings, , Applied Technology Council (Palo Alto, California) Report No. ATC3-06; (2006) Minimum Design Loads for Buildings and Other Structures, , ASCE/SEI 7-05 (Reston, Virginia: American Society of Civil Engineers); (2005) Design of Structures for Earthquake Resistance - Part 1 : General Rules, Seismic Actions and Rules for Buildings, European Committee for Standardization (CEN) Brussels, , Eurocode 8; (2007) Iranian Code of Practice for Seismic Resistant Design of Buildings (Standard No. 2800), , Iran (Building and Housing Research Centre, Ministry of Housing and Urban Development); (2002) Part I :General Provisions and Buildings (Fifth Revision), Bureau of Indian Standards, , IS 1893 Part I. (New Delhi, India) Criteria for earthquake resistant design of structures; (2005) Building Code for Structural Regulations, Ministry of Construction and Transportation, , KBC-05 (Korea); (1999) Recommended Provisions for the Development of Seismic Regulations for New Buildings, Building Seismic Safety Council, , NEHRP-94 (Washington, D. C.); (1996) Recommended Lateral Force Requirements and Commentary, , SEAOC-96 (San Francisco, California: Seismological Committee Structural Engineers Association of California); (2005) Seismic Design Code for Buildings in Taiwan, , Tiwan (Construction and Planning Agency, Ministry of the Interior, R.O.C.); 1997Uniform Building Code, , UBC-97 (Whittier, California: International Conference of Building Officials); (1995) National Building Code of Canada, , NBCC-95 (Associate Committee on the National Building Code, National Research Council of Canada); Al-Nimry, H., Resheidat, M., Jamal, M., Ambient vibration testing of low and medium buildings in Jordan (2014) Soil Dyn. Earthq. Eng., 59, pp. 21-29; Paolo, R., Verderame, G.M., Manfredi, G., Analytical investigation of elastic period of infilled RC MRF buildings (2011) Engineering Structures, 32, pp. 308-319; Asteris, P.G., Repapis, C.C., Cavaleri, L., Athanasopoulou, A., On the fundamental period of infilled RC frame buildings (2015) Structural Engineering and Mechanics, 54 (6), pp. 1175-1200",,,,"Institute of Physics Publishing","4th International Conference on Safety Problems of Civil Engineering Critical Infrastructures, Safety 2018","4 October 2018 through 5 October 2018",,146475,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85063768353
"Gaikwad L.M., Sunnapwar V.K., Teli S.N., Parab A.B.","56198941700;6504099005;56198415800;57205659345;","Application of DMAIC and SPC to Improve Operational Performance of Manufacturing Industry: A Case Study",2019,"Journal of The Institution of Engineers (India): Series C","100","1",,"229","238",,6,"10.1007/s40032-017-0395-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85060979629&doi=10.1007%2fs40032-017-0395-5&partnerID=40&md5=3bffa4f7b0a6e4471cf4925c9a14100f","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, Maharashtra  400058, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, Maharashtra  400709, India; Department of Mechanical Engineering, Saraswati College of Engineering, Kharghar, Navi Mumbai, Maharashtra  410210, India","Gaikwad, L.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, Maharashtra  400058, India; Sunnapwar, V.K., Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, Maharashtra  400709, India; Teli, S.N., Department of Mechanical Engineering, Saraswati College of Engineering, Kharghar, Navi Mumbai, Maharashtra  410210, India; Parab, A.B., Department of Mechanical Engineering, Saraswati College of Engineering, Kharghar, Navi Mumbai, Maharashtra  410210, India","Statistical process control (SPC) is an excellent quality assurance tool to improve the quality of manufacture and end-customer satisfaction. It uses process monitoring charts to record the key quality characteristics of the component/part in manufacture. This research paper elaborates on one such key quality characteristics of the manufacturing of a spring support in the Tissue Dissector Device. This paper presents a creative solution through case study approach for improving the issue of rejection rate in the spring support in a medical device manufacturing industry by using SPC and define-measure-analyze-improve-control (DMAIC) approach which provide breakthrough quality improvements in short period of time. © 2017, The Institution of Engineers (India).","Case study; Cost of poor quality; Define-measure-analyse-improve-control methodology; Statistical process control","Customer satisfaction; Industrial research; Process monitoring; Quality assurance; Control methodology; Cost of poor qualities; Key quality characteristics; Manufacturing industries; Medical device manufacturing; Operational performance; Quality assurance tools; Statistical process controls (SPC); Statistical process control",,,,,,,,,,,,,,,,"Wetherill, G.B., Brown, D.W., (1991) Statistical Process Control Theory and Practice, , Chapman and Hall, London; Antony, J., Key ingredients for the effective implementation of statistical process control (2000) Work Study, 49 (6), pp. 242-247; Salzman, K., Statistical Process Control Implementation for GaAs Integrated circuit Fabrication (1992) Texas Instruments Incorporated, IEEE Ga as IC Symposium, pp. 217-220; Yang, S.-F., Yang, C.-M., Economic statistical process control for over adjusted process mean (2004) Int. J. Qual. Reliab. Manag., 21 (4), pp. 412-424; Pyzdek, T.T., Keller, P.A., (2010) The Six Sigma Handbook, A Complete Guide for Green Belts, Black Belts, and Managers at All Levels, , 3, McGraw-Hill, New York; Park, S.H., Lee, M.J., Chung, M.Y., (1999) Theory and Practice of Six Sigma, , Publishing Division of Korean Standards Association, Seoul; Gijo, E.V., Scaria, J., Antony, J., Application of six sigma methodology to reduce defects of a grinding process (2011) Qual. Reliab. Eng. Int., 27 (8), pp. 1221-1234; Locke, J.W., (1994) Statistical Measurement Control, Quality and Statistics, Total Quality Management, ASTM STP 1209, , J.M. Kowalewski Jr. (ed), American Society for Testing and Materials, Philadelphia; Lin, H.C., The measurement of a process capability for folded normal process data (2004) Int. J. Adv. Manuf. Technol., 24, pp. 223-228; Tong, J., Tsung, F., Yen, B., A DMAIC approach to printed circuit board quality improvement (2004) Int. J. Adv. Manuf. Technol., 23, pp. 523-531; Li, M.H.C., Al-Refaie, A., Yang, C.Y., DMAIC approach to improve the capability of SMT solders printing process (2008) IEEE Trans. Electron. Packag. Manuf., 31, p. 126; Hwang, Y.D., The practices of integrating manufacturing execution system and six sigma methodology (2006) Int. J. Adv. Manuf. Technol., 30, pp. 761-768; Gentili, E., Aggogeri, F., Mazzola, M., (2006) The improvement of a manufacturing stream using the DMAIC method, pp. 127-133. , University of Brescia Paper No. IMECE2006-14469, ASME, New York; Sahay, C., Ghosh, S., Bheemarthi, P.K., (2011) Process Improvement of Brake Lever Production Using DMAIC, pp. 801-826. , University of Hartford, Paper No. IMECE 2011-63813, ASME, New York; Singh, R., Process capability study of polyjet printing for plastic components (2011) J Mech. Sci. Technol., 25 (4), pp. 1011-1015; Kumaravadivel, A., Natarajan, U., Application of six sigma DMAIC methodology to sand casting process with response surface methodology (2013) Int. J. Adv. Manuf. Technol., 69, pp. 1403-1420; Gaikwad, L.M., Teli, S.N., Majali, V.S., Bhushi, U.M., An application of six sigma to reduce supplier qu97ality cost (2016) J. Inst. Eng. (India) Ser. C, 97 (1), pp. 93-107; Teli, S.N., Gaikwad, L.M., Majali, V.S., Bhushi, U.M., Surange, V.V., Cost of poor quality analysis for automobile industry: a case study (2013) J. Inst. Eng. India Ser. C, 94 (4), pp. 373-384","Gaikwad, L.M.; Department of Mechanical Engineering, Andheri, India; email: lokpriya2007@gmail.com",,,"Springer",,,,,22500545,,,,"English","J. Inst. Eng. Ser. C",Article,"Final","",Scopus,2-s2.0-85060979629
"Panidepu H., Ram S.K., Cheernam V., Tyagi R.D.","57430580900;57202129368;57430692500;7103142169;","Biodiesel: Socioeconomic and Political Aspects",2019,"Biodiesel Production: Technologies, Challenges, and Future Prospects",,,,"653","663",,,"10.1061/9780784415344.ch24","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123674027&doi=10.1061%2f9780784415344.ch24&partnerID=40&md5=f70767985a128a791140bbcc51462166","Indian Institute of Technology, New Delhi, India; INRS, Université du Québec, Québec, QC, Canada; Sardar Patel College of Engineering, Mumbai, India; University of Quebec, Canada; European Academy of Sciences and Arts, United Kingdom","Panidepu, H., Indian Institute of Technology, New Delhi, India; Ram, S.K., INRS, Université du Québec, Québec, QC, Canada; Cheernam, V., Sardar Patel College of Engineering, Mumbai, India; Tyagi, R.D., INRS, Université du Québec, Québec, QC, Canada, University of Quebec, Canada, European Academy of Sciences and Arts, United Kingdom","This chapter looks into some of the issues beyond technology in the realms of economics, politics, and sociology and into the ideology of different sovereign countries and their take on biodiesel technologies, the international fora, and their mulling over proliferation of biodiesel technology, the oil sector, and its humongous power. It discusses the social and environmental developments occurring in biodiesel development, and most importantly, the implications for a common person and for a community as the consumer, producer, and observer of the biodiesel production phenomenon. Governments around the world have been promoting biofuel feedstock production hoping to fight climate change, to invigorate the rural economy by providing employment, and to nurture an alternative energy resource that is no longer limited by thoughts of nonavailability of crude oil in the near future, either by natural or political constraints. However, perpetuating this change has caused a domino effect and brought about other changes too. © 2019 by the American Society of Civil Engineers.",,,,,,,,,,,,,,,,,,"Arezki, R., Blanchard, O., (2015) The 2014 oil price slump: Seven key questions, , https://voxeu.org/article/2014-oil-price-slump-seven-keyquestions, Accessed October 15, 2016; (2016) Senators letter to EPA administrator McCarthy, , Accessed October 15, 2016; Borras, S.M., Jr., Hall, R., Scoones, I., White, B., Wolford, W., Towards a better understanding of global land grabbing: An editorial introduction (2011) J. Peasant Stud., 38 (2), pp. 209-216; Borras, S.M., Jr., McMichael, P., Scoones, I., The politics of biofuels, land and agrarian change: Editors’ introduction (2010) J. Peasant Stud., 37 (4), pp. 575-592; Bush, G.W., (2007) State of the union, , https://georgewbushwhitehouse.archives.gov/stateoftheunion/2007/, Accessed October 15, 2016; Cotula, L., Dyer, N., Vermeulen, S., Fuelling exclusion (2008) The biofuels boom and poor people’s access to land, p. 72. , London: IIED; Deepak Rajagopal, D.Z., Environmental, economic and policy aspects of biofuels (2008) Foundations and trends in microeconomics, , Berkeley, CA: Univ. of California, Berkeley; Deininger, K., Byerlee, D., (2011) Rising global interest in farmland: Can it yield sustainable and equitable benefits?, , Washington, DC: The World Bank; Field, C.B., Barros, V.R., Dokken, D.J., Mach, K.J., Mastrandrea, M.D., Bilir, T.E., (2014) IPCC, 2014: Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, , Cambridge, UK: Cambridge University Press; George, R., Orf issue brief (2012) Why are the GCC states turning to nuclear power?, , New Delhi, India: Observer Research Foundation; Jakel, N.T., Ulrich, J.F., (2004) Method for producing fermentation-based products from high oil corn, , US Patents. US6703227B2; Johnstone, S., Mazo, J., Global warming and the Arab Spring (2011) Survival, 53 (2), pp. 11-17; Karl, T.L., (2016) The hidden consequences of the oil crash, , https://www.politico.com/magazine/story/2016/01/oil-crash-hidden-consequences-213550, Accessed July 9, 2019; Kedron, P., Bagchi-Sen, S., Limits to policy-led innovation and industry development in US biofuels (2017) Technol. Anal. Strategic Manage., 29 (5), pp. 486-499; Moorhouse, J., (2016) 5 principles for designing effective biofuels policy, , https://policyoptions.irpp.org/2016/04/07/five-principles-designing-effectivebiofuels-policy/, Accessed July 9, 2019; Phalan, B., The social and environmental impacts of biofuels in Asia: An overview (2009) Appl. Energy, 86, pp. S21-S29; Runge, C., Senauer, B., (2007) How biofuels could starve the poor, May/June, , https://www.foreignaffairs.com/articles/2007-05-01/how-biofuels-couldstarve-poor, Accessed July 9, 2019; Sassen, S., (2006) Territory, authority, rights: From medieval to global assemblages, , Cambridge, UK: Cambridge University Press; Sievers, L., Schaffer, A., The impacts of the German biofuel quota on sectoral domestic production and imports of the German economy (2016) Renewable Sustainable Energy Rev., 63, pp. 497-505; (2007) Brazilian program for biodiesel production, , http://www.ubrabio.com.br/1933/textos/BrazilianProgramForBiodieselProduction_29990/, Accessed October 15, 2016; Upham, P., Thornley, P., Tomei, J., Boucher, P., Substitutable biodiesel feedstocks for the UK: A review of sustainability issues with reference to the UK RTFO (2009) J. Cleaner Prod., 17, pp. S37-S45; Wakil, M., Kalam, M.A., Masjuki, H., Rizwanul Fattah, I., Rice bran: A prospective resource for biodiesel production in Bangladesh (2016) Int. J. Green Energy, 13 (5), pp. 497-504; Zhao, J., Development of China’s biofuel industry and policy making in comparison with international practices (2015) Sci. Bull., 60 (11), pp. 1049-1054",,,,"American Society of Civil Engineers (ASCE)",,,,,,9780784482285; 9780784415344,,,"English","Biodiesel Production: Technologies, Challenges, and Future Prospects",Book Chapter,"Final","",Scopus,2-s2.0-85123674027
"Panidepu H., Ram S.K., Cheernam V., Tyagi R.D.","57430580900;57202129368;57430692500;7103142169;","Biodiesel: Variations, Properties, and Comparison with Diesel",2019,"Biodiesel Production: Technologies, Challenges, and Future Prospects",,,,"15","25",,,"10.1061/9780784415344.ch02","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123653892&doi=10.1061%2f9780784415344.ch02&partnerID=40&md5=a35364c7df9087b501baa646919e326c","Indian Institute of Technology, New Delhi, India; INRS, Université du Québec, Québec, QC, Canada; Sardar Patel College of Engineering, Mumbai, India; University of Quebec, Canada; European Academy of Sciences and Arts, United Kingdom","Panidepu, H., Indian Institute of Technology, New Delhi, India; Ram, S.K., INRS, Université du Québec, Québec, QC, Canada; Cheernam, V., Sardar Patel College of Engineering, Mumbai, India; Tyagi, R.D., INRS, Université du Québec, Québec, QC, Canada, University of Quebec, Canada, European Academy of Sciences and Arts, United Kingdom","This chapter looks into the various technical aspects of biodiesel that qualify it to be an alternative fuel and the physicochemical properties of biodiesel in greater detail. It also explains the cause and sometimes the need for variation in the biofuel and its effect on engine performance, the effect of such a change in the fuel characteristics on various quantifiable outputs, and examines the overall performance and potential of biofuels in comparison to conventional mineral oil. Depending upon the difference in their physicochemical properties, biodiesel has a number of variations and therefore is denoted by different names. A number of standards exist for biodiesel quality, based on some unique specifications. The European standard EN 14214, ASTM International D6751 of the United States, and the National Standard of Canada CAN/CGSB-3.524 are all comparable standards, although they are known by different nomenclatures in these different countries. © 2019 by the American Society of Civil Engineers.",,,,,,,,,,,,,,,,,,"Agarwal, A.K., Gupta, T., Kothari, A., Particulate emissions from biodiesel vs diesel fuelled compression ignition engine (2011) Renew. Sustain. Energy Rev., 15 (6), pp. 3278-3300; Benea, B.C., Study regarding the effect of biodiesel on diesel engine emission (2013) Acta Technica Corviniensis - Bulletin of Engineering tome vi - Fascicule, 3, pp. 127-129. , [July-September] ISSN 2067-3809; Bockey, D., (2004) Biodiesel flowerpower: Facts, arguments, tips, , 2nd ed., 10. Berlin: Union for the Promotion of Oil and Protein Plants; Dantas, M., Albuquerque, A., Barros, A., Rodrigues Filho, M., Antoniosi Filho, N., Sinfrônio, F., Evaluation of the oxidative stability of corn biodiesel (2011) Fuel, 90 (2), pp. 773-778; Demirbas, A., The importance of bioethanol and biodiesel from biomass (2008) Energy Sources Part B, 3 (2), pp. 177-185; Fulton, L., Driving ahead-biofuels for transport around the world (2004) Renew. Energy World, 7 (4), pp. 180-189; Jääskeläinen, H., (2019) Early history of the diesel engine, , https://www.dieselnet.com/tech/diesel_history.php, Accessed May 20, 2019; Kalligeros, S., Zannikos, F., Stournas, S., Lois, E., Anastopoulos, G., Teas, C., An investigation of using biodiesel/marine diesel blends on the performance of a stationary diesel engine (2003) Biomass Bioenergy, 24 (2), pp. 141-149; Madden, M.C., A paler shade of green? The toxicology of biodiesel emissions: Recent findings from studies with this alternative fuel (2016) Biochim. Biophys. Acta (BBA)-General Subjects, 1860 (12), pp. 2856-2862; Mukonza, C., Nhamo, G., Institutional and regulatory framework for biodiesel production: International perspectives and lessons for South Africa (2016) Afr. J. Sci. Technol. Innovation Dev., 8 (1), pp. 1-11; Park, J.-Y., Kim, D.-K., Lee, J.-P., Park, S.-C., Kim, Y.-J., Lee, J.-S., Blending effects of biodiesels on oxidation stability and low temperature flow properties (2008) Bioresour. Technol., 99 (5), pp. 1196-1203; Raheman, H., Phadatare, A., Diesel engine emissions and performance from blends of karanja methyl ester and diesel (2004) Biomass Bioenergy, 27 (4), pp. 393-397; Talebi, A.F., Tabatabaei, M., Chisti, Y., BiodieselAnalyzer: A user-friendly software for predicting the properties of prospective biodiesel (2014) Biofuel Res. J., 1 (2), pp. 55-57; Tat, M.E., Van Gerpen, J.H., The kinematic viscosity of biodiesel and its blends with diesel fuel (1999) J. Am. Oil Chem. Soc., 76 (12), pp. 1511-1513; Van Gerpen, J.H., Hammond, E.G., Yu, L., Monyem, A., (1997) Determining the influence of contaminants on biodiesel properties: SAE technical paper, , Warrendale, PA: Society of Automotive Engineers; Vrabie, V., Vegetable oils as alternative fuel for new generation of diesel engines: A review (2016) Proc., 24th Int. Scientific Conf. Trans & Motauto '16, 1, pp. 105-109. , Sofia, Bulgaria; Xue, J., Grift, T.E., Hansen, A.C., Effect of biodiesel on engine performances and emissions (2011) Renew. Sustain. Energy Rev., 15 (2), pp. 1098-1116",,,,"American Society of Civil Engineers (ASCE)",,,,,,9780784482285; 9780784415344,,,"English","Biodiesel Production: Technologies, Challenges, and Future Prospects",Book Chapter,"Final","",Scopus,2-s2.0-85123653892
"Bhasme B.N., Sharma S.D.","57192574936;57198534938;","Wake characteristics of a circular cylinder with a short flat plate in one of the separated shear layers",2019,"AIAA Aviation 2019 Forum",,,,"1","11",,,"10.2514/6.2019-3539","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099520392&doi=10.2514%2f6.2019-3539&partnerID=40&md5=efb13a1bf3d8ed340d9b4ce23442a097","Sardar Patel College of Engineering, Mumbai, Maharashtra  400058, India; Indian Institute of Technology Bombay, Mumbai, Maharashtra  400072, India","Bhasme, B.N., Sardar Patel College of Engineering, Mumbai, Maharashtra  400058, India; Sharma, S.D., Indian Institute of Technology Bombay, Mumbai, Maharashtra  400072, India","The present paper discusses the investigation carried out on the circular cylinder in presence of short flat plate placed at various angles of inclination in one of the separated shear layers. The investigations were carried out by doing color dye flow visualization, surface pressure measurements and wake measurements by using 2D-PIV. A flow visualization was carried out at Re = 650 showed that flat plate suppresses the vortex shedding at α = 6° and α = 12°. Pressure measurements at test Reynolds number of Re = 19300 showed increase of base pressure by 27% and reduction of form drag by 21% when plate angle is increased to α = 12° at G/D = 0.5. 2D-PIV measurements at test Reynolds number of Re = 19300 showed increase of vortex formation length with increase in angle of plate. The turbulent kinetic energy and the Reynolds stresses, both normal and shear, decrease sharply in comparison with those for the bare cylinder by 47%, 50% and 53%, respectively. © 2019, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.",,"Aviation; Circular cylinders; Kinetic energy; Kinetics; Pressure measurement; Reynolds number; Shear flow; Vortex flow; Wakes; Base pressure; Dye flow-visualization; Flat plate; Reynolds stress; Separated shear layers; Surface pressure measurements; Turbulent kinetic energy; Vortex formation; Flow visualization",,,,,,,,,,,,,,,,"Roshko, A., On the Wake and Drag of Bluff Bodies (1955) J. Aeronaut. Sci. (Institute Aeronaut. Sci, 22 (2), pp. 124-132; Unal, M. F., Rockwell, D., On vortex formation from a cylinder. Part 2. Control by splitter-plate interference (1988) J. Fluid Mech, 190, pp. 513-529; Ozono, S., Flow control of vortex shedding by a short splitter plate asymmetrically arranged downstream of a cylinder (1999) Phys. Fluids, 2928 (1999), pp. 9-16; Akilli, H., Sahin, B., Tumen, N. F., Suppression of vortex shedding of circular cylinder in shallow water by a splitter plate (2005) Flow Meas. Instrum, 16 (4), pp. 211-219; Yucel, S. B., Cetiner, O., Unal, M. F., Interaction of circular cylinder wake with a short asymmetrically located downstream plate (2010) Exp. Fluids, 49 (1), pp. 241-255; Sharma, S. D., Deshpande, P. J., Kutta–Joukowsky theorem in viscous and unsteady flow (2012) Exp. Fluids, 52 (6), pp. 1581-1591. , Jun; Gu, F., Wang, J. S., Qiao, X. Q., Huang, Z., Pressure distribution, fluctuating forces and vortex shedding behavior of circular cylinder with rotatable splitter plates (2012) J. Fluids Struct, 28, pp. 263-278; Shao, C., Wang, J., Control of mean and fluctuating forces on a circular cylinder at high Reynolds numbers (2007) Acta Mech. Sin. Xuebao, 23 (2), pp. 133-143; Akilli, H., Karakus, C., Akar, A., Sabin, B., Tumen, N. F., Control of vortex shedding of circular cylinder in shallow water flow using an attached splitter plate (2008) J. Fluids Eng. Trans. ASME, 130 (4), pp. 414011-4140111; Ozgoren, M., Flow structure in the downstream of square and circular cylinders (2006) Flow Meas. Instrum, 17 (4), pp. 225-235; Parnaudeau, P., Carlier, J., Heitz, D., Lamballais, E., Experimental and numerical studies of the flow over a circular cylinder at Reynolds number 3900 (2008) Phys. Fluids, 20 (8); Cantwell, B. J., Coles, D., An experimental study of entrainment and transport in the turbulent near wake of a circular cylinder (1983) J. Fluid Mech, 136, p. 321; Perrin, R., Braza, M., Cid, E., Cazin, S., Sevrain, A., Djeridi, H., Harran, G., Moradei, F., Global Modes and Near Wake Unsteadiness in the Turbulent Flow Around a Circular Cylinder At (2005) Recherche; Dong, S., Karniadakis, G. E., Ekmekcia, A., Rockwell, D., A combined direct numerical simulation–particle image velocimetry study of the turbulent near wake (2006) J. Fluid Mech, 569, pp. 185-207; Oruç, V., Passive control of flow structures around a circular cylinder by using screen (2012) J. Fluids Struct, 33 (October), pp. 229-242; Oruç, V., Akilli, H., Sahin, B., PIV measurements on the passive control of flow past a circular cylinder (2016) Exp. Therm. Fluid Sci, 70, pp. 283-291. , Septermber 2015; Ozkan, G. M., Oruc, V., Akilli, H., Sahin, B., Flow around a cylinder surrounded by a permeable cylinder in shallow water (2012) Exp. Fluids, 53 (6), pp. 1751-1763; Akilli, H., Rockwell, D., Vortex formation from a cylinder in shallow water (2002) Phys. Fluids, 14 (9), pp. 2957-2967",,,,"American Institute of Aeronautics and Astronautics Inc, AIAA","AIAA Aviation 2019 Forum","17 June 2019 through 21 June 2019",,228939,,9781624105890,,,"English","AIAA Aviation Forum",Conference Paper,"Final","",Scopus,2-s2.0-85099520392
"Shah K., Chandnani R., Mavinkurve U., Raykar N.","57215322178;57215318280;57193362337;19934528100;","Application of Machine Learning for Design-by-Analysis of Pressure Equipment",2019,"2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019 - Proceedings",,,"8945858","","",,,"10.1109/ICNTE44896.2019.8945858","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078164434&doi=10.1109%2fICNTE44896.2019.8945858&partnerID=40&md5=7a98c8cac2dbb7113f92eae8ef6a7a73","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","Shah, K., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Chandnani, R., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Mavinkurve, U., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India; Raykar, N., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, India","Finite Element Analysis (FEA) is used extensively for design by analysis of Pressure Equipment (PE). While FEA provides the stress distribution within the PE geometry, the analyst is required to manually identify certain parameters for performing the analysis. The objective of this work is to supplement or replace the manual procedures of this analysis using Machine Learning (ML). Two distinct ML models to replace two such manual procedures in Design-by Analysis of PE have been developed. The models are trained on 605 distinct datasets obtained from stress-analysis of commonly found discontinuity region of PE. The ML models are trained to identify regions of discontinuity and predict linearized stresses which accelerates the analysis process. The results show that the ML models are sufficiently accurate to significantly supplement the analysis procedure. © 2019 IEEE.","Design-by-Analysis; Machine Learning; Process Equipment Design","Learning systems; Stress analysis; Analysis process; Design by analysis; Pressure equipments; Process equipments; Machine learning",,,,,,,,,,,,,,,,"Ablameyko, S., Uchida, S., Recognition of engineering drawing entities: Review of approaches (2007) Int J Image Graph; Mohamed, A., Hamdi, M.S., Tahar, S., (2017) Using Computational Intelligence for the Safety Assessment of Oil and Gas Pipelines: A Survey, pp. 189-207. , Springer, Cham; Khosravi, A., Pabon, J.J.G., Koury, R.N.N., Machado, L., Using machine learning algorithms to predict the pressure drop during evaporation of R407C (2018) Appl. Therm. Eng., 133, pp. 361-370. , Mar; Nasiri, S., Khosravani, M.R., Weinberg, K., Fracture mechanics and mechanical fault detection by artificial intelligence methods: A review (2017) Eng. Fail. Anal., 81, pp. 270-293. , Nov; Rapur, J.S., Tiwari, R., Experimental time-domain vibration-based fault diagnosis of centrifugal pumps using support vector machine (2017) ASCE-ASME J. Risk Uncert. Engrg. Sys., Part B Mech. Engrg., 3 (4), p. 044501. , Jun; Liang, L., Liu, M., Martin, C., Sun, W., A deep learning approach to estimate stress distribution: A fast and accurate surrogate of finite-element analysis (2018) J. R. Soc. Interface, 15 (138), p. 20170844. , Jan; Manevitz, L.M., Givoli, D., Towards automating the finite element method: A test-bed for soft computing (2003) Appl. Soft Comput., 3 (1), pp. 37-51. , Jul; Mathew, J., Griffin, J., AlamanIoTis, M., Kanarachos, S., Fitzpatrick, M.E., Prediction of welding residual stresses using machine learning: Comparison between neural networks and neuro-fuzzy systems (2018) Appl. Soft Comput., 70, pp. 131-146. , Sep; Bohn, B., Analysis of car crash simulation data with nonlinear machine learning methods (2013) Procedia Comput. Sci., 18, pp. 621-630. , Jan; Hakim, S.J.S., Abdul Razak, H., Ravanfar, S.A., Fault diagnosis on beam-like structures from modal parameters using artificial neural networks (2015) Measurement, 76, pp. 45-61. , Dec; Viii, S., (2015) Section VIII 2015; (2014) Mechanical APDL Documentation, , ANSYS. ANSYS; James, G., Witten, D., Hastie, T., Tibshirani, R., (2013) Unsupervised Learning, pp. 373-418",,,,"Institute of Electrical and Electronics Engineers Inc.","2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019","4 January 2019 through 5 January 2019",,156541,,9781538691663,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85078164434
"Mane A., Adhikari R., Gadgil S., Raykar N.","57215307307;57215310128;57215318753;19934528100;","Investigating Application of Machine Learning in Identification of Polygon Shapes for Recognition of Mechanical Engineering Drawings",2019,"2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019 - Proceedings",,,"8945917","","",,,"10.1109/ICNTE44896.2019.8945917","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078114905&doi=10.1109%2fICNTE44896.2019.8945917&partnerID=40&md5=4a618ce1f4da17ed44294d5cca8fa2ea","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India","Mane, A., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Adhikari, R., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Gadgil, S., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Raykar, N., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India","This paper investigates the applications of Machine Learning in recognition of 2D drawings of machine components. Recognition of primitive geometric shapes such as polygons within engineering drawings forms basic element of such approach. Machine learning algorithms are used to identify 3 to 7 sided polygons with random shapes and segmented edges. The uncertainty induced by segmented edges poses a challenge for predicting number of sides using statistical method such as Machine Learning. Different types of datasets with varying amount of uncertainty are used. The recognition of shapes is attempted with different sets of features such as coordinates of points, slopes of lines and geometric parameters such as area, perimeter and centroid. Three machine learning models namely, Random Forest Classifier, K- Nearest Neighbors Classifier and Support Vector Classifier are adopted. The performance of these models for identification of polygons is discussed. © 2019 IEEE.","Drawing Recognition; Machine learning; Pattern Recognition; Random Forest","Decision trees; Engineering education; Geometry; Learning algorithms; Learning systems; Nearest neighbor search; Pattern recognition; Shafts (machine components); Drawing recognition; Engineering drawing; K-nearest neighbors classifiers; Machine learning models; Random forest classifier; Random forests; Sets of features; Support vector classifiers; Machine learning",,,,,,,,,,,,,,,,"Jordan, M.I., Mitchell, T.M., Machine learning: Trends, perspectives, and prospects Science, 349 (6245), pp. 255-260. , (New York, N. Y.) American Association for the Advancement of Science, 17-Jul-2015; Huang, Q., Application of artificial intelligence in mechanical engineering qi huang (2017) 2nd International Conference on Computer Engineering, Information Science & Application Technology (ICCIA 2017) Application, 74, pp. 855-860. , Iccia; Wu, D., Jennings, C., Terpenny, J., Kumara, S., Gao, R.X., Cloud-based parallel machine learning for tool wear prediction (2018) J. Manuf. Sci. Eng., 140 (4), p. 041005. , Feb; Ahmad, N., Haque, A.A., Manufacturing feature recognition of parts using DXF files (2001) 4th Int. Conf. Mech. Eng., p. VI111116. , April; Sobh, A.S., Salem, S.A., Darwish, R., Hussein, M., Karam, O., Unsupervised clustering of materials properties using hierarchical techniques (2015) Int. J. Collab. Enterp., 5 (1-2), p. 74; Fuge, M., Peters, B., Agogino, A., Machine learning algorithms for recommending design methods (2014) J. Mech. Des., 136 (10), p. 101103. , Aug; Noor, A.K., AI and the future of the machine design (2017) Mech. Eng., 139 (10), p. 38. , Oct; Gu, G.X., Chen, C.-T., Buehler, M.J., De novo composite design based on machine learning algorithm (2018) Extrem. Mech. Lett., 18, pp. 19-28. , Jan; Dering, M.L., Tucker, C.S., Kumara, S., An unsupervised machine learning approach to assessing designer performance during physical prototyping (2017) J. Comput. Inf. Sci. Eng., 18 (1), p. 011002. , Nov; Chandrasegaran, S.K., (2013) The Evolution, Challenges, and Future of Knowledge Representation in Product Design Systems, 45 (2), pp. 204-228. , Feb; Lladós, J., Valveny, E., Sánchez, G., Martí, E., (2001) Symbol Recognition: Current Advances and Perspectives; Jabal, M.F.A., Rahim, M.S.M., Othman, N.Z.S., Jupri, Z., A comparative study on extraction and recognition method of cad data from CAD drawings (2009) 2009 International Conference on Information Management and Engineering, pp. 709-713; Prabhu, B., Biswas, S., Pande, S., Intelligent system for extraction of product data from CADD models (2001) Comput. Ind., 44 (1), pp. 79-95. , Jan; Flusser, J., Moment invariants in image analysis (2006) Enformatika, pp. 376-381; Riesen, K., Bunke, H., IAM graph database repository for graph based pattern recognition and machine learning (2008) Structural, Syntactic, and Statistical Pattern Recognition. SSPR/SPR 2008. Lecture Notes in Computer Science; Vento, M., A long trip in the charming world of graphs for Pattern Recognition (2015) Pattern Recognit., 48 (2), pp. 291-301. , Feb; Cheng, T., Khan, J., Liu, H., Yun, D.Y.Y., A SYMBOL RECOGNITION SYSTEM.; Wenyin, L., Zhang, W., Yan, L., An interactive example-driven approach to graphics recognition in engineering drawings (2007) Int. J. Doc. Anal. Recognit., 9 (1), pp. 13-29. , Feb",,,,"Institute of Electrical and Electronics Engineers Inc.","2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019","4 January 2019 through 5 January 2019",,156541,,9781538691663,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85078114905
"Kenge A., Mali A.","57215333626;57215320631;","Design and Analysis of Underwater Remotely Operated Vehicle",2019,"2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019 - Proceedings",,,"8945851","","",,3,"10.1109/ICNTE44896.2019.8945851","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078100334&doi=10.1109%2fICNTE44896.2019.8945851&partnerID=40&md5=2eab0fa45b63eb5a3a1d0d6446547e9d","Sardar Patel College of Engineering, Dept. of Mechanical Engineering, Mumbai, India; R. H. Sapat College of Engineering, Dept. of Mechanical Engineering, Nashik, India","Kenge, A., Sardar Patel College of Engineering, Dept. of Mechanical Engineering, Mumbai, India; Mali, A., R. H. Sapat College of Engineering, Dept. of Mechanical Engineering, Nashik, India","Nowadays under water environment is greatly influenced by science and technology as marine technology is extending its wings. Thus it becomes necessary to develop a system which can keep a watch and provides all physical information under the water. For this purpose we successfully designed and tested with a tool of ANSYS, a Remotely Operated Vehicle (ROV) which can do the above mentioned task. Remotely operated vehicle are nowadays an essential tool in evolving underwater habitat but still there are lots of barriers viz. high operating cost and comprehensibility. For this, our team started to design the simple ROV, demonstrating the analysis as a part of this research paper which can take the images of underwater life. This ROV can measure the various parameters like depth of dam, lake, river, well, etc. also it can give the quality of water under which it is roaming. Our ROV is self-intelligent which can tackle the obstacles like stones, roots of water lilies. The ROV can record good quality of video if provided with proper video graphic tool. The design of ROV which we have conceptualize, is handy and can be powered by 12V DC power which can be easily available at remote location. The efforts taken in designing this ROV will motivate researcher to make this technology more feasible. © 2019 IEEE.","Physical Parameters; Remotely Operated Vehicle; Underwater Environments; Virtual Inspection; Water Quality","Marine engineering; Remote control; Remotely operated underwater vehicles; Water quality; Design and analysis; Physical information; Physical parameters; Quality of videos; Remotely Operated Vehicles (ROV); Science and Technology; Underwater environments; Virtual inspection; Remotely operated vehicles",,,,,,,,,,,,,,,,"Moore, S.W., Underwater robotics: Science, design and fabrication (2010) Marine Advanced Technology Education (MATE) Center; Raymer, D.P., Aircraft design: A conceptual approach (1989) American Institute of Aeronautics and Astronautics, , Washington, D. C; The Origins of Submarines, , article from website Boulderinternetguide. com published on 1955-01-17 retrieved on 2010-09-17; (2015) An Article on Marine Advanced Technology, , published on MATE education on25thmay; Greene, H.G., Stakes, D.S., Orange, D.L., Barry, J.P., Robison, B.H., (1993) Application of A Remotely Operated Vehicle in Geologic Mapping of Monterey Bay, , California, USA; A product manual of thrusters from TTRobotics; Harway, J.F., (2001) A Book on Theory and Design of Pressure Vessels, , CBS Publishers and Distributors Pvt. Ltd",,,,"Institute of Electrical and Electronics Engineers Inc.","2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019","4 January 2019 through 5 January 2019",,156541,,9781538691663,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85078100334
"Kenge A., Kulkarni N., Tate N., Shaikh H., Bhole K.","57215333626;57533613600;57215311668;57195393129;55485785300;","Development and Mechanical Characterization of Natural-Artificial Fiber Hybrid Composite",2019,"2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019 - Proceedings",,,"8946037","","",,,"10.1109/ICNTE44896.2019.8946037","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078091143&doi=10.1109%2fICNTE44896.2019.8946037&partnerID=40&md5=e0f4d73bce99c14631eac9e559268391","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India","Kenge, A., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Kulkarni, N., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Tate, N., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Shaikh, H., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India; Bhole, K., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Maharashtra, India","Nowadays, traditional materials are being replaced by composite materials due to their better properties like high strength in tension as well as in flexure, lower thermal expansion, higher strength to weight ratio compared to conventional materials etc. These new materials are now being developed day by day which are eco-friendly, economic and efficient. Natural fiber composites made from fibers like Sisal, Jute, and Coir have become more attractive because of their high specific strength, low density and an ability to degrade naturally. Also, advantages of Glass-Fiber Reinforced Plastic (GFRP) such as high strength, flexibility, lower cost etc. are resulting in increased applications. Combining the natural and artificial fibers for making hybrid composites can elevate the properties of the composite materials. In this research, we developed coir-glass fiber reinforced hybrid composites with two different stacking sequences. Typically various properties such as tensile, flexural and impact strength and their modulus are evaluated for the exhaustive characterization. Further the SEM of broken samples is done to identify the defects in manufacturing of composite. The fiber and matrix possess better mechanical properties which could be beneficial for developing new options as an exterior material for components as well as the outside casing and housing for particular equipment in various industries. The results showed that due to integration of Coir and glass fiber as a hybrid reinforced composite have elevated mechanical properties as compared to pure coir composite. © 2019 IEEE.","Coir Fiber; Epoxy Resin and Hardener; Glass Fiber; Hand-layup Technique; Hybrid Composite","Fiber reinforced plastics; Glass fibers; Hybrid materials; Impact strength; Jute fibers; Reinforcement; Tensile strength; Thermal expansion; Coir fibers; Conventional materials; Hand lay-up; High specific strength; Hybrid composites; Mechanical characterizations; Natural fiber composites; Strength to weight ratio; Epoxy resins",,,,,"University of Mumbai, UM","ACKNOWLEDGMENT Authors would like to present sincere gratitude and thankful towards University of Mumbai for financial support through fund for minor research project with reference number A-12 (Mechanical Engineering)/ APD/237/323 of 2018, dated 27/03/2018 and Sardar Patel College of Engineering, Mumbai for support through TEQIP-III program.. Authors also acknowledge the support of Dr. Nilesh Raykar, Head, Dept. of Mechanical Engineering, and Dr. Jayram Gholave to carry out the project work.","This work is financially supported by University of Mumbai under Minor Research Project Grant and TEQIP-III.",,,,,,,,,"Kasama, J., Suppakarn, N., Effect of glass fiber hybridization on properties of sisal fiber polypropylene composites (2009) Compos: Part B, 40, pp. 623-627; Dwivedi, U.K., Chand, N., Influence of MA-g PP on abrasive wear behaviour of chopped fiber reinforced polypropylene composites (2009) J Mater Process Technol, 209, pp. 5371-5375; Verma, D., Gope, P.C., Shandilya, A., Gupta, A., Maheshwari, M.K., Coir fibre reinforcement and application in polymer composites: A review (2013) J. Mater. Environ. Sci., 4 (2), pp. 263-276; Van, S., (1972) Philips Research Reports, 27, p. 28; Suresh Kumar, S.M., Duraibabu, D., Subramanian, K., Studies on mechanical, thermal and dynamic mechanical propertiesof untreated (raw) and treated coconut sheath fiber reinforced epoxy (2014) Journal of Comp Mat Design, 59; Sultana Mir, S., Nafsin, N., Hasan, M., Hasan, A., Hasan, N., Improvement of physico-mechanical properties of coir-polypropylene biocomposites by fiber chemical treatment Journ of Mats and Design, 52, pp. 251-257; Haneefa, A., Bindu, P., Aravind, I., Thomas, S., Studies on tensile and flexural properties of short banana/glass hybridfiber reinforced polystyrene com posites (2008) Journ of Compo Materials., 42 (15); Jayabal, S., Natarajan, U., Sathiyamurthy, S., Effect of glass hybridization and staking sequence on mechanicalbehav iour of interply coir glass hybrid laminate (2011) Bull. Mater. Sci., 34 (2). , April; Saw, K.S., Sarkhel, G., Choudhury, A., Preparation and characterization of chemically modified Jute-Coir hybrid fiber reinforced epoxy novolac composites (2012) Journal of Applied Polymer Science, 125 (4), pp. 3038-3049; Agrawal, B., Broutman, L., Chandrashekhara, K., (2012) A Book on Analysis and Performance of Fiber Composites, , Wiley India Publicat ion; Jayabal, S., Natarajan, U., Sekar, U., Regression modeling and optimization of machinability behavior of glass-coir-polyester hybrid composite using factorial design methodology (2011) Int J Adv Mfg Tech; Walte, A., Bhole, K.S., Mechanical characterization of coir fiber reinforced composite (2018) IConAMMA, , Bengaluru; Standard test method for tensile properties of plastics (2002) ASTM International, West Conshohocken, PA, , www.astm.org, ASTM D638-02; (2016) Standard Test Method for Short-Beam Strength of Polymer Matrix Composite Materials and Their Laminates, , www.astm.org, ASTM D2344/D2344M-16 ASTM International, West Conshohocken, PA; (2010) Standard Test Methods for Determining the Izod Pendulum Impact Resistance of Plastics, , www.astm.org, ASTM D256-10e1 ASTM International, West Conshohocken, PA; Ramesh, M., Palanikumar, K., Hemachandra Reddy, K., Mechanical property evaluation of sisal-jute-glass fiber reinforced polyester composites (2013) J Comp Part B: Engg, 48. , May; Thiruchitrambalam, M., Alavudeen, A., Athijayamani, A., Venkateshwaran, N., Elaya Perumal, A., Improving mechanical properties of banana/kenaf polyester hybrid composites using sodium laulryl sulfate treatment (2009) J Materials Physics and Mechanics, 8, pp. 165-173; Hariprasad, T., Dharmalingam, G., Praveen Raj, P., Study of mechanical properties of banana-coir hybrid composite using experimental and fem techniques (2013) J Mech Engg. and Sci.; Venkatasubramanian, H., Chaithanyan, C., Raghuraman, D.S., Panneerselvam, T., Evaluation of mechanical properties of abaca-glassbanana fiber reinforced hybrid composites (2014) Int J Inno Res in Sci Engg Tech.; Senthilnathan, D., Gnanavel Babu, A., Bhaskar, G.B., Gopinath, K.G.S., Characterization of glass fibre-coconut coir-human hair hybrid composites (2014) Int J Engg Tech.; Mithil Kumar, N., Venkata Reddy, G., Venkata Naidu, S., Mechanical properties of coir/glass fiber phenolic resin based composites (2009) J Reinforced Plast and Comp, 28 (21); Sapuan, S.M., Harimi, M., Maleque, M.A., Mechanical properties of epoxy/coconut shell filler particle composites (2003) Arabian J for Sci and Engg, 28",,,,"Institute of Electrical and Electronics Engineers Inc.","2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019","4 January 2019 through 5 January 2019",,156541,,9781538691663,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85078091143
"Abhyankar V.V., Gavade S.A., Bhole K.S.","57212061580;57215329997;55485785300;","System Development for Simultaneous Measurement and Control of pH and Moisture of Soil",2019,"2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019 - Proceedings",,,"8946049","","",,1,"10.1109/ICNTE44896.2019.8946049","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85078081164&doi=10.1109%2fICNTE44896.2019.8946049&partnerID=40&md5=969f0afed0e97ae3a820eea22458456e","Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Andheri (West), 400058, India","Abhyankar, V.V., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Andheri (West), 400058, India; Gavade, S.A., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Andheri (West), 400058, India; Bhole, K.S., Sardar Patel College of Engineering, Department of Mechanical Engineering, Mumbai, Andheri (West), 400058, India","Proper growth of a crop is insured if the pH level and moisture of soil is maintained to a certain value. Further, this value depends upon the type of crop under consideration. This balance of pH and moisture of soil can lead to higher productivity rates. This work presents development of simple system which measures pH and moisture value of soil. This data acquired is further used to maintain the desired level through use of actuation system. Typical of actuation system used to monitor the supply of Sulphur etc. and water for maintaining pH and moisture level in soil. The desired level of pH and moisture in soil will be set as per the need for the crop to be cultivated from soil under consideration. The case presented in this paper is for cultivating tomato crop in soil. This particular crop need pH=6.0 to 6.8 and moisture required 4-7mm/hr. The control of these two parameters is expected to give better yield of crops. For this the microcontroller based embedded system is devised. The sensors are connected to a microcontroller in which the program of control actions according to the plant/crop is burned. This microcontroller then controls the flow control valve to adjust the required amount of flow of the chemicals and water. Thus the proposed system lays the news avenue for its use in agriculture and similar kinds of application. © 2019 IEEE.","moisture measurement; pH measurement; system for agriculture","Crops; Microcontrollers; Moisture determination; Soil moisture; Actuation systems; Flow control valves; Microcontroller-based; Moisture Measurement; PH measurements; Program of control; Simultaneous measurement; System development; Controllers",,,,,,,,,,,,,,,,"Romero, M.R., Wolfel, A., Igarzabal Alvarez, C.I., Smart valve: Polymer actuator to moisture soil control (2016) Sens. Actuator, B234, pp. 53-62; Kasambe, P.V., Bhole, K.S., Bhoir, D.V., Design and simulation of high SNR varying thickness embedded strain sensing polymer microcantilever for biosensing applications (2018) ASME 2018 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, pp. A004-A010. , August; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon Gaussian laser exposure (2014) Journal of Applied Physics, 116, pp. 043105-043110. , July; Gandhi, P., Bhole, K., Characterization of 'bulk lithography' process for fabrication of 3d micro-structures (2013) ASME Journal on Nano and Micro Manufacturing, 1, pp. 041002-041018. , December; Bhole, K., Ekshinge, S., Gandhi, P., Fabrication of continuously varying thickness micro-cantilever using bulk lithography process (2014) ASME International Manufacturing Science and Engineering Conference, MSEC2014-4041, p. A009. , June; Gandhi, P., Kamble, S., Bhole, K., Novel fabrication and characterization of diaphragm micromirror using bulk lithography (2012) ASME International Mechanical Engineering Congress and Exposition, pp. 549-554. , November, Houston, Texas, USA; Palaparthya, V.S., Kalitab, H., Suryad, S.G., ShojaeiBaghinie, M., Aslamb, M., Graphene oxide based soil moisture microsensor for in situ agriculture applications (2018) Sens. Actuator BChem., 273, pp. 1660-1669; Egamberdieva, D., Davranov, K., Wirth, S., Hashem, A., Allah, E.F., Impact of soil salinity on the plant-growth-promoting and biological control abilities of root associated bacteria (2017) Saudi J Biol Sci., 24, pp. 1601-1608; Sanogo, S., Response of Chile pepper to Phytophthoracapsici in relation to soil salinity (2004) Plant Dis., 88, pp. 205-209; Triky-Dotan, S., Yermiyahu, U., Katan, J., Gamliel, A., Development of crown and root rot disease of tomato under irrigation with saline water (2005) Phytopathology, 95, pp. 1438-1444; Swieckil, T.J., MacDonald, J.D., Soil salinity enhances phytophthora root rot of tomato but hinders asexual reproduction by Phytophthora parasitic (1991) J. Amer. Soc. Hort. Sci., 116 (3), pp. 471-477; Saha, T., Jewel, M.K.H., Mostakim, M.N., Bhuiyan, N.H., Ali, M.S., Rahman, M.K., Ghosh, H.K., Md Hossain, K., Construction and development of an automated greenhouse system using arduino uno (2017) IJIEEB, 3, pp. 1-8; Jeewantinie, R.G.C., Kapilaratne, M.L., Automated general temperature correction method for dielectric soil moisture sensors (2017) J HYDROL, 551, pp. 203-216",,,,"Institute of Electrical and Electronics Engineers Inc.","2019 International Conference on Nascent Technologies in Engineering, ICNTE 2019","4 January 2019 through 5 January 2019",,156541,,9781538691663,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85078081164
"Rane S.B., Potdar P.R., Rane S.","56149402100;57208580113;41762617600;","Development of Project Risk Management framework based on Industry 4.0 technologies",2019,"Benchmarking","28","5",,"1451","1481",,27,"10.1108/BIJ-03-2019-0123","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85074355215&doi=10.1108%2fBIJ-03-2019-0123&partnerID=40&md5=0ce311f753918e3a882438cf558635e6","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Goa College of Engineering, Ponda, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Potdar, P.R., Sardar Patel College of Engineering, Mumbai, India; Rane, S., Department of Mechanical Engineering, Goa College of Engineering, Ponda, India","Purpose: The purpose of this paper is to identify the risks involved in the construction project based on a literature survey (LS), to develop a project risk management (PRM) framework based on Industry 4.0 technologies and to demonstrate the developed framework using Internet of Things (IoT) technology. Design/methodology/approach: A comprehensive LS was carried out to know the different risks involved in the construction project and developed a PRM framework based on Industry 4.0 technologies to increase the effectiveness and efficiency of PRM. Heavy equipment and parameters were identified to demonstrate the developed framework based on IoT technology of Industry 4.0. Findings: This paper demonstrates Industry 4.0 in the various stages of PRM. LS has identified 21 risks for a construction project. The demonstration of the PRM framework has identified the sudden breakdown of equipment and uncertainty of equipment as one of the critical risks associated with heavy equipment of construction project. Research limitations/implications: The project complexity and features may add a few more risks in PRM. Practical implications: The PRM framework based on Industry 4.0 technologies will increase the success rate of the project. It will enhance the efficiency and effectiveness of PRM. Originality/value: The developed framework is helpful for the effective PRM of construction projects. 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"Rane S.B., Narvel Y.A.M.","56149402100;57192108846;","Re-designing the business organization using disruptive innovations based on blockchain-IoT integrated architecture for improving agility in future Industry 4.0",2019,"Benchmarking","28","5",,"1883","1908",,50,"10.1108/BIJ-12-2018-0445","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073997152&doi=10.1108%2fBIJ-12-2018-0445&partnerID=40&md5=1d54602f576c937939bdfa42e9fb32b6","Sardar Patel College of Engineering, Mumbai, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Rane, S.B., Sardar Patel College of Engineering, Mumbai, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: Blockchain and Internet of Things (IoT) technologies have recently gained much attention for Industry 4.0. With the emergence of disruptive technologies, it has become essential to redesign the business for innovations based on blockchain–IoT integrated architecture that helps organizations to improve agility in their operations. The paper aims to discuss this issue. Design/methodology/approach: An industrial pump was Sensorized and IoTized to monitor its operations on real time and take predictive measures for managing these assets with more agility. The developed architecture was further extended for proposing the use of blockchain and how it can benefit the organization. Findings: The known features of blockchain such as increasing the capacity of decentralization, trust-less transactions, security and allowing autonomous coordination of the devices along with the boons of IoT will help achieve the motto of improving agility in Industry 4.0. Originality/value: This paper gives a new dimension to utilization of blockchain technology. blockchain along with IoT that gives a way forward for industries like manufacturing, oil and gas, engineering and construction, utilities, etc. to re-designing the business organization in a more agile way. © 2019, Emerald Publishing Limited.","Agility; Asset management; Blockchain–IoT integrated architecture; Industry 4.0",,,,,,,,,,,,,,,,,"Aijaz, A., Aghvami, A.H., Cognitive machine-to-machine communications for internet-of-things: a protocol stack perspective (2015) IEEE Internet of Things Journal, 2 (2), pp. 103-112. , https://doi.org/10.1109/JIoT.2015.2390775; Alabi, K., Digital blockchain networks appear to be following Metcalfe’s law (2017) Electronic Commerce Research and Applications, 24, pp. 23-29. , https://doi.org/10.1016/j.elerap.2017.06.003; Banafa, A., (2017) A secure model of IoT with Blockchain, , www.technologyreview.com/s/603298/a-secure-model-of-iot-with-blockchain/, MIT Technology Review: (accessed, November 28, 2018; 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"Agrewalea M.R.B., Mauryab R.S.","57210189390;57225420052;","Investigation of flow induced structural and acoustic behaviour of a flat solar panel mounted on a mini bus roof top",2019,"International Journal of Vehicle Structures and Systems","11","1",,"39","46",,,"10.4273/ijvss.11.1.09","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85069871672&doi=10.4273%2fijvss.11.1.09&partnerID=40&md5=100feaf131c1561e26cd63a7f59794ea","Sardar Patel College of Engg, Mumbai, India","Agrewalea, M.R.B., Sardar Patel College of Engg, Mumbai, India; Mauryab, R.S., Sardar Patel College of Engg, Mumbai, India","External fitting of a flat solar panel on a vehicle at its roof top changes the aerodynamics of flow around it. A local variation of pressure and velocity parameters around the solar panel at increasing speed and yaw angle may lead to structural instability and acoustic performance deterioration of the vehicle. Present paper addresses this issue numerically using ANSYS Fluent software. The investigation consists of three steps - flow analysis, structural analysis and acoustic analysis which focus more on flat solar panel and its supporting pillars. The vehicle speed is varied up to 100 kmph and yaw angle varied from 0° to 18°. The flow analysis reports pressure and velocity distribution, Structural analysis shows the deformation and stresses induced in panel and supporting pillars and Acoustic analysis captures the change in overall sound pressure level (OASPL) at front and rear location of the vehicle. The result of investigation shows no significant effect of flow induced effect on solar panel structure. Change in OASPL at front and rear end is observed to be marginal only. © 2019. MechAero Foundation for Technical Research & Education Excellence.","Acoustic analysis; Co-efficient of drag and lift; Mini bus; Solar panel; Structural; Yaw angle","Deterioration; Roofs; Solar cell arrays; Solar concentrators; Vehicles; Acoustic analysis; Deformation and stress; Overall sound pressure level; Pressure and velocity distributions; Solar panels; Structural; Structural instability; Yaw angles; Structural analysis",,,,,,,,,,,,,,,,"Ahmed, S., Ramm, G., Faltin, G., Some salient features of the time-averaged ground vehicle wake (1984) SAE Technical Paper 840300, , https://doi.org/10.4271/840300; Vino, G., Watkin, S., Mousley, P., Watmuff, J., Prasad, S., Flow structures in the near wake of Ahmed model (2005) J. Fluids and Structures, 20 (5), pp. 673-695. , https://doi.org/10.1016/j.jfluidstructs.2005.03.006; Rodrigues, A., Cervieri, A., Gertz, L.C., Telh, M.A., Aerodynamic analysis of a vehicle minibus (2014) SAE Technical Paper 2014-36-0327, , https://doi.org/10.4271/2014-36-0327; Mohamed, E.A., Radhwi, M.N., Gawad, A.F.A., Computational investigation of aerodynamic characteristics and drag reduction of a bus model (2015) American J. Aerospace Engg., 2 (1), pp. 64-73. , 1; Wang, J., Hu, X., Zhang, Y., Yang, B., Research of aerodynamic characteristics about mini bus (2011) Applied Mech. and Material, pp. 97-98 and 752-755; Thorat, S., Rao, G.A.P., Computational analysis of intercity bus with improved aesthetic and aerodynamic performance on Indian roads (2011) Int. J. Advance Engg. Tech., 2 (3), pp. 103-109; Patil, C.N., Shashishekar, K.S., Balasubramanian, A.K., Subbaramaiah, S.V., Aerodynamic study and drag co-efficient optimization of passenger vehicle (2012) Int. J. Engg. Research & Tech., 1 (7), pp. 1-9; Singh, R., Gaur, M.K., Malvi, C.S., Study of solar energy operated hybrid mild cars: A review (2012) Int. J. Scientific Engg., and Tech., 1 (4), pp. 139-148; Allgood, N.A., Aerodynamic optimization of a solar-bio-diesel hybrid vehicle (2008) American Inst. of Aero. and Astronautics.; Muhammad, S.B.A., (2010) Upper Body Structure Design for Solar Car, , Thesis, University Malaysia Pahang; Augenberges, P.K., (2005) Aerodynamics Optimization of Solar Power Race Car, , Thesis, Massachusetts Institute of Tech; Wolf-Heinrich, H., (1987) Aerodynamics of Road Vehicles - From Fluid Mechanics to Vehicle Engg, , Butterworth-Heinemann Ltd; Bayraktar, I., Landman, D., Baysal, O., Experimental and computational investigation of Ahmed body for ground vehicle aerodynamics (2001) SAE Technical Paper 2001-01-2742, , https://doi.org/10.4271/2001-01-2742; Singh, M.G., Nassar, Q.H.N.A., Numerical investigations on crosswind aerodynamics and its effect on the stability of a passenger car (2009) SAE Technical Paper 2009-26-0059, , https://doi.org/10.4271/2009-26-0059, S S.R; Howell, J., Aerodynamic drag of passenger cars at yaw (2015) SAE Int. J. Asseng. Cars-Mech. Syst., 8 (1). , https://doi.org/10.4271/2015-01-1559; Lopes, Y., Taylor, M., Lounsberry, T., Fadler, G., Aerodynamic drag of a vehicle and trailer combination in yaw (2017) SAE Technical Paper 2017-01-1540, , https://doi.org/10.4271/2017-01-1540; Agrewale, M.R.B., Maurya, R.S., Numerical study of flow structure developed around Ahmed body with roof top solar panel of different geometric configurations (2017) Int. J. Automobile Engg. Research and Development, pp. 127-136; Mathew, A., Biju, B., Mathews, N., Pathapadu, V., Design and stability analysis of solar panel supporting structure subjected to wind force (2013) Int. J. Engg. Research & Tech., 2 (12), pp. 559-565; Naik, R., Melmari, V.B., Adeppa, A., Analysis and optimization solar panel supporting structures using FEM (2013) Int. J. Engg. and Innovative Tech., 2 (7), pp. 25-36; Jakubec, J., Paulech, J., Kutis, V., Mojto, E., Goga, V., Coupled CFD-structural analysis of solar panel parking spot (2013) Transfer Inovacii- 28/2013.; Mihailidas, A., Panagiotidis, K., Agouridas, K., Analysis of solar panel support structures (2009) 3rd ANSA & µETA Int. Conf., , Halkidiki Greece; Goerge, A.R., Automobile aerodynamic noise (1990) SAE Technical Paper 900315, , https://doi.org/10.4271/900315; Nurul, M., Jamal, N., Firoz, A., Simon, W., Computational fluid dynamics study of vehicle A-pillar aero-acoustics (2013) Applied Acoustics, 74 (6), pp. 882-896. , https://doi.org/10.1016/j.apacoust.2012.12.011; Mukkamala, Y., Devabhaktuni, S., Rajkumar, V.G., Computational aero-acoustic modelling of external rear-view mirrors on a mid-sized sedan (2016) Noise & Vibration Worldwide, 47 (1-2), pp. 7-16. , https://doi.org/10.1177/0957456516655224; Oettle, N., Meskine, M., Senthooran, S., Bissell, A., A computational approach to assess buffeting and broadband noise generated by a vehicle sunroof (2015) SAE Int. J. Passeng. Cars-Mech. Syst, 8 (1). , https://doi.org/10.4271/2015-01-1532; Johansson, E., (2013) Aeroacoustic Study on The Roofbar of a Truck using CFD, , Master Thesis, Chalmers University of Technology, Sweden; Andersson, B., Andersson, R., Hakansson, L., Mortensen, M., Sudiyo, R., Wachem, B., (2011) Computational Fluid Dynamics for Engineers, , https://doi.org/10.1017/CBO9781139093590, Cambridge University Press","Agrewalea, M.R.B.; Sardar Patel College of EnggIndia; email: engg_rafiq@yahoo.co.in",,,"MechAero Found. for Techn. Res. and Educ. Excellence",,,,,09753060,,,,"English","Int. J. Veh. Struct. Syst.",Article,"Final","",Scopus,2-s2.0-85069871672
"Patil V.K., Nagarale P.P.","57209260040;57209246411;","Prediction of L10 and Leq noise levels due to vehicular traffic in urban area using ANN and adaptive neuro-fuzzy interface system (ANFIS) approach",2019,"International Journal of Business Data Communications and Networking","15","2",,"92","105",,6,"10.4018/IJBDCN.2019070106","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85067009004&doi=10.4018%2fIJBDCN.2019070106&partnerID=40&md5=03fe9da3ddf181920ed1ecc39cff3c51","Sardar Patel College of Engineering, Mumbai, India","Patil, V.K., Sardar Patel College of Engineering, Mumbai, India; Nagarale, P.P., Sardar Patel College of Engineering, Mumbai, India","Recently in urban areas, road traffic noise is one of the primary sources of noise pollution. Variation in noise level is impacted by the synthesis of traffic and the percentage of heavy vehicles. Presentation to high noise levels may cause serious impact on the health of an individual or community residing near the roadside. Thus, predicting the vehicular traffic noise level is important. The present study aims at the formulation of regression, an artificial neural network (ANN) and an adaptive neuro-fuzzy interface system (ANFIS) model using the data of observed noise levels, traffic volume, and average speed of vehicles for the prediction of L10 and Leq. Measured noise levels are compared to the noise levels predicted by the experimental model. It is observed that the ANFIS approach is more superior when compared to output given by regression and an ANN model. Also, there exists a positive correlation between measured and predicted noise levels. The proposed ANFIS model can be utilized as a tool for traffic direction and planning of new roads in zones of similar land use pattern. Copyright © 2019, IGI Global. Copying or distributing in print or electronic forms without written permission of IGI Global is prohibited.","ANFIS; Artificial Neural Network; Modeling; Regression; Vehicular Traffic Noise Prediction",,,,,,,,,,,,,,,,,"Arora, J.K., Mosahari, P.V., Artificial neural network modelling of traffic noise in Agra-Firozabad highway (2012) International Journal of Computers and Applications, 56 (2); Brown, A.L., De Coensel, B., A study of the performance of a generalized exceedance algorithm for detectingnoiseeventscausedbyroadtraffic (2018) AppliedAcoustics, 138, pp. 101-114; Chang, T.-Y., Lin, H.-C., Yang, W.-T., Bao, B.-Y., Chan, C.-C., A modified Nordic prediction model of road traffic noise in a Taiwanese city with significant motorcycle traffic (2012) The Science of the Total Environment, 432, pp. 375-381. , PMID:22750184; Cho, D.S., Mun, S., Development of a highway traffic noise prediction model that considers various road surface types (2008) Applied Acoustics, 69 (11), pp. 1120-1128; Choudhary, A., Gokhale, S., On-road measurements and modeling of vehicular emissions during traffic interruption and congestion events in an urban traffic corridor (2018) Atmospheric Pollution Research; Dai, B., He, Y., Mu, F., Xu, N., Wu, Z., Development of a traffic noise prediction model on the inland waterway of China using the FHWA (2014) The Science of the Total Environment, 482-483, pp. 480-485. , PMID:23810035; De Coensel, B., Brown, A.L., Tomerini, D., A road traffic noise pattern simulation model that includes distributions of vehicle sound power levels (2016) Applied Acoustics, 111, pp. 170-178; Debnath, A., Singh, P.K., Environmental traffic noise modelling of Dhanbad township area – A mathematical based approach (2018) Applied Acoustics, 129, pp. 161-172; Delany, M.E., Harland, D.G., Hood, R.A., Scholes, W.E., The prediction of noise levels L10 due to road traffic (1976) Journal of Sound and Vibration, 48 (3), pp. 305-325; Di, H., Liu, X., Zhang, J., Tong, Z., Ji, M., Li, F., Ma, Q., Estimation of the quality of an urban acoustic environment based on traffic noise evaluation models (2018) Applied Acoustics, 141, pp. 115-124; Givargis, S., Karimi, H., A basic neural traffic noise prediction model for Tehran’s roads (2010) Journal of Environmental Management, 91 (12), pp. 2529-2534. , PMID:20678858; Hamad, K., Ali Khalil, M., Shanableh, A., Modeling roadway traffic noise in a hot climate using artificial neural networks (2017) Transportation Research Part D, Transport and Environment, 53, pp. 161-177; Kalaiselvi, R., Ramachandraiah, A., Honking noise corrections for traffic noise prediction models in heterogeneous traffic conditions like India (2016) Applied Acoustics, 111, pp. 25-38; Konbattulwar, V., Velaga, N.R., Jain, S., Sharmila, R.B., Development of in-vehicle noise prediction models for the Mumbai Metropolitan Region, India (2016) Journal of Traffic and Transportation Engineering, 3 (4), pp. 380-387; Kumar, K., Katiyar, V.K., Parida, M., Rawat, K., Mathematical modelling of road traffic noise prediction (2011) Int. J. Appl. Math and Mech., 7 (4), pp. 21-28; Kumar, P., Nigam, S.P., Kumar, N., Vehicular traffic noise modeling using artificial neural network approach (2014) Transportation Research Part C, Emerging Technologies, 40, pp. 111-122; Leung, T.M., Chau, C.K., Tang, S.K., Xu, J.M., Developing a multivariate model for predicting the noise annoyance responses due to combined water sound and road traffic noise exposure (2017) Applied Acoustics, 127, pp. 284-291; Nedic, V., Despotovic, D., Cvetanovic, S., Despotovic, M., Babic, S., Comparison of classical statistical methods and artificial neural network in traffic noise prediction (2014) Environmental Impact Assessment Review, 49, pp. 24-30; Patil Vilas, K., Nagarale Prashant, P., Mesurement and Analysis of Noise at signalized Intersections (2015) Journal of Environmental Research and Development, 9 (3), pp. 662-667; Rajkumara, H.N., Mahalinge Gowda, R.M., Development of a road traffic noise prediction model under uninterrupted traffic flow conditions (2008) International Journal of Sustainable Development and Planning, 3 (1), pp. 45-56; Ramírez, A., Domínguez, E., Modeling urban traffic noise with stochastic and deterministic traffic models (2013) Applied Acoustics, 74 (4), pp. 614-621; Shukla, A.K., Jain, S., Parida, M., Srivastava, J.B., Performance of FHWA model for predicting traffic noise: A Case study of Metropolitan City, Lucknow (India) (2009) Transport, 24 (3), pp. 234-240; Singh, D., Nigam, S.P., Agrawal, V.P., Kumar, M., Vehicular traffic noise prediction using soft computing approach (2016) Journal of Environmental Management, 183, pp. 59-66. , PMID:27576153; Steinbach, L., Altinsoy, M.E., Prediction of annoyance evaluations of electric vehicle noise by using artificial neural networks (2019) Applied Acoustics, 145, pp. 149-158; Zhao, J., Ding, Z., Hu, B., Chen, Y., Yang, W., Assessment and improvement of a highway traffic noise prediction model with Leq(20s) as the basic vehicular noise (2015) Applied Acoustics, 97, pp. 78-83",,,,"IGI Global",,,,,15480631,,,,"English","Int. J. Bus. Data Commun. Netw.",Article,"Final","",Scopus,2-s2.0-85067009004
"Kusneniwar A., Potdar P., Rane S.","57208585843;57208580113;56149402100;","Evaluation of performance characteristics and bite condition of single ferrule bite fitting by finite element analysis (FEA)",2019,"Lecture Notes in Mechanical Engineering",,,,"239","252",,,"10.1007/978-981-13-2490-1_22","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85065182400&doi=10.1007%2f978-981-13-2490-1_22&partnerID=40&md5=0b909655f74a5d20a1b63e775d89360e","Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri-West, Mumbai, 400058, India","Kusneniwar, A., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri-West, Mumbai, 400058, India; Potdar, P., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri-West, Mumbai, 400058, India; Rane, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri-West, Mumbai, 400058, India","The leak-proof performance of ferrule is the long-standing problem for the industries. This paper proposed a systematic approach to achieve an adequate sealing condition of bite ferrule fitting by finite element analysis of swaging. The principle of contact pressure and bite of ferrule along the leak paths, also known as leak path methodology (LPM) are used for sealing. The ANSYS workbench with explicit dynamics is used for analysis with leak path methodology and validated the result by leak test and burst test experiments. The paper discussed the effect of the swaging action on the fitting. Also, identify the essential requirement to improve the performance of the ferrule at the actual operating condition. This study does not consider the effect of temperature and compatibility with different fluids on the performance of fitting. The proposed approach for swaging process reduced the dependency of experimental validation for the new or modified component. The study defines the new way of determining the seal criteria of ferrule tube fitting using finite element analysis and validates with the help of traditional experimentation. © Springer Nature Singapore Pte Ltd. 2019.","Bite ferrule tube fitting; Hydrostatic burst test; Johnson-Cook material model; Leak path methodology","Swaging; Bite ferrule tube fitting; Finite element analyse; Hydrostatic burst tests; Johnson-Cook; Johnson-cook material model; Leak path methodology; Leak paths; Material modeling; Performance; Performance characteristics; Finite element method",,,,,,,,,,,,,,,,"Huang, H., Yuan, Z., Study of the sealing performance of tubing adapters in gas-tight deep-sea water sampler (2014) International Journal of Naval Architecture and Ocean Engineering, 6, pp. 749-761; Koc, M., Allen, T., Jiratheranat, S., Altan, T., The use of FEA and design of experiments to establish design guidelines for simple hydroformed parts (2000) International Journal of Machine Toolls & Manufacture, 40, pp. 2249-2266; Takakuwa, O., Estimation of the Yield Stress of Stainless Steel from the Vickers Hardness Taking Account of the Residual Stress (2013) Journal of Surface Engineered Materials and Advanced Technology, 3, pp. 262-268; Pott, H., Hickeswagenwlpperlrth, H.S., (2010) Metallic Cutting Ring, , United States Patent US 7,665,772 B2; Hiszpanski, J.A., High performance fitting (1972) United States Patent, 3, p. 707; Parker Industrial Tube Fittings Europe Catalogue 4100–7/UK; Parker Assembly Tooling-For Assembly Installation of Bite Ferrule Fitting; Parker instrumentation Engineering performance report, EPR4230/4233.1 rev 2; ISO 1127 stainless steel pipes/tubes; Umbrelloa, D., M’Saoubib, R., Outeiro, J.C., The influence of Johnson–Cook material constants on finite element simulation of machining of AISI 316L steel (2007) International Journal of Machine Tools & Manufacture, 47, pp. 462-470","Potdar, P.; Department of Mechanical Engineering, Munshi Nagar, Andheri-West, India; email: prathameshpotdar122@gmail.com",,,"Pleiades journals",,,,,21954356,,,,"English","Lect. Notes Mech. Eng.",Article,"Final","",Scopus,2-s2.0-85065182400
"Shelar H., Shah U.","57191746846;57191594042;","Control of Autonomous Solar PV-Wind Hybrid System",2018,"2018 5th IEEE Uttar Pradesh Section International Conference on Electrical, Electronics and Computer Engineering, UPCON 2018",,,"8597012","","",,,"10.1109/UPCON.2018.8597012","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85061675111&doi=10.1109%2fUPCON.2018.8597012&partnerID=40&md5=4cb835ef1b4d179cb3142124180138de","Department of Electrical Engineering, Sandip University, Nashik, India; Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Shelar, H., Department of Electrical Engineering, Sandip University, Nashik, India; Shah, U., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Increasing need of clean energy have driven mankind towards renewable sources. PV and wind sources being readily available and pollution free are gaining popularity. Thus, control of Solar PV-Wind hybrid system is proposed for standalone three phase applications. Solar and Wind sources are integrated at DC link with battery backup. Inverter supplies the load. PV is associated with DC interface by means of boost converter performing MPPT or Desired Power Control (DPC) as required and boosting its output voltage. PMSG usedfor wind energy conversion is further integrated to DC link via rectifier and boost converter to perform Maximum power point Tracking (MPPT). The battery is connected through a bidirectional converter to maintain DC link at a specified level and enable energy displacement as per energy production and load. DPC algorithm allows extracting only desired amount of power form PV according to prevailing load requirements. It thus can also prevent deep discharging or overcharging of battery. This improves system efficiency and battery life. The inverter performance is enhanced by using synchronous reference frame transformation for its control which helps in regulation of AC output voltage, getting exact data about load's active power component and diminishing complexity of control. Its control is such that output voltage and frequency is maintained. PV Boost, bidirectional converter and inverter are operated in inner current control and outer voltage control mode. This provides better performance with accurate tracking of references. All analytical, simulation and partial hardware results are included. © 2018 IEEE.","Battery Energy Storage System (BESS); DPC; Hybrid solar-wind system; Maximum Power Point Tracking (MPPT)","DC-DC converters; Digital storage; Electric inverters; Energy conversion; Hybrid systems; Maximum power point trackers; Metadata; Power control; Secondary batteries; Wind power; Battery energy storage systems; Bidirectional converter (BDC); Energy productions; Hybrid solar-wind system; Maximum Power Point Tracking; Synchronous reference frame; System efficiency; Voltage-control modes; Electric rectifiers",,,,,,,,,,,,,,,,"Ahmad, A., Samuel, P., Amar, Y., Solarizing India:Tapping the excellent potential (2016) Renew. Energy, Ministry New Renew. Energy, Gov. India, 9 (3), pp. 13-17; Ahmad, A., Samuel, P., Digital control of photovoltaic based multilevel converter for improved harmonic performance (2016) Indian J. Sci. Technol., 9 (44); Lai, J.-S.L.J.-S., Peng, F.Z.P.F.Z., Multilevel converters-A new breed of power converters (1995) IAS '95. Conf. Rec., 1995 IEEE Ind. Appl. Conf. Thirtieth IAS Annu. Meet., 3 (3), pp. 509-517; Samuel, P., Naik, M.K., Gupta, R., Chandra, D., Wind energy interface to grid with load compensation by diode clamped multilevel inverters (2014) J. Power Electron., 14 (2), pp. 271-281; Blaabjerg, F., Ma, K., Yang, Y., Power electronics for renewable energy systems-Status and trends (2014) 8th International Conference on Integrated Power Electronics Systems, pp. 1-11. , Nuremberg, Germany; Shen, D., Izadian, A., Liao, P., A hybrid wind-solar-storage energy generation system configuration and control (2014) 2014 IEEE Energy Convers. Congr. Expo. ECCE 2014, pp. 436-442; Singaravel, M.M.R., Daniel, S.A., MPPT with single DC-DC converter and inverter for grid-connected hybrid wind-driven PMSG-PV system (2015) IEEE Trans. Ind. Electron., 62 (8), pp. 4849-4857; Wang, H., Blaabjerg, F., Simões, M.G., Yang, Y., Power control flexibilities for grid-connected multi-functional photovoltaic inverters (2016) IET Renew. Power Gener., 10 (4), pp. 504-513; Ahmad, A., Khandelwal, A., Samuel, P., Golden band search for rapid global peak detection under partial shading condition in photovoltaic system (2017) Sol. Energy, 157; Elgendy, M., Zahawi, B., Atkinson, D., Assessment of the incremental conductance maximum power point tracking algorithm (2012) Ieee Trans. Sustain. Energy, pp. 1-10; Ramos-Paja, C.A., Petrone, G., Spagnuolo, G., DCM operation of interleaved DC/DC converters for PV applications (2012) 15th Int. Power Electron. Motion Control Conf. Expo. EPE-PEMC, 2012 ECCE Eur., (1), pp. 1-6; Karthik, D., Reddy, M., Kr, S.S., Ahmad, A., Application of FPGA controller in Multidevice Interleaved Boost Converter for Air craft Electrical Systems (2016) Indian J. Sci. Technol., 9 (44); Ahmad, A., Gupta, R., Digital PWM of cascaded multilevel voltage source inverter using FPGA (2013) Students Conference on Engineering and Systems (SCES), pp. 1-5; Ahmad, A., Gupta, A.K., Samuel, P., Embedded system design for digital control of single phase Z-Source inverter using FPGA (2014) 2014 14th International Conference on Environment and Electrical Engineering, EEEIC 2014-Conference Proceedings, pp. 402-407; Gupta, S., Ahmad, A., Samuel, P., Switching loss reduction of switched capacitor multilevel inverter using bus clamping modulation (2015) IEEE INDICON, 2015; Kjaer, S.B., Pedersen, J.K., Blaabjerg, F., A review of single-phase grid-connected inverters for photovoltaic modules (2005) IEEE Trans. Ind. Appl., 41 (5), pp. 1292-1306",,"Wada T.Yadav D.Tiwari A.N.Kumar B.",,"Institute of Electrical and Electronics Engineers Inc.","5th IEEE Uttar Pradesh Section International Conference on Electrical, Electronics and Computer Engineering, UPCON 2018","2 November 2018 through 4 November 2018",,144293,,9781538650028,,,"English","IEEE Uttar Pradesh Sect. Int. Conf. Electr., Electron. Comput. Eng., UPCON",Conference Paper,"Final","",Scopus,2-s2.0-85061675111
"More D., Jadhav D., Gaikwad S.","57215543983;6701509024;57192717016;","Parametric Design to Optimize Coil Clamping Ring in Power Transformers Using FEA",2018,"3rd International Conference on Electrical, Electronics, Communication, Computer Technologies and Optimization Techniques, ICEECCOT 2018",,,"9001346","834","839",,,"10.1109/ICEECCOT43722.2018.9001346","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081121248&doi=10.1109%2fICEECCOT43722.2018.9001346&partnerID=40&md5=ca044d5ffd23beaf597496ef0faa5cb4","Sardar Patel College of Engineering, Affiliated to University of Mumbai, Department of Mechanical Engineering, Mumbai, India; CG Power and Industrial Solutions Limited, Formerly Crompton Greaves Limited, Mechanical Design Department, Kanjurmarg, India","More, D., Sardar Patel College of Engineering, Affiliated to University of Mumbai, Department of Mechanical Engineering, Mumbai, India; Jadhav, D., Sardar Patel College of Engineering, Affiliated to University of Mumbai, Department of Mechanical Engineering, Mumbai, India; Gaikwad, S., CG Power and Industrial Solutions Limited, Formerly Crompton Greaves Limited, Mechanical Design Department, Kanjurmarg, India","Coil clamping rings are used in power transformers to maintain a clamping force on the windings which is applied by means of hydraulic jacks. Ring depth of coil clamping ring is the parameter to be calculated while designing, which decides its ability to withstand short-circuit force. In this study, parametric equations are proposed to calculate optimized depth of the rings for a given geometry and short-circuit force. Rings considered in this study have a slot which is a provision to accommodate the elliptical shape of (top yoke) core. Initially, finite element analysis of the rings available in literature is performed and verification-validation of finite element model is done. Then based on this finite element model, FEA of different rings considered in this study is carried out for short-circuit force. Results are verified using deflection equation for a straight beam closely resembling the loading and end conditions. Design of experiments is also performed to establish parametric equations using CAE tool. Using FEA, designed and optimized depths for few existing designs of coil clamping ring along with their corresponding maximum deflections are compared thereby verifying the proposed equations. © 2018 IEEE.","Coil Clamping Ring; Design of Experiments; Finite Element Analysis; Parametric Design; Power transformers; Short-circuit force","Design of experiments; Hydraulic tools; Power transformers; Clamping Force; Deflection equations; Elliptical shapes; End conditions; Maximum deflection; Parametric design; Parametric equation; Short-circuit force; Finite element method",,,,,,,,,,,,,,,,"Kurtz, R.A., Comparison of mechanical strengths of three materials used as pressure plates in oil-filled transformers (1993) Proc. of Electrical Electronics Insulation Conf. and Electrical Manufacturing and Coil Winding Conf, pp. 519-523. , October; Biggie, K.M., Prevost, T.A., Calculation Method for Power Transformer Clamping Rings Made from Laminated Insulating materials (2001) Proc. of Electrical Insulation Conf. and Electrical Manufacturing & Coil Winding Conf, pp. 567-576; Krause, C., Power transformer insulation-history, technology and design IEEE Trans. on Dielectr.Electr. Insul, 19 (6), pp. 1941-1947. , December 2012; Beemathangarajan, R., Usa, S., Ahammad, S.A., Muthuraj, R., Govindaraj, M., Optimization of end insulation design in power transformer (2012) AJES, 1 (1), pp. 248-252; Wamg, E., Nelson, T., Rauch, R., Back to elements-Tetrahedra vs hexahedra (2004) Proc. International ANSYS Conference; DesignXplorer Users Guide, , https://www.sharcnet.ca/Software/Ansys/17.2/enus/help/wb_dx/dxbook.html",,,,"Institute of Electrical and Electronics Engineers Inc.","3rd International Conference on Electrical, Electronics, Communication, Computer Technologies and Optimization Techniques, ICEECCOT 2018","14 December 2018 through 15 December 2018",,157960,,9781538651308,,,"English","Int. Conf. Electr., Electron., Commun., Comput. Technol. Optim. Tech., ICEECCOT",Conference Paper,"Final","",Scopus,2-s2.0-85081121248
"Ilamkar T.L., Joshi V.","57205415346;57193646938;","Voltage Sag Compensation Using Synchronously Reference Frame Theory Based Dynamic Voltage Restorer",2018,"Proceedings of the 2018 International Conference on Current Trends towards Converging Technologies, ICCTCT 2018",,,"8550858","","",,4,"10.1109/ICCTCT.2018.8550858","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059965602&doi=10.1109%2fICCTCT.2018.8550858&partnerID=40&md5=cbbb8213e9845adefd0a18768fc80b8d","Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India","Ilamkar, T.L., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India; Joshi, V., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India","This paper showcases one of the custom power device which is used to recover the voltage sag mostly occur at distribution system is Dynamic Voltage Restorer. The method applied to control this device is based on Synchronously Reference Frame theory to generate switching pulses for three phase inverter with the help of hysteresis voltage controller to maintain voltage profile sinusoidal at linear load terminal against voltage sag. The simulation of DVR model is performed in MATLAB software. © 2018 IEEE.","Dynamic Voltage Restorer; Hysteresis Voltage Controller; Linear Load; SRF Theory; Voltage Sag","Electric inverters; Hysteresis; MATLAB; Voltage control; Dynamic voltage restorer (DVR); Hysteresis voltage; Linear loads; SRF Theory; Voltage sags; Voltage regulators",,,,,,,,,,,,,,,,"Sankaran, C., (2002) Power Quality, , CRC Press LLC; (1995) IEEE Recommended Practice for Monitoring Electric Power Quality, p. i. , IEEE Std 1159-1995; Gao, M., Awodele, K., Investigation of power electronics solutions to power quality problems in distribution networks (2015) AFRICON 2015, pp. 1-6. , Addis Ababa; Ital, A.V., Borakhade, S.A., Compensation of voltage sags and swells by using Dynamic Voltage Restorer (DVR) (2016) 2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT), pp. 1515-1519. , Chennai; Mahdianpoor, F.M., Hooshmand, R.A., Ataei, M., A new approach to multifunctional dynamic voltage restorer implementation for emergency control in distribution systems (2011) IEEE Transactions on Power Delivery, 26 (2), pp. 882-890. , April; Jowder, F.A.L., Modeling and simulation of dynamic voltage restorer (DVR) based on hysteresis voltage control (2007) IECON 2007-33rd Annual Conference of the IEEE Industrial Electronics Society, pp. 1726-1731. , Taipei",,,,"Institute of Electrical and Electronics Engineers Inc.","2018 International Conference on Current Trends towards Converging Technologies, ICCTCT 2018","1 March 2018 through 3 March 2018",,143196,,9781538637012,,,"English","Proc. Int. Conf. Current Trends towards Converging Technol., ICCTCT",Conference Paper,"Final","",Scopus,2-s2.0-85059965602
"Khanorkar A.R., Kinhekar N.","57205224067;55920860800;","Development of reliability assessment framework for extra high voltage transmission network in India and application on Maharashtra",2018,"Proceedings - 2018 International Conference on Smart Electric Drives and Power System, ICSEDPS 2018",,,"8536027","198","203",,1,"10.1109/ICSEDPS.2018.8536027","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059165767&doi=10.1109%2fICSEDPS.2018.8536027&partnerID=40&md5=fa0a93a19c7d5ead5dd3b34291602b98","Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India","Khanorkar, A.R., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India; Kinhekar, N., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India","This paper presents a methodology for assessing Reliability of extra high voltage transmission system in India. Transmission side reliability indices namely Transmission System Average Interruption Duration Index (TSAIDI) and Transmission System Average Interruption Frequency Index (TSAIFI) which are calculated from the forced outage data of lines for a certain period. In this paper, Maharashtra EHV (400kV 765kV) transmission system is simulated using ETAP16.0.0 software. 50 Bus systems is modeled in software and load flow analysis is performed to check voltage profile at all the buses, loadability of lines and angular separation between adjacent buses for reliable operation of the system. Thus, these factors are used to develop a reliability assessment framework used during transmission planning for making system secure, robust and reliable. © 2018 IEEE.","Bus angular separation; forced outage data; loadability; TSAIDI; TSAIFI; voltage profile","Digital storage; Electric drives; Electric load flow; Outages; Reliability analysis; Transmissions; Angular separation; Forced outages; Loadability; TSAIDI; TSAIFI; Voltage profile; EHV power transmission",,,,,,,,,,,,,,,,"IEEE guide for electric power distribution reliability indices (2012) IEEE Std 1366-2012 (Revision of IEEE Std 1366-2003), pp. 1-43. , May 31; The Gazette of India, Standards of Performance Regulations 2012, , Central electricity Regulation Commission; Ekisheva, S., Gugel, H., North American ac circuit outage rates and durations in assessment of transmission system reliability and availability (2015) 2015 IEEE Power & Energy Society General Meeting, Denver, CO, pp. 1-5; Qin, W., Zhang, W., Meng, F., Zhang, J., Transmission lines operating reliability evaluation based on real-time power flow (2012) 2012 10th International Power & Energy Conference (IPEC), Ho Chi Minh City, pp. 606-610; Melodi, A.O., Momoh, J.A., Oyinlola, A.O., Transmission system reliability modeling and assessment for nigerian electric grid (2017) 2017 IEEE PES PowerAfrica, Accra, pp. 40-45; http://wrldc.org/; (2017) List of Important Grid Elements in Western Region, , May; Manual on Transmission Planning Criteria (CEA)",,,,"Institute of Electrical and Electronics Engineers Inc.","2018 International Conference on Smart Electric Drives and Power System, ICSEDPS 2018","12 June 2018 through 13 June 2018",,142502,,9781538657935,,,"English","Proc. - Int. Conf. Smart Electric Drives Power System, ICSEDPS",Conference Paper,"Final","",Scopus,2-s2.0-85059165767
"Hingmire A., Pimple B.B.","57190402953;36976185300;","Simulation and Analysis Studies of Speed Control of Brushless DC Motor Using Hall Sensors",2018,"Proceedings - 2018 International Conference on Smart Electric Drives and Power System, ICSEDPS 2018",,,"8536062","384","387",,3,"10.1109/ICSEDPS.2018.8536062","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059137401&doi=10.1109%2fICSEDPS.2018.8536062&partnerID=40&md5=4b6292068fcf945b51c79b286f4f8c6a","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Hingmire, A., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Pimple, B.B., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","This paper presents the study and simulation of speed control of Brushless DC Motor using hall sensor. Due to various advantages of Brushless DC motor over conventional DC Motor such as high starting torque, high reliability, high efficiency, low maintenance, it is widely used in applications such as electrical vehicles, hard disc drives, domestic appliances, etc. In this paper the controlled voltage source method is used to control the speed of motor. This method uses two loops. One loop generates pulses for inverter and another loop is used to provide controlled supply voltage to motor. PI controller helps in generating switching pulses for DC-DC converter. Behavior of motor for variable speed as well as variable load torque is analyzed using MATLAB simulation. © 2018 IEEE.","BLDCM; controlled voltage source; hall sensor; PI controller; simulation","AC motors; Brushless DC motors; Controllers; DC-DC converters; Domestic appliances; Electric drives; Electric inverters; Hall effect transducers; MATLAB; Speed control; Speed regulators; Variable speed drives; BLDCM; Controlled voltage source; Hall sensor; PI Controller; simulation; Electric machine control",,,,,,,,,,,,,,,,"Pillay, P., Krishnan, R., Modeling, simulation, and analysis of permanent magnets motor drives, part i: The permanent magnet synchronous motor drive (1989) IEEE Trans. on Industry Applications, 25 (2), pp. 265-273. , March/April; Pillay, P., Krishnan, R., Modeling, simulation, and analysis of permanent magnets motor drives, part II: The brushless dc motor drive (1989) IEEE Trans. on Industry Applications, 25 (2), pp. 274-279. , March/April; Pillai, N.S., Vipin, A.M., Analysis and simulation studies for position sensorless bldc motor drive with initial rotor position estimation (2015) IEEE Conf. on Nascent Technologies in the Engineering Field; Bist, V., Singh, B., An adjustable speed pfc bridgeless buck-boost converter fed bldc motor drive (2012) IEEE Transactions on Industry Applications, 48 (2). , March/April; Vinatha, U., Pola, S., Vittal, K.P., Simulation of four quadrant operation & speed control of bldc motor on matlab/simulink (2008) TENCON 2008-2008, IEEE Region 10 Conference, Hyderabad, pp. 1-6; Hassan, M.A., Abdullah, A.R., Bahari, N., Jidin, A., Incorporating brushless dc motor in outdoor fan control of low voltage air-conditioning system (2013) Research and Development(SCOReD), 2013 IEEE Student Conference on, pp. 550-555",,,,"Institute of Electrical and Electronics Engineers Inc.","2018 International Conference on Smart Electric Drives and Power System, ICSEDPS 2018","12 June 2018 through 13 June 2018",,142502,,9781538657935,,,"English","Proc. - Int. Conf. Smart Electric Drives Power System, ICSEDPS",Conference Paper,"Final","",Scopus,2-s2.0-85059137401
"Daware A.V., Sabnis A.","57204927781;54416304100;","Performance Measurement of Linear and Non Linear Controllers for Buck-Boost Converter in Solar Energy System",2018,"7th IEEE International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2018",,,"8525210","225","229",,1,"10.1109/ICCPEIC.2018.8525210","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85057997422&doi=10.1109%2fICCPEIC.2018.8525210&partnerID=40&md5=9900fa2f322db3a654861106b4b9b244","BVB's Sardar Patel College of Engineering, Electrical Engineering Department, Mumbai, India","Daware, A.V., BVB's Sardar Patel College of Engineering, Electrical Engineering Department, Mumbai, India; Sabnis, A., BVB's Sardar Patel College of Engineering, Electrical Engineering Department, Mumbai, India","The heart of renewable energy is a solar photovoltaic (PV) system. The major drawbacks of this system are low value of conversion efficiency and changing output voltage due to change in solar power. These disadvantages are overcome by use of DC-DC converter. DC-DC converter is regulated using linear (PI, PID) or nonlinear controllers (Fuzzy Logic). The proposed work simulates both linear and nonlinear controllers on Buck-Boost converter using MATLAB Simulink and results are compared. Generally linear controllers are usually designed for DC-DC converter. However, linear controllers are computationally expensive with more memory requirement. In many applications linear controllers are replaced by Fuzzy Logic controller because the fuzzy system does not require accurate mathematical model as it depends on membership function and interference of fuzzy rules. Both, PID and Fuzzy Logic controllers, have been analyzed and validated by simulation results. The performance of both controllers has been compared based on its settling time, deviation of output voltage. © 2018 IEEE.","DC-DC converter; Fuzzy Logic controller; Linear-nonlinear converter; Photovoltaic system","Computer circuits; Controllers; Electric current regulators; Electric inverters; Fuzzy inference; Fuzzy logic; Linear control systems; MATLAB; Membership functions; Photovoltaic cells; Solar concentrators; Solar energy; Solar power generation; Traffic signals; Buck boost converter; Fuzzy logic controllers; Linear-nonlinear converter; Non-linear controllers; Performance measurements; Photovoltaic systems; Solar energy systems; Solar photovoltaic system; DC-DC converters",,,,,,,,,,,,,,,,"Eker, I., Torun, Y., Fuzzy Logic Control to be Conventional Method"" (2006) Energy Conversion and Management, 47 (3), pp. 377-394; Shepherd, W., Zhang, Li., (2004) Power Converter Circuits, , Marcel Dekker, Inc., New York, The USA; Ellabban, O., Van Mierlo, J., Comparative Evaluation of PID Voltage Mode, PI Current Mode, Fuzzy and PWM Based Sliding Mode Control for DC-DC Converters (2009) 13th International Middle-east Power System Conference, MEPCON 2009; Rajarajeswari, N., Thanushkodi, K., Bi-directional DC-DC Converter with Adaptive Fuzzy Logic Controller"" (2009) Electronics and Electrical Engineering.-Kaunas: Technologija, 89 (1); Khaligh, A., Emadi, A., Suitability of the Pulse Adjustment Technique to Control Single DC/DC Choppers Feeding Vehicular Constant Power Loads in Parallel with Conventional Loads (2007) International Journal of Electricand Hybrid Vehicles, 1, pp. 20-25; Guo, L., Hung, J., Nelms, R.M., Comparative Evaluation of Linear PID and Fuzzy Control for a Boost Converter, p. 6; Vijaykaran, K., Jeyashanthi, J., A Positive Buck-Boost DC-DC Converter with mode-select Circuit Using PID Controller (2013) International Journal of Innovative Reserch in Science, Engineering and Technology, 3 (1). , March; Astrom, K.J., PID controllers: Theory, Design and Tunning (1995) Instrument Society of America; Salem, F.A., Rashed, A.A., PID Controllers and Algorithms Selection and Design Techniques Applied in Mechatronics"" (2013) International Journal of Engineering Science, 2, pp. 191-203. , May; Lee, C.C., Fuzzy Logic in Control System: Fuzzy Logic Controller Part I (1990) IEEE Trans. Syst., Man, Cybern, 20 (2), pp. 404-418. , Mar./Apr; Sahin, M.E., Okumus, H.I., Fuzzy Logic Controlled Synchronous Buck DC-DC Converter for Solar Energy-Hydrogen Systems (2009) INISTA 2009 Conference; Lee, C.C., Fuzzy Logic in Control System: Fuzzy Logic Controller Part II (1990) IEEE Trans. Syst. Man Cybern., 20 (2), pp. 404-418. , Mar./Apr; Ergin Sahin, M., Ibrahim Okumus, H., A Fuzzy Logic Controlled PV Powered Buck-Boost DC-DC Converter for Battery-Load System (2012) International Symposium on Innovations in Intelligent Systems and Applications",,,,"Institute of Electrical and Electronics Engineers Inc.","7th IEEE International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2018","28 March 2018 through 29 March 2018",,142124,,9781538624470,,,"English","IEEE Int. Conf. Comput. Power, Energy, Inf. Commun., ICCPEIC",Conference Paper,"Final","",Scopus,2-s2.0-85057997422
"Bamne S., Kinhekar N.","57204934483;55920860800;","Estimation and Analysis of VFTO at Various Locations in 132kV GIS Substation",2018,"7th IEEE International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2018",,,"8525215","399","403",,3,"10.1109/ICCPEIC.2018.8525215","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85057961196&doi=10.1109%2fICCPEIC.2018.8525215&partnerID=40&md5=e4fef4c7183efe0b653ad643e17e1df9","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Bamne, S., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Kinhekar, N., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Gas Insulated Switchgear Substation (GIS Substation) has high reliability, easy maintenance, less area requirement etc. Due to this, it has found wide range of application in power system sector over last few decades. But the unique problem with GIS substation is generation and propagation of very fast transient overvoltage (VFTO) due to switching operation of circuit breaker, disconnector switches or due to earth faults. The generated VFTO causes stress on the insulation of equipment's like power transformer, bushings, spacers etc. connected to the GIS. The origin of VFTO, its propagation and impacts on GIS have been discussed in this paper. In this paper the components of 132 kV GIS substation is modelled more accurately and considered for simulation. Electromagnetic Transient Program (EMTP-RV) software is used for the simulation for various switching condition. The variation in VFTO magnitude along the GIS bus nodes for different magnitudes of trapped charge has been studied. The VFTO peak along the GIS bus nodes during circuit breaker operation and disconnector operation is compared. The results show that VFTO magnitudes are higher along the GIS bus nodes in case of circuit breaker operation as compared to disconnector switch operation. The results also show that the increase of trapped charge on the line increases the VFTO levels. © 2018 IEEE.","EMTP-RV; GIS Substation; Trapped Charge; VFTO","Buses; Computer software; Electric switchgear; Power transformers; Circuit breaker operation; Disconnector switches; Electromagnetic transient program; EMTP-RV; Gas insulated switchgears; Trapped charge; Very fast transient over voltage (VFTO); VFTO; Electric circuit breakers",,,,,,,,,,,,,,,,"Martinez, J., Statistics Assesment of Very Fast Transient Overvoltages in Gas Insulated Substations (2000) Power Engineering Society Summer Meeting, 2, pp. 882-883; Very Fast Transient Phenomena Associated with Gas Insulated Substations (1988) GIGRE Paper, pp. 33-43; Tiechen, L., Bo, Z., Calculation of Very Fast Transient Overvoltages in GIS (2005) 2005 IEEE/PES Transmission and Distribution Confrence & Exhibition, pp. 1-5; Andrew Hileman, R., (1999) Insulation Coordination for Power Systems, , Marcel Dekker, Inc., NY; Tavakoli, A., Gholami, A., Parizad, A., Soheilipour, H.M., Nouri, H., Effective factors on the Very Fast transient currents and voltage in the GIS (2009) IEEE T&D Asia; Boggs, S.A., Chu, F.Y., Fujimoto, N., Disconnect Switch Induced Transient and Trapped charge in Gas Insulated Substations IEEE Trans. on Power Apparatus and System, 101 (6), pp. 3593-3602. , Octobr 1982; Liu, Q., Zhang, Y., Influence of Switching Conditions on Very Fast Transient Over-voltage in 500 KV Gas Insulated Substation, , IEEE 2010; Reddy, P.R., Amarnath, J., Nanocrystalline to Suppress VFTO and VFTC for 245Kv Gas Insulated Substation (2013) International Journal of Computer Applications, 70 (13), pp. 1-6; Modeling Guideling for Fast Transients (1996) IEEE Trans on Power Delivery, 11 (1), pp. 493-506. , January; Martinez, J.A., Chowdhuri, P., Irvani, R., Keri, A., Povh, D., Modeling Guidelines for Very Fast Transient in GIS Report prepared by the very fast transient task force of the IEEE Working Group on Modeling and Analysis of System Transients; Rao, M.M., Jain, H.S., Rengarajan, S., Kumar, V.V., Estimation and Measurement of Very Fast Transient Overvoltages (VFTO) in Gas Insulated Substation (GIS) (1999) Indian Institute of Science; Yanabu, S., Murase, H., Aoyagi, H., Estimation of Fast Transient Overvoltages in Gas Insulated Substation (1990) IEEE Trans. Power Delivery, 5 (4). , Nov",,,,"Institute of Electrical and Electronics Engineers Inc.","7th IEEE International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2018","28 March 2018 through 29 March 2018",,142124,,9781538624470,,,"English","IEEE Int. Conf. Comput. Power, Energy, Inf. Commun., ICCPEIC",Conference Paper,"Final","",Scopus,2-s2.0-85057961196
"Maner A.S., Lavand S.","57204880048;57190437478;","Accurate fault location estimation of high voltage transmission line using disturbance record",2018,"Proceedings of the International Conference on Power, Energy, Control and Transmission Systems, ICPECTS 2018",,,"8521637","26","30",,1,"10.1109/ICPECTS.2018.8521637","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85057610616&doi=10.1109%2fICPECTS.2018.8521637&partnerID=40&md5=637ed0c8deab8884e1faaf4bac28042d","EED, SPCE, Dy GM, R-Infra Mumbai Transmission, Andheri, Mumbai, India; Sardar Patel College of Engineering, Electrical Engg. Dept., Andheri, Mumbai, India","Maner, A.S., EED, SPCE, Dy GM, R-Infra Mumbai Transmission, Andheri, Mumbai, India; Lavand, S., Sardar Patel College of Engineering, Electrical Engg. Dept., Andheri, Mumbai, India","This paper provides a fault location technique for overhead transmission line when disturbance fault recorded data is accessible from both terminal. Numerical relay estimates the fault location based on one end data without compensating the effect of fault resistance; also it does not consider the contribution of remote source, which introduces error in fault location estimation for ground fault. Inaccurate result increases fault finding time, operating cost, revenue loss and affect the Reliability and Availability Index of Transmission system. This error can be reduced using two end data. This paper presents a technique developed to determine the fault location using pure fault voltages, currents obtained from disturbance recorder with two terminal unsynchronized data. Different fault cases are considered from the event recorder of a private transmission network and presented. The fault location is estimated based on positive sequence network using the three-phase current and voltage phasors. Results are compared with the actual fault distance spotted during post fault patrolling. The accuracy of fault location using one end and two terminal data are also compared. Two terminal algorithm is more accurate compared to one terminal algorithm because it is not affected by fault resistance and reactance. © 2018 IEEE.","Disturbance recorders; Fault location; One terminal algorithm; Two terminal algorithm","Electric grounding; Electric lines; Electric power transmission; Location; Power control; Transmissions; Disturbance recorders; Fault location estimation; High voltage transmission lines; Overhead transmission lines; Reliability and availability; Three-phase currents; Transmission systems; Two terminals; Electric fault location",,,,,,,,,,,,,,,,"Paithankar, Y.G., Transmission Network Protection, Theory and Practice, , Publisher MARCEL DEKKER, INC; Izykowski, J., (2010) Fault Location on Power Networks, , Wroclaw University of Science and Technology Researchgate Article January; Ghimire, S., Analysis of Fault Location Methods on Transmission Lines, , M. Sc Thesis University Of New Orelans; Girgis, A.A., Fallon, C.M., Fault location techniques for radial and loop transmission systems using digital fault recorded data (1992) IEEE Transactions on Power Delivery, 7 (4). , October; Micom 54 Relay Manual; Silveira, E.G., Pereira, C., Transmission line fault location using two-terminal data without time synchronization (2007) IEEE Transactions on Power Systems, 22 (1). , February; Blackburn, L., Symmetrical Components for Power Systems Engineering, , Publisher Taylor & Francis Inc; Mora-Flòrez, J., Meléndez, J., Carrillo-Caicedo, G., Comparison of impedance based fault location methods for power distribution systems (2008) Science Direct Electric Power Systems Research, 78, pp. 657-666",,,,"Institute of Electrical and Electronics Engineers Inc.","1st International Conference on Power, Energy, Control and Transmission Systems, ICPECTS 2018","22 February 2018 through 23 February 2018",,141953,,9781538638170,,,"English","Proc. Int. Conf. Power, Energy, Control Transm. Syst., ICPECTS",Conference Paper,"Final","",Scopus,2-s2.0-85057610616
"Ahire N.R., Fernandes M., Ushkewar S., Doke Y.","57204615749;56539294100;57195262149;57204627557;","Optimal allocation of shunt compensation and maximum loadability assessment on IEEE-14 bus test system",2018,"Proceedings of the 4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018",,,"8480974","","",,4,"10.1109/AEEICB.2018.8480974","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056421343&doi=10.1109%2fAEEICB.2018.8480974&partnerID=40&md5=2c38e17be266e91c40cb4c9e9cc12910","Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India; Electrical Engineering Department, V.J. Technological Institute Matunga, Mumbai, India","Ahire, N.R., Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India; Fernandes, M., Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India; Ushkewar, S., Electrical Engineering Department, V.J. Technological Institute Matunga, Mumbai, India; Doke, Y., Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India","The demand of power is increasing day by day in developing countries. It is required that the existing transmission interconnection network is utilized fully to deliver the power demanded, maintaining its quality. This paper intends to place shunt compensation at an optimal position so as to maintain the voltage at various buses in the network within a narrow range. MATLAB program is developed and load flow studies are tested on 14-bus system and optimal value as well as the position of the compensation is obtained. Finally the networks ability to be loaded is decided with given capacity of the compensation. © 2018 IEEE.","Load flow; Maximum loadability; Optimal placement; Voltage limits","Developing countries; Electric load flow; MATLAB; Software testing; Voltage control; Load flow; Load flow studies; Maximum loadability; Optimal allocation; Optimal placements; Shunt compensation; Transmission interconnections; Voltage limits; Interconnection networks (circuit switching)",,,,,,,,,,,,,,,,"Paserba, J.J., How FACTS controller's benefits AC transmission system (2003) IEEE Transmission on Power Engineering Society, 3, pp. 949-956. , sep; Fernandes, M., George, S., A novel method for optimal location of shunt compensation in an interconnected system (2015) 2015 (ICNTE), pp. 1-6. , Navi Mumbai; Ushkewar, S., Chaube, S., Komawar, N., Tirpude, N., Ansari, M.S., Controlled islanding scheme for power system protection: Guidelines and approach: Case study: Proposed Bhopal islanding scheme (2017) 2017 (AEEICB), pp. 117-121. , Chennai; Hingorani, N.G., Gyugyi, L., Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems, , Wiley-IEEE press, December. ISBN: 0-7803-3464-7; Ghahremani, E., Kamwa, I., Optimal allocation of STATCOM with energy storage to improve power system performance 2014 IEEE PES T& D Conference; Johnson, I.B., Schultz, A.J., Switching surge voltages in highvoltage stations (1954) Electrical Engineering, 73 (7), p. 653. , July; Zucker, M., Power Quality, , IEEE-519 standards; Ahire, N., Dake, V., Analysis of voltage profile, it's issues and mitigation techniqes used in western regional grid of India (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Ushkewar, S., Bodke, M., Compensation of reactive power in DFIG based wind farm using STATCOM (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai",,"Ramesh P.L.N.Moorthi M.",,"Institute of Electrical and Electronics Engineers Inc.","4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018","27 February 2018 through 28 February 2018",,140375,,9781538646069,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Informatics, AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85056421343
"Kore V.D., Fernandes M., Ahire N.R.","57211337234;56539294100;57204615749;","Design of shunt active power filter using reference frame theory for power quality improvement",2018,"Proceedings of the 4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018",,,"8480977","","",,4,"10.1109/AEEICB.2018.8480977","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056415472&doi=10.1109%2fAEEICB.2018.8480977&partnerID=40&md5=f8206a0763658e2dd2c02fef268b6de3","Electrical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, India","Kore, V.D., Electrical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, India; Fernandes, M., Electrical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, India; Ahire, N.R., Electrical Engineering Department, Sardar Patel College of Engineering, Andheri, Mumbai, India","This paper deals with design of shunt active power filter using reference frame theory. To reduce total harmonic distortion (THD%) in source current below the IEEE standard-519 of 5% permissible limits, paper gives simulation on shunt active power filter using reference frame theory. The result shows that the distortion in source current and THD is reduced within the permissible limit. © 2018 IEEE.","Pulse width modulation(PWM); Shunt active powerfilter (SAPF); Tolal harmonic distortion(THD%)","Harmonic distortion; IEEE Standards; Pulse width modulation; Voltage control; Power quality improvement; Reference frame; Shunt active power filters; Shunt active powerfilter (SAPF); Source currents; Tolal harmonic distortion(THD%); Total harmonic distortion (THD); Active filters",,,,,,,,,,,,,,,,"Farooq, A., Bhat, A.H., Performance evaluation of a three phase shunt active power filter for power quality improvement (2015) 2015 International Conference on Recent Developments in Control, Automation and Power Engineering (RDCAPE), pp. 214-219. , Noida; Krause, P., Wasynczuk, O., Sudhoff, S.D., Pekarek, S., (2013) Analysis of Electric Machinery and Drive Systems (75), , John Wiley & Sons; Reid, W.E., Power quality issues-standards and guidelines (1996) IEEE Transactions on Industry Applications, 32 (3), pp. 625-632. , May/Jun; Sundaram, E., Venugopal, M., Design and implementation of three phase three level shunt active power filter for harmonic reduction IECON 2014-40th Annual Conference of the IEEE Industrial Electronics Society, 2014, pp. 1377-1383. , Dallas, TX; Patil, S.S., Metri, R.A., Power quality improvement using shunt active power filter (2017) 2017 International Conference on Data Management, Analytics and Innovation (ICDMAI), , Pune; Das, S.R., Ray, P.K., Mohanty, A., Enhancement of power quality disturbances using hybrid power filters (2017) 2017 (ICCPCT), , Kollam; Ahire, N., Dake, V., Analysis of voltage profile, it's issues and mitigation techniqes used in western regional grid of India (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Ahire, N., Fernandese, M., Ushkewar, S., Optimal allocation of shunt compensation and maximum loadability assessment on IEEE-14 bus test system (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Dhulshette, A., Ushkewar, S., Ahire, N., Validation of STATCOM capabilities through modelling and simulation on simulink platform (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Ushkewar, S., Bodke, M., Compensation of reactive power in DFIG based wind farm using STATCOM (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai",,"Ramesh P.L.N.Moorthi M.",,"Institute of Electrical and Electronics Engineers Inc.","4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018","27 February 2018 through 28 February 2018",,140375,,9781538646069,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Informatics, AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85056415472
"Ushkewar S., Bodke M., Justin M., Barghare A., Dudhawade B.","57195262149;57492583700;57204626088;57204625608;57204628606;","Compensation of reactive power in DFIG based wind farm using STATCOM",2018,"Proceedings of the 4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018",,,"8480955","","",,7,"10.1109/AEEICB.2018.8480955","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056385238&doi=10.1109%2fAEEICB.2018.8480955&partnerID=40&md5=b090e818fd641784419d50c842a287c0","V.J. Technological Institute, Mumbai, India; Govt. polytechnic, Nashik, India; SPCE, Andheri Mumbai, India","Ushkewar, S., V.J. Technological Institute, Mumbai, India; Bodke, M., Govt. polytechnic, Nashik, India; Justin, M., SPCE, Andheri Mumbai, India; Barghare, A., V.J. Technological Institute, Mumbai, India; Dudhawade, B., V.J. Technological Institute, Mumbai, India","The application of Doubly Fed Induction Generator (DFIG) in a wind farm is getting common due of its inherent advantages like operation at variable speed and autonomous controllability of active and reactive power when compared to the conventional generators. Voltage stability problems arise in DFIG along with the disturbances in the grid side when such a wind farm is integrated with a grid. While following the grid codes, it becomes a concern for power system engineers to integrate the DFIG based wind farms to the grid. The paper investigates the connection of Static Synchronous Compensator (STATCOM) for compensation of reactive power to maintain the voltage profile stable and protecting DFIG-based wind farm interconnected to power grid from disconnection prior to or after the disturbances. A system is designed for this purpose and it is simulated in MATLAB (Simulink). The results thus obtained, proves the theoretical analysis of STATCOM that mitigates the transient disturbances effect leading to the improvement in the wind farm's stability and performance. © 2018 IEEE.","DFIG; Power system stability; Reactive power compensation; STATCOM; Transient stability","Asynchronous generators; Electric current regulators; Electric fault currents; Electric machine control; Electric power system interconnection; Electric utilities; Reactive power; Stability; Static synchronous compensators; System stability; Wind power; Active and Reactive Power; Conventional generators; DFIG; Doubly Fed Induction generators (DFIG); Power system stability; Reactive power compensation; Static synchronous compensator (STATCOM); Transient disturbances; Electric power transmission networks",,,,,,,,,,,,,,,,"Salles, M.B.C., Grilo, A.P., Cardoso, J.R., DoublyFed induction generator and conventional synchronous generator based power plants: Operation during grid fault Engineering, Modelling and Applied Social Science Center, , Federal University of ABC, Great São Paulo - Brazil; Hingorani, N.G., Gyugyi, L., (2012) Understanding FACTS, , Wiley India Edition; Petersson, A., Petru, T., Thiringer, T., Grid disturbance response of wind turbines equipped with induction generator and doubly-fed induction generator? (2003) Proceedings of 2003 IEEE PES General Meeting, , Toronto, Canada, July 13-17; Slootweg, J.G., De Haan, S.W.H., Polinder, H., Kling, W.L., General model for representing variable speed wind turbines in power system dynamics simulations? (2003) IEEE Transactions of Power Systems, 18 (1). , February; Feltes, J., Kazachkov, Y., Zavadil, R., Modeling wind farms for power system stability studies? (2003) Proceedings of 2003 IEEE Power Engineering Society General Meeting, , Toronto, Canada, 13-17 July; Ushkewar, S., Chaube, S., Komawar, N., Tirpude, N., Ansari, M.S., (2017) Controlled Islanding Scheme for Power System Protection: Guidelines and Approach: Case Study: Proposed Bhopal Islanding Scheme, 2017 (AEEICB), pp. 117-121. , Chennai; Lee, S.-B., Lee, K.-B., Lee, D.-C., Kim, J.-M., An improved control method for aDFIG in a wind turbineunder an unbalanced grid voltagecondition? (2010) Journal of Electrical Engineering & Technology, 5 (4), pp. 614-622; Li, H., Chen, Z., Overview of different wind generatorsystems and their comparisons (2008) IET Renewable PowerGeneration, 2 (2), pp. 123-138; Dhulshette, A., Ushkewar, S., Validation of STATCOM capabilities through modelling and simulation on simulink platform (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Ahire, N., Fernandese, M., Ushkewar, S., Optimal allocation of shunt compensation and maximum loadability assessment on (2018) IEEE-14 Bus Test System , 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai",,"Ramesh P.L.N.Moorthi M.",,"Institute of Electrical and Electronics Engineers Inc.","4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018","27 February 2018 through 28 February 2018",,140375,,9781538646069,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Informatics, AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85056385238
"Ahire N.R., Dake V.","57204615749;56453529100;","Analysis of voltage profile, it's issues and mitigation techniques used in western regional grid of India",2018,"Proceedings of the 4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018",,,"8480922","","",,5,"10.1109/AEEICB.2018.8480922","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056375249&doi=10.1109%2fAEEICB.2018.8480922&partnerID=40&md5=7af143b1aa0db1e901dfd45ae459a256","Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India","Ahire, N.R., Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India; Dake, V., Electrical Engineering Department, Sardar Patel College of Engineering Andheri, Mumbai, India","Indian power system having an interconnected grid network. There are five regional grids in India. From these regional grids paper analyse western regional grid in terms of voltage stability. This paper describes about present voltage profile scenario, reactive power compensation, EHV network, voltage issues i.e. high voltage which are continuously occurring day by day in system. So, we analysed the voltage profile and its issues on 400kV EHV and 765kV UHV network present in the western regional grid. To mitigate this voltage stability issues in the real present network describing a reactive power compensation in the system and conclude that the best compensation in the system. © 2018 IEEE.","EHV; Reactive power compensation; STATCOM; UHV network; Voltage profile","EHV power transmission; Electric power utilization; Reactive power; Static synchronous compensators; Ehv networks; High voltage; Indian power systems; Interconnected grid; Mitigation techniques; Reactive power compensation; Regional grids; Voltage profile; Electric power system interconnection",,,,,,,,,,,,,,,,"Hingorani, N.G., Gyugyi, L., Understanding FACTS: Concepts and Technology of Flexible AC Transmission Systems, , Wiley-IEEE press, December; Wadhwa, C.L., Electrical Power System; (2017), Western Region Reactive Power Resources(WRLDC); NLDC Operational Feedback of Western Region July 17; Padiyar, K.R., Facts Controllers In Power Transmission And Distribution; Mladen, K., Ian, D., Yimai, D., (2017) Impact of Extreme Weather on Power System Blackouts and Forced Outages, , New Challenges; Alesaadi, A.R., Haghifam, M.R., Fotuhi, M., Moslemi, N., Abbasi, J., An approach for modeling the protection system in transmission network reliability evaluation (2005) IEEE/PES Transmission and Distribution Conference & Exhibition: Asia and Pacific, , Dalian, China; Naresh, A., Sode-Yome, A., Mithulananthan, N., (2005) Facts about Flexible AC Transmission Systems (FACTS) Controllers: Practical Installations and Benefits; Ren, H., Watts, D., Mi, Z., Lu, J., A review of FACTS' Practical consideration and economic evaluation (2009) 2009 Asia-Pacific Power and Energy Engineering Conference, pp. 1-5. , Wuhan; Sahoo, A.K., Dash, S.S., Thyagarajan, T., Modeling of STATCOM and UPFC for power system steady state operation and control (2007) 2007 IET-UK International Conference on Information and Communication Technology in Electrical Sciences (ICTES 2007), pp. 458-463. , Tamil Nadu; (2010) Indian Electricity Grid Code Regulation; (2017) Western Region Transmission Element Daily Outage Report, , August; Ushkewar, S., Chaube, S., Komawar, N., Tirpude, N., Ansari, M.S., Controlled islanding scheme for power system protection: Guidelines and approach: Case study: Proposed Bhopal islanding scheme (2017) 2017 Third International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics (AEEICB), pp. 117-121. , Chennai; Ahire, N., Fernandese, M., Ushkewar, S., Optimal allocation of shunt compensation and maximum loadability assessment on (2018) IEEE-14 Bus Test System ,2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio- Informatics(AEEICB), , Chennai; Kore, V., Fernandes, M., Ahire, N., Design of shunt active power filter using reference frame theory for power quality improvement (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information , Communication and BioInformatics (AEEICB), , Chennai; Dhulshette, A., Ushkewar, S., Ahire, N., Validation Of STATCOM capabilities through modelling and simulation on simulink platform (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio- Informatics(AEEICB), , Chennai",,"Ramesh P.L.N.Moorthi M.",,"Institute of Electrical and Electronics Engineers Inc.","4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018","27 February 2018 through 28 February 2018",,140375,,9781538646069,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Informatics, AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85056375249
"Dhulshette A.K., Ushkewar S., Khan A.A., Rao H., Ahire N.R.","57204627204;57195262149;57204621636;57204615128;57204615749;","Validation of statcom capabilities through modelling and simulation on simulink platform",2018,"Proceedings of the 4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018",,,"8480850","","",,3,"10.1109/AEEICB.2018.8480850","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056374185&doi=10.1109%2fAEEICB.2018.8480850&partnerID=40&md5=27a7b40e55972b6ed831d8ec1401dde5","Government Polytechnic, Mumbai, India; V.J.T.I, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India","Dhulshette, A.K., Government Polytechnic, Mumbai, India; Ushkewar, S., V.J.T.I, Mumbai, India; Khan, A.A., Government Polytechnic, Mumbai, India; Rao, H., Sardar Patel College of Engineering, Mumbai, India; Ahire, N.R., Sardar Patel College of Engineering, Mumbai, India","Opportunities for improving actual power system performance is increased; since the power electronics technology is rapidly developing. This paper is a study and validation of capabilities of FACTS device, namely, STATCOM, through modelling and Simulation using Matlab/Simulink Platform. The STATCOM, is a device connected in transmission line to compensate reactive power; made of a coupled transformer and a solid-state VSI. At the point of connection, capacitive reactance or inductive reactance is emulated since the sinusoidal current is injected of varying magnitude which is almost in quadrature with the line voltage. This paper shows the functioning of the STATCOM using simulink platform verified simulation. Simulation result shows the capability of STATCOM for reactive power compensation & fast response. © 2018 IEEE.","FACTS; Power quality; Reactive power compensation; STATCOM","Electric current regulators; Electric power utilization; Flexible AC transmission systems; MATLAB; Power quality; Reactive power; Capacitive reactance; Inductive reactance; MATLAB /simulink; Modelling and simulations; Point of connection; Power system performance; Reactive power compensation; Sinusoidal currents; Static synchronous compensators",,,,,,,,,,,,,,,,"Stones, J., Collinson, A., Power quality (2001) Power Engineering Journal, pp. 58-64. , April; Salem, F.J., Simmons, R.A., Power quality from a utility perspective (2000) IEEE PES, pp. 874-881; Ahire, N., Dake, V., Analysis of voltage profile, it's issues and mitigation techniqes used in Western Regional Grid Of India (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio- Informatics(AEEICB), , Chennai; Ushkewar, S., Chaube, S., Komawar, N., Tirpude, N., Ansari, M.S., Controlled islanding scheme for power system protection: Guidelines and approach: Case study: Proposed Bhopal islanding scheme (2017) 2017 Third(AEEICB),Chennai, pp. 117-121; Adapa, R., FACTS system studies (2002) IEEE Power Engineering Review, pp. 17-22. , December; Edris, A., FACTS technology development: An update (2000) IEEE Power Engineering Review, pp. 4-9. , March; Sahoo, A.K., Dash, S.S., Thyagarajan, T., Modeling of STATCOM and UPFC for power system steady state operation and control (2007) 2007 IET-UK International Conference on Information and Communication Technology in Electrical Sciences (ICTES 2007), pp. 458-463. , Tamil Nadu; Mladen, K., Ian, D., Yimai, D., (2017) Impact of Extreme Weather on Power System Blackouts and Forced Outages: New Challenges; Ahire, N., Fernandese, M., Ushkewar, S., Optimal allocation of shunt compensation and maximum loadability assessment on IEEE-14 bus test system (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai; Kore, V., Fernandes, M., Ahire, N., Design of shunt active power filter using reference frame theory for power quality improvement (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information , Communication and BioInformatics (AEEICB), , Chennai; Ushkewar, S., Bodke, M., Compensation of reactive power in DFIG based wind farm using STATCOM (2018) 2018 Fourth International Conference on Advances in Electrical, Electronics, Information, Communication and Bio-Informatics(AEEICB), , Chennai",,"Ramesh P.L.N.Moorthi M.",,"Institute of Electrical and Electronics Engineers Inc.","4th IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2018","27 February 2018 through 28 February 2018",,140375,,9781538646069,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Informatics, AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85056374185
"Lavand S.A., Soman S.A.","57190437478;7004217094;","Local supervision of distance relay using rodrick-prescott filter",2018,"20th Power Systems Computation Conference, PSCC 2018",,,"8442842","","",,1,"10.23919/PSCC.2018.8442842","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054037821&doi=10.23919%2fPSCC.2018.8442842&partnerID=40&md5=d5fa9368ae02b76488a1a2dc94190d29","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; IIT Bombay, Department of Electrical Engineering, Mumbai, India","Lavand, S.A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Soman, S.A., IIT Bombay, Department of Electrical Engineering, Mumbai, India","Distance relays are vulnerable to trip on power swing. This unwanted tripping, sometimes, initiates uncontrolled system separation due to cascade tripping of transmission lines. This may even result in a catastrophic failure of the grid. Hence, distance relays must be temporarily blocked from the operation during a power swing. In this paper, we propose a predictive analytics using local substation voltage and current phasors for blocking distance relay during power swing. Unlike existing schemes, it can evaluate the time to encroachment as well as time to Out of Step condition. This scheme is setting free and independent of network parameters. It does not require any transient stability studies. It can even unblock the relay on a fault during power swing using extended Hodrick-Prescott (H-P) filter. Thus, it is a comprehensive scheme which provides blocking as well as unblocking to a distance relay. © 2018 Power Systems Computation Conference.","Distance Relay; H-P filter; Out of Step prediction; Power Swing Blocking","Electric fault currents; Predictive analytics; Catastrophic failures; Distance relay; H-P filter; Network parameters; Out-of-step prediction; Power swing blocking; Transient stability studies; Uncontrolled systems; Electric relays",,,,,,,,,,,,,,,,"Edith, C., Impedances seen by relays during power swings with and without faults (1945) AIEE Transactions, 64, pp. 372-384; Warrington, A., Graphical method for estimating the performance of distance relays during faults and power swings (1949) AIEE Transactions, 68, pp. 608-621. , June; Report on the grid disturbance on 30th July 2012 and grid disturbance on 31st July 2012 (2012) Central Electricity Regulatory Commission, , http://www.cercind.gov.in/2012/orders/FinalReportGridDisturbance.pdf, Tech. Rep. August; Andersson, G., Causes of the 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance (2005) IEEE Transactions on Power Systems, 20 (4), pp. 1922-1928. , Nov; Power swing and out-of-step considerations on transmission lines (2005) Power System Relaying Committee of IEEE Power Engineering Society, , Tech. Rep. July; Taylor, C.W., Haner, J.M., Hill, L.A., Mittelstadt, W.A., Cresap, R.L., A new out-of-step relay with rate of change of apparent resistance augmentation (1983) IEEE Transactions on Power Apparatus and Systems, PAS-102 (3), pp. 631-639. , March; Seethalekshmi, K., Singh, S., Srivastava, S., SVM based power swing identification scheme for distance relays (2010) IEEE Power and Energy Society General Meeting, 2010, pp. 1-8. , July; Benmouyal, G., Hou, D., Tziouvaras, D., Zero-setting power-swing blocking protection (2004) 31st Annual Western Protective Relay Confer-ence, pp. 36-41. , October; Brahma, S., Distance relay with out-of-step blocking function using wavelet transform (2007) IEEE Transactions on Power Delivery, 22 (3), pp. 1360-1366. , July; Blumschein, J., Yelgin, Y., Kereit, M., Proper detection and treatment of power swing to reduce the risk of blackouts (2008) Third International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, pp. 2440-2446. , April; Lavand, S.A., Soman, S.A., Predictive analytic to supervise zone 1 of distance relay using synchrophasors (2016) IEEE Transactions on Power Delivery, 31 (4), pp. 1844-1854. , Aug; Hodrick, R., Prescott, E., Postwar U. S. Business cycles: An empirical investigation (1997) Journal of Money, Credit and Banking, 29 (1), pp. 1-16; Lavand, S.A., Gajar, G., Gajbhiye, R., Soman, S.A., Mining spatial frequency time series data for event detection in power systems (2016) IET International Conference on Developments in Power System Protection, Edinburgh, 2016, , March; Pradeep, Shubhanga, K.N., A simulation program for a multimachine system Department of Electrical Engineering NITK Surathkal, , http://nptel.ac.in/downloads/108101004/, India, Tech. Rep; Rogers, G., (2000) Power System Oscillations, , New York: Springers; Abishek, R.S., (2015) Dynamic Security Assessment of Power Systems, , M. Tech thesis, Department of Electrical Engineering, IIT Bombay, India, Tech. Rep. June",,,"","Institute of Electrical and Electronics Engineers Inc.","20th Power Systems Computation Conference, PSCC 2018","11 June 2018 through 15 June 2018",,139082,,9781910963104,,,"English","Power Syst. Comput. Conf., PSCC",Conference Paper,"Final","",Scopus,2-s2.0-85054037821
"Thakker S.V., Rane S.B.","57202855011;56149402100;","Implementation of green supplier development process model in Indian automobile industry",2018,"Management of Environmental Quality: An International Journal","29","5",,"938","960",,20,"10.1108/MEQ-03-2018-0052","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049569643&doi=10.1108%2fMEQ-03-2018-0052&partnerID=40&md5=2e1528132ace93a42c220eb0b26e5eb5","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Thakker, S.V., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: The purpose of this paper is to develop a green supplier development (GSD) process model and validate the model with a case study in Indian automobile industry. Design/methodology/approach: A literature survey of peer-reviewed journal articles, survey reports and paradigmatic books with managerial impact is done for the research. The process of GSD is modeled using stage-gate approach and KPIV and KPOV of the process are determined. The process model is implemented in an Indian automobile components manufacturing industry for validation. Findings: The industry implemented the model with ten suppliers and was able to successfully convert seven of them into Green suppliers. Remaining three suppliers were asked to repeat the process again or terminate the contracts. Model implementation took around three years starting from planning of resources and finances to actual development of suppliers. Research limitations/implications: The model implementation was done with a small automobile industry and hence the validation and implications may be generalized by taking the case study further in different industries. It would be beneficial to test the model with case studies of large-scale industries. Practical implications: The process model for implementing GSD activities will help managers in taking complex investment decisions. The stages and process inputs and outputs are clearly defined which helps the managers to successfully develop the suppliers. Originality/value: This paper puts forward the process model that should be implemented for the successful development of green suppliers. It might represent new opportunities for rigorous and relevant research in the area of green supply chain. © 2018, Emerald Publishing Limited.","Automobile industry; Green suppliers; Green supply chain; Procurement","automobile industry; implementation process; manufacturing; supply chain management; survey; sustainable development; India",,,,,,,,,,,,,,,,"Ahi, P., Searcy, C., A comparative literature analysis of definitions for green and sustainable supply chain management (2013) Journal of Cleaner Production, 52 (1), pp. 329-341; Ahmad, N., Daghfous, A., Knowledge sharing through inter-organizational knowledge networks: challenges and opportunities in the United Arab Emirates (2010) European Business Review, 22 (2), pp. 153-174; Akman, G., Evaluating suppliers to include green supplier development programs via fuzzy c-means and VIKOR methods (2015) Computers & Industrial Engineering, 86 (C), pp. 69-82; AlKhidir, T., Zailani, S., Going green in supply chain towards environmental sustainability (2009) Global Journal of Environmental Research, 3 (3), pp. 246-251; Anderson, H., Brodin, M.H., The consumer’s changing role: the case of recycling (2005) Management of Environmental Quality: An International Journal, 16 (1), pp. 77-86. , https://; Awaysheh, A., Klassen, R.D., The impact of supply chain structure on the use of supplier social responsible practices (2010) International Journal of Operations & Production Management, 30 (12), pp. 1246-1268; Azadegan, A., Benefiting from supplier operational innovativeness: the influence of supplier evaluations and absorptive capacity (2011) Journal of Supply Chain Management, 47 (2), pp. 49-64; Bai, C.A., Sarkis, J., Determining and applying sustainable supplier key performance indicators (2014) Supply Chain Management: An International Journal, 19 (3), p. 5; Bai, C., Sarkis, J., Green supplier development: analytical evaluation using rough set theory (2010) Journal of Cleaner Production, 18 (12), pp. 1200-1210. , http://doi.org/10.1016/j.jclepro.2010.01.016; Bai, C., Sarkis, J., Wei, X., Koh, L., Evaluating ecologically sustainable performance measures for supply chain management (2012) Supply Chain Management: An International Journal, 17 (1), pp. 78-92; Birou, L.M., Fawcett, S.E., Supplier involvement in integrated product development: a comparison of US and European practices (1994) International Journal of Physical Distribution and Logistics Management, 24 (5), pp. 4-14; Blome, C., Hollos, D., Paulraj, A., Green procurement and green supplier development: antecedents and effects on supplier performance (2014) International Journal of Production Research, 52 (1), pp. 32-49. , http://doi.org/10.1080/00207543.2013.825748; Busse, C., Schleper, M.C., Niu, M., Wagner, S.M., Supplier development for sustainability: contextual barriers in global supply chains (2016) International Journal of Physical Distribution & Logistics Management, 46 (5), pp. 442-468. , http://doi.org/10.1108/IJPDLM-12-2015-0300; Cai, J., Liu, X., Xiao, Z., Liu, J., Improving supply chain performance management: a systematic approach to analyzing iterative KPI accomplishment (2009) Decision Support Systems, 46 (2), pp. 512-521; Caniëls, M.C.J., Gelderman, C.J., Purchasing strategies in the Kraljic matrix – a power and dependence perspective (2005) Journal of Purchasing & Supply Management, 11 (2-3), pp. 141-155; Caniels, M.C.J., Gehrsitz, M.H., Semeijn, J., Participation of suppliers in greening supply chains: an empirical analysis of German automotive suppliers (2013) Journal of Purchasing & Supply Management, 19 (3), pp. 134-143; Caniels, M.C.J., Gelderman, C.J., Purchasing strategies in the Kraljic matrix – a power and dependence perspective (2005) Journal of Purchasing and Supply Management, 11 (2-3), pp. 141-155; Carr, A.S., Kaynak, H., Communication methods, information sharing, supplier development, and performance: an empirical study of their relationships (2007) International Journal of Operations & Production Management, 27 (4), pp. 346-370; Carr, A.S., Pearson, J.N., Strategically managed buyer-supplier relationships and performance outcomes (1999) Journal of Operations Management, 17 (5), pp. 497-519; Chen, C.-C., Incorporating Green purchasing into the frame of ISO 14000 (2005) Journal of Cleaner Production, 13 (9), pp. 927-933; Cooper, R.G., State-gate systems: a new tool for managing new products (1990) Business Horizons, 33 (3), pp. 44-54; Corswant, F., Tunalv, C., Coordinating customers and proactive suppliers: a case study of supplier collaboration in product development (2002) Journal of Engineering and Technology Management, 19 (3-4), pp. 249-261; Cox, A., Understanding buyer and supplier power: a framework for procurement and supply competence (2001) The Journal of Supply Chain Management, 37 (1), pp. 8-15; Das, A., Narasimhan, R., Talluri, S., Supplier integration – finding an optimal configuration (2006) Journal of Operations Management, 24 (5), pp. 563-582; De Toni, A., Nassimbeni, G., Just-in-time purchasing: an empirical study of operational practices, supplier development, and performance (2000) The International Journal of Management Science, 28 (6), pp. 631-651; Dobos, I., Vörösmarty, G., Green supplier selection and evaluation using DEA-type (2014) International Journal Production Economics, 157, pp. 273-278; Dou, Y., Zhu, Q., Sarkis, J., Evaluating green supplier development programs with a grey-analytical network process-based methodology (2014) European Journal of Operational Research, 233 (2), pp. 420-431. , http://doi.org/10.1016/j.ejor.2013.03.004; Dowlatshahi, S., Implementing early supplier involvement: a conceptual framework (1998) International Journal of Operations and Production Management, 18 (2), pp. 143-167; Dunn, S.C., Young, R.R., Supplier assistance within supplier development initiatives (2004) Journal of Supply Chain Management, 40 (2), pp. 19-29; Ebrahim, N.A., Ahmed, S., Taha, Z., Modified stage-gate: a conceptual model of the virtual product development process (2009) African Journal of Marketing Management, 1 (9), pp. 211-219; (2013) Sustainable procurement guide, , http://doi.org/10.3403/9780580698613, Australian Government; Ehrgott, M., Reimann, F., Kaufmann, L., Carter, C.R., Environmental development of emerging economy suppliers: antecedents and outcomes (2013) Journal of Business Logistics, 34 (2), pp. 131-147. , http://doi.org/10.1111/jbl.12015; Ellegaard, C., Johansen, J., Drejer, A., Managing industrial buyer-supplier relations – the case of attractiveness (2003) Integrated Manufacturing Systems, 14 (4), pp. 346-357; Ellram, L., A managerial guideline for the development and implementation of purchasing partnerships (1991) International Journal of Purchasing & Materials Management, 31 (2), pp. 9-16; Foerstl, K., Azadegan, A., Leppelt, T., Hartmann, E., Drivers of supplier sustainability: moving beyond compliance to commitment (2015) Journal of Supply Chain Management, 51 (1), pp. 67-92. , http://doi.org/10.1111/jscm.12067; Froehle, C.M., Roth, A.V., Chase, R.B., Voss, C.A., Antecedents of new service development effectiveness: an exploratory examination of strategic operations choices (2001) Journal of Service Research, 3 (1), pp. 3-17; Galt, J.D.A., Dale, B.G., Supplier development: a British case study (1991) International Journal of Purchasing and Materials Management, 21 (1), pp. 16-22; Gardas, B.B., Narkhede, B.E., Exploring the Green supply chain management: a technical review (2013) International Journal of Application or Innovation in Engineering and Management, 2 (5), pp. 441-450; Geffen, C.A., Rothenberg, S., Suppliers and environmental innovation: the automotive paint process (2000) International Journal of Operations & Production Management, 20 (2), pp. 166-186; 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(1998) Supply Chain Management: An International Journal, 3 (2), pp. 89-95; Grönlund, J., Sjödin, D.R., Frishammar, J., Open Innovation and the stage-gate process: a revised model for new product development (2010) California Management Review, 52 (3), pp. 106-131; Gules, H.K., Burgess, T.F., Lynch, J.E., The evolution of buyer-supplier relationships in the automotive industries of emerging European economies: the case of Turkey (1997) European Journal of Purchasing & Supply Management, 3 (4), pp. 209-219; Gunasekaran, A., Patel, C., Tirtiroglu, E., Performance measures and metrics in a supply chain environment (2001) International Journal of Production and Operations Management, 21 (1-2), pp. 71-87; Hahn, C.K., Watts, C.A., Kim, K.Y., The supplier development program: a conceptual model (1990) International Journal of Purchasing and Materials Management, 26 (2), pp. 2-7; Hall, J., Environmental supply chain dynamics (2000) Journal of Cleaner Production, 8 (6), pp. 455-471; Hartley, J.L., Jones, G.E., Process oriented supplier development: building the capability for change (1997) International Journal of Purchasing and Materials Management, 23 (3), pp. 24-29; Humphreys, P.K., Li, W.L., Chan, L.Y., The impact of supplier development on buyer-supplier performance (2004) Omega, 32 (2), pp. 131-143; Igarashi, M., de Boer, L., Fet, A.M., What is required for greener supplier selection? A literature review and conceptual model development (2013) Journal of Purchasing and Supply Management, 19 (4), pp. 247-263; (2004) Automotive industry trends affecting component suppliers, , International Labour Office, International Labour Organization, Geneva; Jabbour, A.B.L., Jabbour, C.J.C., Are supplier selection criteria going green? Case studies of companies in Brazil (2009) Industrial Management & Data Systems, 109 (4), pp. 477-495; Johnson, S.P., Menor, L.J., Chase, R.B., Roth, A.V., A critical evaluation of the new services development process: integrating service innovation and service design (2000) New Service Development, Creating Memorable Experiences, , Fitzsimmons, J.A. and Fitzsimmons, M.J., and,(Eds), Sage Publications, Thousand Oaks, CA; Kenneth, W.G., Zelbst, P.J., Meacham, J., Bhadauria, V.S., Green supply chain management practices: impact on performance (2012) Supply Chain Management: An International Journal, 17 (3), pp. 290-305. , http://dx.doi.org/10.1108/13598541211227126; Koplin, J., Seuring, S., Mesterharm, M., Incorporating sustainability into supply management in the automotive industry – the case of the Volkswagen. AG (2007) Journal of Cleaner Production, 15 (11-12), pp. 1053-1062; Kraljic, P., Purchasing must become supply management (1983) Harvard Business Review, , September/October, 109-117; Krause, D.R., The antecedents of buying firms’ efforts to improve suppliers (1999) Journal of Operations Management, 17 (2), pp. 205-224; Krause, D.R., Ellram, L.M., Critical elements of supplier development the buying-firm perspective (1997) European Journal of Purchasing & Supply Management, 3 (1), pp. 21-31; Krause, D.R., Handfield, R.B., Tyler, B.B., The relationships between supplier development, commitment, social capital accumulation and performance improvement (2007) Journal of Operations Management, 25 (2), pp. 528-545. , http://doi.org/10.1016/j.jom.2006.05.007; Krause, D.R., Vachon, S., Klassen, R.D., Special topic forum on sustainable supply chain management: introduction and reflections on the role of purchasing management (2009) Journal of Supply Chain Management, 45 (4), pp. 18-25; Landeros, R., Reck, R., Plank, R.E., Maintaining buyer-supplier partnerships (1995) International Journal of Purchasing and Materials Management, 31 (3), pp. 3-11; 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Modi, S.B., Mabert, V.A., Supplier development: improving supplier performance through knowledge transfer (2007) Journal of Operations Management, 25 (1), pp. 42-64; Muralidhar, P., Application of Fuzzy AHP for evaluation of green supply chain management strategies (2012) IOSR Journal of Engineering, 2 (3), pp. 461-467; Narasimhan, R., Mahapatra, S., Arlbjørn, J., The impact of relational norms, supplier development and trust on supplier performance (2008) Operations Management Research, 1 (1), pp. 24-30; Narges, B., Mobli, H., Nielsen, I.E., Omid, M., Criteria definition and approaches in green supplier selection – a case study for raw material and packaging of food industry (2015) Production & Manufacturing Research: An Open Access Journal, 3 (1), pp. 149-168; Oh, J., Rhee, S., Influences of supplier capabilities in new car development on the competitive advantage of carmakers (2010) Management Decision, 48 (5), pp. 756-774; Olsen, R., Ellram, L., A portfolio approach to supplier relationships (1997) Industrial Marketing Management, 26 (2), pp. 101-113; 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Scannell, T., Vickery, S., Droge, C., Upstream supply chain management and competitive performance in the automotive supply industry (2000) Journal of Business Logistics, 21 (1), pp. 23-48; Seawright, J., Gerring, J., Case selection techniques in case study research: a menu of qualitative and quantitative options (2008) Political Research Quarterly, 61 (2), pp. 294-308; Seuring, S., MüEller, M., Core issues in sustainable supply chain management – a Delphi study (2008) Business Strategy and the Environment, 17 (8), pp. 455-466; Sillanpä, I., Shahzad, K., Sillanpä, E., Supplier development and buyer-supplier relationship strategies – a literature review (2015) International Journal of Procurement Management, 8 (1), pp. 227-250; Silveiro, R., Edison, V., Green procurement activities: some environmental indicators and practical actions taken by industry and tourism (2002) Ângela Denise da Cunha Lemos Antonio Giacomucci, 1 (1), pp. 59-72; Simpson, D.F., Power, D.J., Use the supply relationship to develop lean and green suppliers (2005) Supply Chain Management: An International Journal, 10 (1), pp. 60-68; 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Wynstra, F., Van Weele, A., Weggeman, M., Managing supplier involvement in product development: three critical issues (2001) European Management Journal, 19 (2), pp. 157-167; Yu, Q., Hou, F., An approach for green supplier selection in the automobile manufacturing industry (2016) Kybernetes, 45 (4), pp. 571-588; Zaheer, A., McEvily, B., Perrone, V., The strategic value of buyer-supplier relationships (1998) International Journal of Purchasing and Materials Management, 34 (3), pp. 20-26; Zhao, R., Liu, Y., Zhang, N., Huang, T., An optimization model for green supply chain management by using a big data analytic approach (2017) Journal of Cleaner Production, 142 (2), pp. 1085-1097; Zirpoli, F., Caputo, M., The nature of buyer-supplier relationships in co-design activities: the Italian auto industry case (2002) International Journal of Operations & Production Management, 22 (12), pp. 1389-1410; Balasubramanian, S., Shukla, V., Green supply chain management: an empirical investigation on the construction sector (2017) Supply Chain Management: An International Journal, 22 (1), pp. 58-81. , https://doi.org/10.1108/SCM-07-2016-0227; 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(2010) International Journal of Production Economics, 127 (2), pp. 309-319; Li, W., Humphreys, P.K., Yeung, A.C.L., Cheng, T.C.E., The impact of specific supplier development efforts on buyer competitive advantage: an empirical model (2007) International Journal of Production Economics, 106 (1), pp. 230-247; Paulraj, A., Environmental motivations: a classification scheme and its impact on environmental strategies and practices (2009) Business Strategy and the Environment, 18 (7), pp. 453-468; Phillip, M., Investigating ‘the way’ for Toyota suppliers (2012) Benchmarking: An International Journal, 19 (2), pp. 277-298; Raut, R.D., Narkhede, B., Gardas, B.B., To identify the critical success factors of sustainable supply chain management practices in the context of oil and gas industries: ISM approach (2017) Renewable and Sustainable Energy Reviews, 68 (1), pp. 33-47; Reuter, C., Foerstl, K., Hartmann, E., Blome, C., Sustainable global supplier management: the role of dynamic capabilities in achieving competitive advantage (2010) Journal of Supply Chain Management, 46 (2), pp. 45-63; Rusinko, C.A., Green manufacturing: an evaluation of environmentally sustainable manufacturing practices and their impact on competitive outcomes (2007) IEEE Transactions on Engineering Management, 54 (3), pp. 445-454; Sako, M., Supplier development at Honda, Nissan and Toyota: comparative case studies of organization capability enhancement (2004) Industrial and Corporate Change, 13 (2), pp. 281-308; Sarkis, J., Gonzalez-Torre, P., Adenso-Diaz, B., Stakeholder pressure and the adoption of environmental practices: the mediating effect of training (2010) Journal of Operations Management, 28 (2), pp. 163-176; Sarkis, J., Zhu, Q., Lai, K., An organizational theoretic review of green supply chain management literature (2011) International Journal of Production Economics, 130 (1), pp. 1-15; Seuring, S., Sarkis, J., Müller, M., Rao, P., Sustainability and supply chain management – an introduction to special issue (2008) Journal of Cleaner Production, 16 (15), pp. 1545-1551; Shahzad, K., Sillanpaa, I., Sillanpaa, E., Imeri, S., Benchmarking supplier development: an empirical case study of validating a framework to improve the buyer-supplier relationship (2016) Management and Production Engineering Review, 7 (1), pp. 56-70; Taylor, K.M., Vachon, S., Empirical research on sustainable supply chains: IJPR’s contribution and research avenues (2017) International Journal of Production Research, 56 (1-2), pp. 950-959; Wagner, S.M., Krause, D.R., Supplier development: communication approaches, activities, and goals (2009) International Journal of Production Research, 47 (12), pp. 3161-3177; Williams, S.J., Managing and developing suppliers: can SCM be adopted by SMEs? (2006) International Journal of Production Research, 44 (18-19), pp. 3831-3846; Wu, Z., Pagell, M., Balancing priorities: decision-making in sustainable supply chain management (2011) Journal of Operations Management, 29 (6), pp. 577-590; Zhu, Q., Sarkis, J., Relationships between operational practices and performance among early adopters of green supply chain management practices in Chinese manufacturing enterprises (2004) Journal of Operations Management, 22 (3), pp. 265-289; Zhu, Q., Sarkis, J., The moderating effects of institutional pressures on emergent green supply chain practices and performance (2007) International Journal of Production Research, 45 (18-19), pp. 4333-4355; Zhu, Q., Sarkis, J., Lai, K.-H., Green supply chain management: pressures, practices, and performance within the Chinese automobile industry (2006) Journal of Cleaner Production, 15 (11-12), pp. 1041-1052; Zhu, Q., Sarkis, J., Cordeiro, J.J., Lai, K.-H., Firm-level correlates of emergent green supply chain management practices in the Chinese context (2008) Omega, 36 (4), pp. 577-591","Thakker, S.V.; Department of Mechanical Engineering, India; email: shivangiruparel@somaiya.edu",,,"Emerald Group Holdings Ltd.",,,,,14777835,,,,"English","Manage. Environ. Qual.",Article,"Final","",Scopus,2-s2.0-85049569643
"Kulkarni P., Surve U., Srivastava A., Pimple B.B.","57206138397;57208859336;57208862689;36976185300;","Improved Pulse-Width Modulation Technique for 11-level Series-Parallel Switched Hybrid Inverter",2018,"Proceedings of 2018 IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2018",,,"8707860","","",,1,"10.1109/PEDES.2018.8707860","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85065981371&doi=10.1109%2fPEDES.2018.8707860&partnerID=40&md5=0819ab75de795389c2ea75f289c5b745","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Kulkarni, P., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Surve, U., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Srivastava, A., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Pimple, B.B., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","In this paper, improved Pulse-Width Modulation technique for an 11-level series-parallel switched Hybrid Inverter is presented. The series-parallel switching of the inverter bridge reduces the switching devices used for the same output voltage level as compared to traditional topologies. The hybrid modulation technique used is further separated as continuous and discontinuous. Results of both the modulation techniques are compared on the basis of their harmonic performance, which is measured in terms of total harmonic distortion and weighted total harmonic distortion. Discontinuous hybrid modulation is proved to be harmonically superior to its continuous counterpart. The validity of the proposed scheme is verified through simulated and experimental results. © 2018 IEEE.","Discontinuous PWM; Hybrid modulation; Multilevel inverter","Harmonic analysis; Harmonic distortion; Power electronics; Pulse width modulation; Voltage control; Wave filters; Discontinuous PWM; Harmonic performance; Hybrid modulation; Modulation techniques; Multilevel inverter; Switching devices; Total harmonic distortion (THD); Weighted total harmonic distortion; Electric inverters",,,,,,,,,,,,,,,,"Rodríguez, J., Lai, J.S., Peng, F.Z., Multilevel inverters: A survey of topologies, controls, and applications (2002) IEEE Transactions on Industrial Electronics, 49 (4). , August; McGrath, B., Holmes, D., Manjrekar, M., Lipo, T., An improved modulation strategy for a hybrid multilevel inverter (2002) IEEE XPLORE, , Aug; Hinago, Y., Koizumi, H., A single-phase multilevel inverter using switched series/parallel DC voltage sources (2010) IEEE Transactions on Industrial Electronics, 57 (8). , August; Rodríguez, J., Bernet, S., Wu, B., Pontt, J.O., Kouro, S., Multilevel voltage-source-converter topologies for industrial medium-voltage drives (2007) IEEE Transactions on Industrial Electronics, 54 (6). , December; Holmes, D., Lipo, T., (2014) Pulse Width Modulation for Power Converters, , Piscataway, NJ: John Wiley and Sons, Inc; Peng, F., Lai, J.S., McKeever, J., VanCoevering, J., A multilevel voltage-source inverter with separate dc sources for static var generation (1996) IEEE Transactions on Industry Applications, 32 (5). , September/October; Correa, P., Pacas, M., Rodríguez, J., Predictive torque control for inverter-fed induction machines (2007) IEEE Traxrions on Industrial Electronics, 54 (6). , December; Gopakumar, K., Rodriguez, J., Pérez, M.A., A survey on cascaded multilevel inverters (2010) IEEE Transactions on Industrial Electronics, 57 (7). , July; Hochgraf, C., Lasseter, R., Divan, D., Lipo, A.M.T., Comparison of multilevel inverters for static Var compensation (1994) IEEE/IAS Annual Meeung, pp. 921-928; Magi, N.H., Takahashi, I., A new neutral-point-clamped PWM inverter (1981) IEEE Transactions on Industry Applications, IA-17 (5), pp. 518-523. , September/October",,,"IEEE IAS;IEEE IES;IEEE PELS;IEEE PES","Institute of Electrical and Electronics Engineers Inc.","8th IEEE International Conference on Power Electronics, Drives and Energy Systems, PEDES 2018","18 December 2018 through 21 December 2018",,147906,,9781538693155,,,"English","Proc. IEEE Int. Conf. Power Electron., Drives Energy Syst., PEDES",Conference Paper,"Final","",Scopus,2-s2.0-85065981371
"Vidushi N., Sanjana K., Aniket P., Pavan G., Lavand S.A.","57215823925;57215823388;57215819847;57215824404;57190437478;","Identification of Distance Relays Vulnerable to Power Swing in a Power System",2018,"2018 International Conference on Recent Innovations in Electrical, Electronics and Communication Engineering, ICRIEECE 2018",,,"9009155","230","234",,,"10.1109/ICRIEECE44171.2018.9009155","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081967822&doi=10.1109%2fICRIEECE44171.2018.9009155&partnerID=40&md5=e7f880beeb6ae3aca674a7de80ed9a4b","Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India","Vidushi, N., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Sanjana, K., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Aniket, P., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Pavan, G., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India; Lavand, S.A., Sardar Patel College of Engineering, Department of Electrical Engineering, Mumbai, India","Distance relays in a power system are prone to trip on power swing. A power swing blocking (PSB) function has to be provided with it to avoid the mal-operation. However, utility engineers are generally biased towards dependability. Therefore, zone 1 of a distance relay which provides primary protection. It is normally not supervised by such PSB function, but some times such tripping under severe power swing may trigger further cascade tripping in the system. Hence, utilities have to decide a policy for implementing the blocking function for various zones of the distance relay without compromising the dependability. The present paper offers an offline simulation based testing tool to identify distance relays vulnerable to power swing so that PSB function can be provided to only these relays selectively. The logic can be further extended to decide which zones to be prevented from tripping during power swing. © 2018 IEEE.","Distance Relay; Power Swing Blocking; Selective Blocking; Vulnerability Analysis","Electric relays; Distance relay; Off-line simulations; Power swing blocking; Power swings; Selective blocking; Testing tools; Vulnerability analysis; Electric power system protection",,,,,,,,,,,,,,,,"http://www.cercind.gov.in/2012/orders/FinalnReportnGridnDisturbance.pdf, Report on the grid disturbance on 30th July 2012 and grid disturbance on 31st July 2012 Central Electricity Regulatory Commission, Tech. Rep., August 2012; Andersson, G., Causes of the 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance (2005) IEEE Transactions on Power Systems, 20 (4), pp. 1922-1928. , Nov; Power swing and out-of-step considerations on transmission lines power system relaying committee of ieee power engineering society (2005) Tech. Rep, , July; Lavand, S.A., Soman, S.A., Predictive analytic to supervise zone 1 of distance relay using synchrophasors (2016) IEEE Transactions on Power Delivery, 31 (4), pp. 1844-1854. , Aug; Padiyar, K.R., (2002) Power System Dynamics-Stability and Control. Hyderabad: BS Publications; Pradeep, Shubhanga, K.N., A simulation program for a multimachine system Department of Electrical Engineering NITK Surathkal, India, Tech. Rep, , http://nptel.ac.in/downloads/108101004/; Kundur, P., (1994) Power System Stability and Control, , The EPRI Power System Engineering Series. New Delhi: McGraw Hill Inc; Rogers, G., (2000) Power System Oscillations, , New York: Springers",,,,"Institute of Electrical and Electronics Engineers Inc.","2018 International Conference on Recent Innovations in Electrical, Electronics and Communication Engineering, ICRIEECE 2018","27 July 2018 through 28 July 2018",,158145,,9781538659946,,,"English","Int. Conf. Recent Innov. Electr., Electron. Commun. Eng., ICRIEECE",Conference Paper,"Final","",Scopus,2-s2.0-85081967822
"Kewate S.P., Murudi M.M.","57053434200;8077743100;","A critical study on empirical period - Height relationship for reinforced concrete moment resisting frame buildings",2018,"Indian Concrete Journal","92","7",,"89","94",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049533112&partnerID=40&md5=7e11710afa8ee9625044a4f74b175d77","Mumbai University, India; Civil Engineering Department, Saraswati College of Engineering, Navi Mumbai, Maharashtra, India; Sardar Patel College of Engineering, Maharashtra, India","Kewate, S.P., Mumbai University, India, Civil Engineering Department, Saraswati College of Engineering, Navi Mumbai, Maharashtra, India; Murudi, M.M., Sardar Patel College of Engineering, Maharashtra, India","Most of the building codes provide the empirical equations to estimate period of vibration of the building. It is shown that, even though the code formulas provide periods that are generally shorter than measured periods, these formulas can be improved to provide better correlation with the measured data. The present study makes an attempt to gather the possible empirical period - height relationships for RC buildings. It points out the new trends that have become apparent, reflects on the gaps that have been missing in our knowledge and speculates on probable future studies that will allow to enlarge knowledge of this relationship. © 2018 Associated Cement Companies Ltd. All rights reserved.",,"Concrete industry; Construction; Empirical equations; Moment resisting frames; RC buildings; Reinforced concrete",,,,,,,,,,,,,,,,"(1978) Tentative Provisions for the Development of Seismic Regulations for Buildings, , Applied Technology Council (ATC), Report No. ATC306,Palo Alto; (1996) Recommended Lateral Force Requirements, , SEAOC 6th Edition, Seismology Committee, Structural Engineers Association of California, Sacramento, 1996; Structural engineering design provisions International Conference of Building Officials, p. 492. , Uniform Building Code (UBC97), Whittier; (2004) Eurocode 8: Design of Structures for Earthquake Resistance. Part 1: General Rules, Seismic Actions and Rules for Buildings, , CEN European Standard EN 1998-1:2004, Comité Européende Normalisation, Brussels, Belgium, 2004; (2006) Minimum Design Loads for Buildings and Other Structures, , ASCE ASCE 7-05, Structural Engineering Institute of the American Society of Civil Engineers, 2006; Goel, R., Chopra, A., Period formulas for moment-resisting frame buildings (1997) Journal of Structural Engineering, 123 (11), pp. 1454-1461; (2016) Criteria for Earthquake Resistant Design of Structures: Part I General Provisions and Buildings, , IS 1893(Part I): 2016 (sixth revision), Bureau of Indian Standards, New Delhi, December; Hong, L., Hwang, Empirical formula for fundamental periods of vibration for Reinforced concrete buildings in Taiwan (2000) Earthquake Engineering and Structural Dynamics, 29, pp. 327-337; Helen, C., Rui, P., Simplified equations for estimating the period of vibration of existing buildings (2006) First European Conference On Earthquake Engineering and Seismology, pp. 3-8. , Geneva, Switzerland, Paper Number: 1122, September; Kadir, G., Ercan, Y., Ali, K., Estimation of the fundamental vibration period of existing RC buildings in Turkey utilizing ambient vibration records (2008) Journal of Earthquake Engineering, 12 (S2), pp. 140-150; Pinho, R., Crowley, H., Revisiting Eurocode 8 formulae for periods of vibration and their employment in linear seismic analysis (2010) Earthquake Engineering &structural Dynamics, 39 (2), pp. 223-235; Chiauzzi, L., Masi, A., Mucciarelli, M., Estimate of fundamental period of reinforced concrete buildings: Code provisions vs. Experimental measures in Victoria and Vancouver (BC, Canada) (2012) Proceeding of the 15th World Conference On Earthquake Engineering, , Lisbon, September; Ditommaso, R., Vona, M., Gallipoli, M.R., Mucciarelli, Evaluation and considerations about fundamental periods of damaged reinforced concrete buildings (2013) Natural Hazards Earth System Science, pp. 1903-1912; Elgohary, H., Empirical formula for the fundamental period of vibration of multi-storey RC framed buildings (2013) Earthquake Engineering and Structural Dynamics, pp. 28-30. , Vienna, Austria Paper No. 389; Salama, M.I., Estimation of period of vibration for concrete moment-resisting frame buildings (2015) Housing and Building National Research Centre, 11, pp. 16-21; Sangamnerkar, P., Dubey, S.K., Effect of base width and stiffness of the structure on period of vibration of RC framed buildings in seismic analysis (2015) Open Journal of Earthquake Research, 4, pp. 65-73",,,,"Associated Cement Companies Ltd.",,,,,00194565,,ICJOA,,"English","Indian Concr J",Article,"Final","",Scopus,2-s2.0-85049533112
"Joshi P., Bahirat H.J., Sabnis A.","57214045071;36448931600;54416304100;","Design and parametric study of active-type resonance HVDC circuit breaker",2018,"2017 7th International Conference on Power Systems, ICPS 2017",,,,"328","333",,4,"10.1109/ICPES.2017.8387315","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049885848&doi=10.1109%2fICPES.2017.8387315&partnerID=40&md5=a1722181e679594259e1de444b7835e1","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engineering, Indian Institute of Technology, Bombay, Mumbai, India","Joshi, P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bahirat, H.J., Department of Electrical Engineering, Indian Institute of Technology, Bombay, Mumbai, India; Sabnis, A., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","The important requirement of High-Voltage Direct Current (HVDC) multi-terminal system is the mature Circuit Breaker (CB). In this paper, the systematic mathematical modeling is implemented to design resonance circuit parameters of Active type resonance HVDC CB. The designed model of CB is tested on three cases, namely, fault current, load current and system inductance variation. These cases are compared based on total time required to reduce fault current to residual current and to de-energize breaker system. The simulation results for these conditions validate the performance of designed HVDC CB. © 2017 IEEE.","Active resonance CB; HVDC CB; resonance circuit modeling; simulation","Circuit resonance; Circuit simulation; Electric circuit breakers; Timing circuits; Active resonance CB; High voltage direct current; HVDC CB; HVDC circuit breakers; Inductance variation; Multi terminal systems; Resonance circuits; simulation; HVDC power transmission",,,,,,,,,,,,,,,,"Franck, C.M., HVDC circuit breakers: A review identifying future research needs (2011) IEEE Transaction on Power Delivery; PGCIL Presentation, , Indian Power System; Zhu, J., Future multi-terminal HVDC transmission system using voltage source converters (2010) UPEC; Bucher, M.K., Franck, C.M., Contribution of fault current sources in multi-terminal HVDC cable networks (2013) IEEE Transaction on Power Delivery, 28 (3), pp. 1796-1803; Bucher, M.K., Franck, C.M., Fault current interruption in multiterminal hvdc networks (2016) IEEE Transactions on Power Delivery, 31 (1), pp. 87-95; Bonkarev, M., (2015) Concept Analysis for High-Voltage Direct-Current Circuit Breakers for Application in A Network of HVDC Transmission, , Master thesis, Brandenburg University of Technology; Walter, M., (2013) Switching Arcs in Passive Resonance HVDC Circuit Breakers, , PhD thesis, ETH Zurich; (2001) IEEE Standard C37.06; Magnusson, J., Saers, R., Separation of the energy absorption and overvoltage protection in solid-state breakers by the use of parallel varistors (2014) IEEE Transaction on Power Electronics, 29 (6), pp. 2715-2722; Greenwood, A., (1991) Electrical Transients in Power Systems, , Wiley",,,"","Institute of Electrical and Electronics Engineers Inc.","7th International Conference on Power Systems, ICPS 2017","21 December 2017 through 23 December 2017",,137261,,9781538617892,,,"English","Int. Conf. Power Syst., ICPS",Conference Paper,"Final","",Scopus,2-s2.0-85049885848
"Dandage R., Mantha S.S., Rane S.B.","57194626842;13005618000;56149402100;","Ranking the risk categories in international projects using the TOPSIS method",2018,"International Journal of Managing Projects in Business","11","2",,"317","331",,35,"10.1108/IJMPB-06-2017-0070","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045835587&doi=10.1108%2fIJMPB-06-2017-0070&partnerID=40&md5=7d5f8040a0eb84e7b7bc5744cb574868","Sardar Patel College of Engineering, Mumbai, India; Rajendra Mane College of Engineering and Technology, Devrukh, India; Veermata Jijabai Technological Institute, Mumbai, India; All India Council for Technical Education, New Delhi, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Dandage, R., Sardar Patel College of Engineering, Mumbai, India, Rajendra Mane College of Engineering and Technology, Devrukh, India; Mantha, S.S., Veermata Jijabai Technological Institute, Mumbai, India, All India Council for Technical Education, New Delhi, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Purpose: The purpose of this paper is to review the risk categories which are predominant in international projects and to rank them according to their effect on project success. Design/methodology/approach: A literature survey of peer-reviewed journal articles, survey reports and books on project management is used as the research methodology. One among the various multi-criteria decision making methods named as Technique for Order Preference by Similarity to the Ideal Solution (TOPSIS) has been used to rank the risk categories according to their importance. The data for TOPSIS were collected through questionnaire as the research instrument. Findings: The findings derived from evaluation of the publications led to the identification of eight different types of risk categories associated with international projects. The TOPSIS method resulted into political risks, technical risks and design-related risks as the top three risk categories in international projects. Contractual and legal risks and fraudulent practices-related risks are relatively low-ranked risk category. Research limitations/implications: The findings will be useful in successful implementation of international projects as the knowledge of risk categories and their ranking will help project manager to plan the risk response strategies. A larger sample size for decision makers and more variety of projects can give more exhaustive risk categories and their ranking. Practical implications: This paper explores eight different risk categories in international projects. It represents the ranking of risk categories according to their importance in project success. This will be helpful to project managers for developing a general framework for planning the appropriate risk response strategies. Social implications: Governments of many countries around the world are encouraging their industries to undertake and successfully complete projects in foreign countries. However, many industries experience failure in projects as they fail to implement the risk management (RM) effectively in international projects. This research work provides the risk categories in international projects and their ranking which can assist in developing strategies to respond the risk appropriately. Originality/value: This paper uses the TOPSIS method for ranking major types of risk categories in international projects. It might represent new opportunities for rigorous and relevant research that would contribute to an in-depth knowledge of RM methodologies. © 2018, Emerald Publishing Limited.","International projects; MCDM; Risk categories; TOPSIS",,,,,,,,,,,,,,,,,"Adler, T., Pittz, T., Meredith, J., An analysis of risk sharing in strategic R&D and new product development projects (2016) International Journal of Project Management, 34 (6), pp. 914-922; Ahsan, K., Gunawan, I., Analysis of cost and schedule performance of international development projects (2010) International Journal of Project Management, 28 (1), pp. 68-78; Alimoradi, A., Yussuf, R.M., Zulkifli, N., A hybrid model for remanufacturing facility location problem in a closed-loop supply chain (2011) International Journal of Sustainable Engineering, 4 (1), pp. 16-23; Amadabadi, H.Z., Gerdefaramarzi, S.S., Identifying and prioritizing goals of joint venture between manufacturing cooperative firms, using TOPSIS (2012) International Journal of Social, Behavioral, Educational, Economic, Business and Industrial Engineering, 6 (6), pp. 1453-1456; 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Chen, C.T., Extensions of the TOPSIS for group decision-making under fuzzy environment (2000) Fuzzy Sets and Systems, 114 (1), pp. 1-9; Chen, C.T., Lin, C.T., Huang, S.F., A fuzzy approach for supplier evaluation and selection in supply chain management (2006) International Journal of Production Economics, 102 (2), pp. 289-301; Chen, S.M., Lee, L.W., Fuzzy multiple attributes group decision-making based on the interval type-2 TOPSIS method (2010) Expert Systems with Applications, 37 (4), pp. 2790-2798; Chen, Y., Li, K.W., Liu, S.F., An OWA-TOPSIS method for multiple criteria decision analysis (2011) Expert Systems with Applications, 38 (5), pp. 5205-5211; Chen, Y.J., Structured methodology for supplier selection and evaluation in a supply chain (2011) Information Sciences, 181 (9), pp. 1651-1670; Chu, T.C., Selecting plant location via a fuzzy TOPSIS approach (2002) International Journal of Advanced Manufacturing Technology, 20 (11), pp. 859-864; Chu, T.C., Lin, Y.C., A fuzzy TOPSIS method for robot selection (2003) International Journal of Advanced Manufacturing Technology, 21 (4), pp. 284-290; Chu, T.C., Lin, Y.C., An interval arithmetic based fuzzy TOPSIS model (2009) Expert Systems with Applications, 36 (8), pp. 10870-10876; Dagdeviren, M., A hybrid multi-criteria decision-making model for personnel selection in manufacturing systems (2010) Journal of Intelligent Manufacturing, 21 (4), pp. 451-460; Deng, H., Yeh, C.H., Willis, R.J., Inter-company comparison using modified TOPSIS with objective weights (2000) Computers & Operations Research, 27 (10), pp. 963-973; Deng, Y., Chan, F.T.S., A new fuzzy dempster MCDM method and its application in supplier selection (2011) Expert Systems with Applications, 38 (8), pp. 9854-9861; Deswal, M., Garg, S.K., Application of TOPSIS: a multiple criteria decision-making approach in supplier selection (2015) International Journal of Advanced Technology in Engineering and Science, 3 (11), pp. 303-307; Doloi, H., Sawhney, A., Iyer, K.C., Rentala, S., Analyzing factors affecting delays in Indian construction projects (2012) International Journal of Project Management, 30 (4), pp. 479-489; 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Khanna, H.K., Sharma, D.D., Identifying and ranking critical success factors for implementation of total quality management in the Indian manufacturing industry using TOPSIS (2011) Asian Journal on Quality, 12 (1), pp. 124-138; Khattab, A., Adel Anchor, J.R., Davies Eleanor, M.M., Managerial perceptions of political risk in international projects (2007) International Journal of Project Management, 25 (7), pp. 734-743; Kirsi, A., The establishment of legitimacy: the case of international projects (2013) International Journal of Managing Projects in Business, 6 (1), pp. 13-35; Koulouriotis, D.E., Ketipi, M.K., A fuzzy digraph method for robot evaluation and selection (2011) Expert Systems with Applications, 38 (9), pp. 11901-11910; Kuo, M.S., Optimal location selection for an international distribution center by using a new hybrid method (2011) Expert Systems with Applications, 38 (6), pp. 7208-7221; Kuo, M.S., Liang, G.S., A novel hybrid decision-making model for selecting locations in a fuzzy environment (2011) Mathematical and Computer Modeling, 54 (1-2), pp. 88-104; Lam, K.C., Wang, D., Patricia, T.K., Lee, Y.T., Sang, T., Modeling risk allocation decision in construction contracts (2007) International Journal of Project Management, 25 (5), pp. 485-493; Li, D.F., A fuzzy closeness approach to fuzzy multi-attribute decision making (2007) Fuzzy Optimization and Decision Making, 6 (3), pp. 237-254; Li, D.F., Compromise ratio method for fuzzy multi-attribute group decision making (2007) Applied Soft Computing, 7 (3), pp. 807-881; Li, S., Risk management for overseas development projects (2009) International Business Research, 2 (3), pp. 193-196; Liao, C.N., Kao, H.P., An integrated fuzzy TOPSIS and MCGP approach to supplier selection in supply chain management (2011) Expert Systems with Applications, 38 (9), pp. 10803-10811; Liao, H.C., Using PCR-TOPSIS to optimise Taguchi’s multi-response problem (2003) International Journal of Advanced Manufacturing Technology, 22 (9-10), pp. 649-655; Ling, F.Y.Y., Hoi, L., Risks faced by Singapore firms when undertaking construction projects in India (2006) International Journal of Project Management, 24 (3), pp. 261-270; Liu, J., Meng, F., Fellows, R., An exploratory study of understanding project risk management from the perspective of national culture (2015) International Journal of Project Management, 33 (3), pp. 555-564; Majid Behzadian, S.K., Otaghsara, M., Yazdani, J.I., A state-of the-art survey of TOPSIS applications (2012) Expert Systems with Applications, 39 (17), pp. 13051-13069; Mian, A., Mohsin, M., Hussein, S., Factor analyzing project management practices in the United Arab Emirates (2017) International Journal of Managing Projects in Business, 10 (4), pp. 749-769. , https://doi.org/10.1108/IJMPB-03-2017-0027; Muriana, C., Vizzini, G., Project risk management: a deterministic quantitative technique for assessment and mitigation (2017) International Journal of Project Management, 35 (3), pp. 320-340; (2013) A guide to the project management body of knowledge (PMBOK Guide), , 5th ed., Project Management Institute, Newtown Square, PA; Qazi, A., Quigley, J., Dickson, A., Kirytopoulos, K., Project complexity and risk management (ProCRiM): towards modelling project complexity driven risk paths in construction projects (2016) International Journal of Project Management, 34 (7), pp. 1183-1198; Rao, R.V., Evaluating flexible manufacturing systems using a combined multiple attribute decision making method (2008) International Journal of Production Research, 46 (7), pp. 1975-1989; Rao, R.V., Davim, J.P., A decision-making framework model for material selection using a combined multiple attribute decision-making method (2008) International Journal of Advanced Manufacturing Technology, 35 (7-8), pp. 751-760; Raz, T., Michael, E., Use and benefits of tools for project risk management (2001) International Journal of Project Management, 19 (1), pp. 9-17; Rodrigues-Da-Silva, C., The project risk management process, a preliminary study (2014) Procedia Technology, 16, pp. 943-949; Rodríguez, A., Ortega, F., Concepcion, R., An intuitionistic method for the selection of a risk management approach to information technology projects (2017) Information Sciences, 375 (1), pp. 202-218; Samuel, F., Ebenezer, A., Laud, K.M., Charles, T.A., Risk management for a tailings re-mining project in Ghana (2015) International Journal of Managing Projects in Business, 8 (2), pp. 241-255; Sasi, J., Digalwar, A., Application of AHP and TOPSIS method for supplier selection between India & China in textile industry (2015) International Research Journal of Engineering and Technology, 2 (4), pp. 1730-1738; Sato, T., Hirao, M., Optimum budget allocation method for projects with critical risks (2013) International Journal of Project Management, 31 (1), pp. 126-135; Sheu, J.B., A hybrid neuro-fuzzy analytical approach to mode choice of global logistics management (2008) European Journal of Operational Research, 189 (3), pp. 971-986; Shimizu, T., Park, Y., Choi, S.B., Project managers and risk management: a comparative study between Japanese and Korean firms (2014) International Journal of Production Economics, 147, pp. 437-447; Singh, R.K., Gupta, A., Kumar, A., Khan, T.A., Ranking of barriers for effective maintenance by using TOPSIS approach (2016) Journal of Quality in Maintenance Engineering, 22 (1), pp. 18-34; Sui Pheng, L., Yuquan, S., Cultural influences on organizational processes in international projects: two case studies (2001) Work Study, 50 (7), pp. 276-285. , https://doi.org/10.1108/00438020110409215; Sulafa, M.B., Stephen, P., Assessing the impact of risk allocation on sustainable energy innovation (SEI): The case of private finance initiative (PFI) school projects (2016) International Journal of Managing Projects in Business, 9 (2), pp. 259-281; Triantaphyllou, E., Shu, B., Nieto Sanchez, S., Ray, T., Multi-criteria decision making: an operations research approach (1998) Encyclopaedia of Electrical and Electronics Engineering, 15, pp. 175-186. , Webster, J.G. (Ed.), John Wiley & Sons, New York, NY; Velasquez, M., Hester, P., An analysis of multi-criteria decision making methods (2013) International Journal of Operations Research, 10 (2), pp. 56-66; Walewski, J., (2003) International project risk assessment – methods, procedures and critical factors, , Report of the Centre Construction Industry Studies, University of Texas, Austin, TX; Wang, W.P., Toward developing agility evaluation of mass customization systems using 2-tuple linguistic computing (2009) Expert Systems with Applications, 36 (2), pp. 3439-3447; Wang, Y.J., Fuzzy multi-criteria decision-making based on positive and negative extreme solutions (2011) Applied Mathematical Modeling, 35 (4), pp. 1994-2004; Wenche, A., Asbjørn, R., Bjorn, A., Managing organizational challenges in global projects (2013) International Journal of Managing Projects in Business, 7 (1), pp. 103-132. , https://doi.org/10.1108/IJMPB-02-2011-0008; Yong, D., Plant location selection based on fuzzy TOPSIS (2006) International Journal of Advanced Manufacturing Technology, 28 (7-8), pp. 839-844; Young, K., Colleen, D., Risk management framework for pharmaceutical research and development projects (2008) International Journal of Managing Projects in Business, 1 (4), pp. 552-565; Yue, Z., A method for group decision-making based on determining weights of decision makers using TOPSIS (2011) Applied Mathematical Modeling, 35 (4), pp. 1926-1936; Yurdakul, M., Ic, Y.T., Analysis of the benefit generated by using fuzzy numbers in a TOPSIS model developed for machine tool selection problems (2009) Journal of Materials Processing Technology, 209 (1), pp. 310-317; Zeydan, M., Çolpan, C., Çobanoglu, C., A combined methodology for supplier selection and performance evaluation (2011) Expert Systems with Applications, 38 (3), pp. 2741-2751; Zhang, G., Shang, J., Li, W., An information granulation entropy-based model for third-party logistics providers evaluation (2012) International Journal of Production Research, 50 (1), pp. 177-190; Zhang, X., Social risks for international players in the construction market: a China study (2011) Habitat International, 35 (3), pp. 514-519; Zhang, Y., Selecting risk response strategies considering project risk interdependence (2016) International Journal of Project Management, 34 (5), pp. 819-830; Braglia, M., Frosolini, M., Montanari, R., Fuzzy TOPSIS approach for failure mode, effects and criticality analysis (2003) Quality and Reliability Engineering International, 19 (5), pp. 425-443","Dandage, R.; Sardar Patel College of EngineeringIndia; email: dandagerahul@gmail.com",,,"Emerald Group Holdings Ltd.",,,,,17538378,,,,"English","Int. J. Manag. Project Bus.",Article,"Final","",Scopus,2-s2.0-85045835587
"Mary M.M., Joshi V.P.","57202791654;57193646938;","Load flow method for distribution systems",2018,"2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","2018-January",,,"949","952",,3,"10.1109/ICICICT1.2017.8342693","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049381484&doi=10.1109%2fICICICT1.2017.8342693&partnerID=40&md5=3f34637be99c7121af4c076c91cc6620","Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India","Mary, M.M., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Joshi, V.P., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India","This paper gives an efficient method for solving load flow studies in a distribution system that can be used for both radial and mesh systems A radial network is obtained from a mesh network by process of loop breaking by addition of dummy buses. The injected power at loop break points are obtained and updated by iteration process by an impedance matrix. IEEE 9 bus network was used to prove the convergence of this method and verified by MATLAB programs and compared with conventional methods using ETAP. © 2017 IEEE.","Distribution; ETAP; Load flow; MATLAB; Radial System","Intelligent computing; Iterative methods; MATLAB; Mesh generation; Conventional methods; Distribution; Distribution systems; ETAP; Impedance matrices; Load flow; Load flow studies; Radial systems; Electric load flow",,,,,,,,,,,,,,,,"Tinney, W.G., Hart, C.E., Power flow solutions by Newton method (1967) IEEETrans. Power App. Syst, PAS-86, pp. 1449-1460. , Nov; Haque, M.H., Efficient load flow method for distribution systems with radial or mesh configuration IEE Jan 1996. Generation, Transmission and Distribution IEEE Proceeding, 143 (1), pp. 33-38; Fan, Z., Cheng, C.S., A modified Newton method for radial distribution system power flow analysis (1997) IEEE Power Systems, IEEE Transactions., 12, pp. 389-397. , Feb; Murty, V.V.S.N., Teja, B.R., Kumar, A., A contribution to load flow in radial distribution system and comparison of different load flow methods (2014) Power Signals Control and Computations (EPSCICON), 2014 International Conference, , Jan; Tripathy, S.C., Durgaprasad, G., Malik, O.P., Hope, G.S., Load-flow solutions for ill-conditioned power systems by a Newton-like method (1982) Power Apparatus and Systems IEEE Transactions, PAS-101, pp. 3648-3657. , Oct; Ghosh, S., Das, D., Method for load-flow solution of radial distribution networks (1999) Generation, Transmission and Distribution, IEE Proceedings, 146 (6), pp. 641-648. , Nov; Das, D., Nagi, H.S., Kothari, D.P., Novel method for solving radial distribution networks (1994) Generation, Transmission and Distribution, IEE Proceedings., 141 (4), pp. 291-298. , Jul; Cespedes, R.G., New method for the analysis of distribution networks: Power Delivery (1990) IEEE Transactions, 5, pp. 391-396. , Jan; Gomez Esposito, A., Ramos, E.R., Reliable load flow technique for radial distribution networks Power Systems, IEEE Transactions, 14 (3), pp. 1063-1069. , IEEE, Aug 1999; Anderson, P.M., Fouad, A.A., (1977) Power System Control and Stability, , Iowa State University Press",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","6 July 2017 through 7 July 2017",,136091,,9781509061068,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85049381484
"Koratkar P.J., Sabnis A.","57202791982;54416304100;","Comparative analysis of different control approaches of direct torque control induction motor drive",2018,"2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","2018-January",,,"831","835",,15,"10.1109/ICICICT1.2017.8342672","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049366676&doi=10.1109%2fICICICT1.2017.8342672&partnerID=40&md5=942f50f6f9e064cab2b1e2c403225258","Department of Electrical Engineering, BVB's Sardar Patel College of Engineering, Mumbai, India","Koratkar, P.J., Department of Electrical Engineering, BVB's Sardar Patel College of Engineering, Mumbai, India; Sabnis, A., Department of Electrical Engineering, BVB's Sardar Patel College of Engineering, Mumbai, India","Direct torque control gives fast and robust response in induction motor drives. This paper deals with Direct torque control technique of induction motor using different approaches. The first is Conventional direct torque control which uses hysteresis controllers. The second one is direct torque control using space vector modulation which uses predictive controllers and the third is simplified direct torque control space vector modulation which uses imaginary switching time concept. The MATLAB/SIMULINK platform is used for analysis of these techniques. Comparison of all the three approaches is discussed. © 2017 IEEE.","direct torque control; induction motor drives; predictive controllers; space vector pulse width modulation","Controllers; Electric drives; Electric motors; Induction motors; Intelligent computing; MATLAB; Modulation; Torque; Torque control; Vector spaces; Voltage control; Comparative analysis; Control approach; Direct torque control; Hysteresis controller; Induction motor drive; Predictive controller; Space Vector Modulation; Space vector pulse width modulation; Electric machine control",,,,,,,,,,,,,,,,"Takahashi, Noguchi, T., A new quick-response and high-efficiency control strategy of an induction motor (1986) IEEE Transactions on Industry Applications, IA-22 (5), pp. 820-827. , Sept; Depenbrock, M., Direct self-control (DSC) of inverter-fed induction machine (1988) IEEE Transactions on Power Electronics, 3 (4), pp. 420-429. , Oct; Lascu, C., Boldea, I., Blaabjerg, F., A modified direct torque control (DTC) for induction motor sensorless drive (1998) Conference Record of 1998 IEEE Industry Applications Conference. Thirty-Third IAS Annual Meeting (Cat. No. 98CH36242), 1, pp. 415-422. , St. Louis, MO, USA; Habetler, T.G., Profumo, F., Pastorelli, M., Tolbert, L.M., Direct torque control of induction machines using space vector modulation (1992) IEEE Transactions on Industry Applications, 28 (5), pp. 1045-1053. , Sep/Oct; Mohamed, C., Golea, A., Benchouia, M.T., Implementation of a predictive DTC-SVM of an induction motor (2015) 4th International Conference on Electrical Engineering (ICEE), Boumerdes, pp. 1-4; Ouarda, A., Ben Salem, F., Induction machine DTC-SVM: A comparison between two approaches (2013) 10th International Multi-Conferences on Systems, Signals & Devices 2013 (SSD13), Hammamet, pp. 1-7; Kumar, B., Fernandes, G., Chatterjee, K., Simplified SVPWM-DTC of 3-phase induction motor using the concept of imaginary switching times (2004) 30th Annual Conference of IEEE Industrial Electronics Society 2004. IECON, 1, pp. 341-346; Lang, B., Miao, M., Liu, W., Luo, G., Simulation and experiment study of space vector pulse width modulation (2009) 2009 9th International Conference on Electronic Measurement & Instruments, Beijing, pp. 1408-1412; Ozpineci, B., Tolbert, L.M., Simulink implementation of induction machine model-A modular approach (2003) Electric Machines and Drives Conference 2003. IEMDC'03. IEEE International, 2, pp. 728-734; Chung, D.-W., Kim, J.-S., Sul, S.-K., Unified voltage modulation technique for real-time three-phase power conversion (1998) IEEE Transactions on Industry Applications, 34 (2), pp. 374-380. , Mar/Apr; Vas, P., (1998) Sensor Less Vector and Direct Torque Control, , Oxford University Press, London",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","6 July 2017 through 7 July 2017",,136091,,9781509061068,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85049366676
"Khalane P.S., Patil D.A., Remadevi C.","57202790212;57202789367;57202789419;","Literature survey of various maximum power point tracking techniques for photovoltaic systems",2018,"2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","2018-January",,,"836","840",,6,"10.1109/ICICICT1.2017.8342673","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049365378&doi=10.1109%2fICICICT1.2017.8342673&partnerID=40&md5=47366b3b8b9f6ff9c55c14b59869f39a","Dept. of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Digital Technosolutions, Nasik, India","Khalane, P.S., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Patil, D.A., Digital Technosolutions, Nasik, India; Remadevi, C., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Increasing utilization of renewable energy has widened the scope of research for improving efficiency of solar PV technology. But the conversion efficiency obtained from solar PV module is not greater than 25%. Hence to improve operating efficiency, it is obligatory to have proficient and robust maximum power point tracking controller. Various MPP tracking techniques are discussed in this literature. This paper would be prerequisite for PV application in future. © 2017 IEEE.","Incremental conductance (IC); Maximum Power (Pmpp); Maximum Power Point Tracking(MPPT); Perturb and observe (P&.0); State Space Model(SSM)","Intelligent computing; Photovoltaic cells; State space methods; Tracking (position); Incremental conductance; Maximum power; Maximum Power Point Tracking; Perturb and observe; State space model; Maximum power point trackers",,,,,,,,,,,,,,,,"Kim, Y., Jo, H., Kim, D., A new peak power tracker for cost-effective photovoltaic power system (1996) IECEC 96. Proceedings of the 31st Intersociety Energy Conversion Engineering Conference, 3, pp. 1673-1678. , Washington, DC; Koutroulis, E., Kalaitzakis, K., Voulgaris, N.C., Development of a microcontroller-based, photovoltaic maximum power point tracking control system (2001) IEEE Transactions on Power Electronics, 16 (1), pp. 46-54. , Jan; Hsiao, Y.-T., Chen, C., Maximum power tracking for photovoltaic power system (2002) Conference Record of the 2002 IEEE Industry Applications Conference. 37th IAS Annual Meeting (Cat. No. 02CH37344), Pittsburgh, PA, USA, 2, pp. 1035-1040; Jain, S., Agarwal, V., A new algorithm for rapid tracking of approximate maximum power point in photovoltaic systems (2004) IEEE Power Electronics Letters, 2 (1), pp. 16-19. , March; Veerachary, M., Senjyu, T., Uezato, K., Maximum power point tracking control of IDB converter supplied PV system (2001) IEE Proceedings-Electric Power Applications, 148 (6), pp. 494-502. , Nov; Schoeman, J.J., Wyk, J.D.V., A simplified maximal power controller for terrestrial photovoltaic panel arrays (1982) 1982 IEEE Power Electronics Specialists Conference, pp. 361-367. , Cambridge, MA, USA; Patcharaprakiti, N., Premrudeepreechacharn, S., Maximum power point tracking using adaptive fuzzy logic control for grid-connected photovoltaic system (2002) 2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No. 02CH37309), 1, pp. 372-377; Bhide, R., Bhat, S.R., Modular power conditioning unit for photovoltaic applications (1992) Power Electronics Specialists Conference 1992. PESC '92 Record., 23rd Annual, 1, pp. 708-713. , IEEE, Toledo; Sugimoto, H., Dong, H., A new scheme for maximum photovoltaic power tracking control (1997) Power Conversion Conference-Nagaoka 1997., Proceedings of The, Nagaoka, 2, pp. 691-696; Esram, T., Chapman, P.L., Comparison of photovoltaic array maximum power point tracking techniques (2007) IEEE Transactions on Energy Conversion, 22 (2), pp. 439-449. , June; De Carvalho, P.C.M., Pontes, R.S.T., Oliveira, D.S., Riffel, D.B., De Oliveira, R.G.V., Mesquita, S.B., Control method of a photovoltaic powered reverse osmosis plant without batteries based on maximum power point tracking (2004) 2004 IEEE/PES Transmision and Distribution Conference and Exposition: Latin America (IEEE Cat. No. 04EX956, pp. 137-142; Solodovnik, E.V., Liu, S., Dougal, R.A., Power controller design for maximum power tracking in solar installations (2004) IEEE Transactions on Power Electronics, 19 (5), pp. 1295-1304. , Sept; Zhang, M., Wu, J., Zhao, H., The application of slide technology in PV maximum power point tracking system (2004) Fifth World Congress on Intelligent Control and Automation IEEE Cat, 6, pp. 5591-5594. , 04EX788; Kasa, N., Iida, T., Chen, L., Flyback inverter controlled by sensorless current mppt for photovoltaic power system (2005) IEEE Transactions on Industrial Electronics, 52 (4), pp. 1145-1152. , Aug",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Intelligent Computing, Instrumentation and Control Technologies, ICICICT 2017","6 July 2017 through 7 July 2017",,136091,,9781509061068,,,"English","Int. Conf. Intell. Comput., Instrum. Control Technol., ICICICT",Conference Paper,"Final","",Scopus,2-s2.0-85049365378
"Nagrale P.P., Patil A.","23100800600;57193268455;","Evaluation of extension in service life and layer thickness reduction of stabilized flexible pavement",2018,"Advances in Computational Design","3","2",,"201","212",,,"10.12989/acd.2018.3.2.201","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058036510&doi=10.12989%2facd.2018.3.2.201&partnerID=40&md5=bca6e2e9d19cd480ad2f4cc2d78aa2a4","Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400708, India","Nagrale, P.P., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Patil, A., Datta Meghe College of Engineering, Airoli, Navi Mumbai, 400708, India","Decrease in availability of suitable subbase and base course materials for highway construction leads to a search for economic method of converting locally available troublesome soil to suitable one for highway construction. Present study insights on evaluation of benefits of stabilization of subgrade soils in term of extension in service life (TBR) and layer thickness reduction (LTR). Laboratory investigation consisting of Atterberg limit, Compaction, California Bearing Ratio, unconfined compressive strength and triaxial shear strength tests were carried out on two types of soil for varying percentages of stabilizers. Vertical compressive strains at the top of unstabilized and stabilized subgrade soils were found out by elasto-plastic finite element analysis using commercial software ANSYS. The values of vertical compressive strains at the top of unstabilized and stabilized subgrade, were further used to estimate layer thickness reduction or extension in service life of the pavement due to stabilization. Finite element modeling of the flexible pavement layered structure provides modern technology and sophisticated characterization of materials that can be accommodated in the analysis and enhances the reliability for the prediction of pavement response for improved design methodology. If the pavement section is kept same for unstabilized and stabilized subgrade soils, pavement resting on lime, fly ash and fiber stabilized subgrade soil B will have service life 2.84, 1.84 and 1.67 times than that of unstabilized pavement respectively. The flexible pavement resting on stabilized subgrade is beneficial in reducing the construction material. Actual savings would depend on the option exercised by the designer for reducing the thickness of an individual layer. © 2018 Techno-Press, Ltd.","Finite element analysis; Layer thickness reduction; Stabilization; Traffic benefit ratio; Vertical compressive strain",,,,,,,,,,,,,,,,,"Abi, L.R., Keerthana, B., Ameerlal, H., Performance of flyash stabilized clay reinforced with human hair fiber (2016) J. Geomech. Eng., 10 (5), pp. 677-687; Arraiganda, M., Pugliessi, A., Partl, M.N., Martinez, F., Effect of full size and downscaled accelerated traffic loading on pavement behavior (2014) Mater. Sci. Struct., 47 (8), pp. 1409-1424; Berg, R.R., Christopher, B.R., Perkins, S.W., Geosynthetic reinforcement of the aggregate base course of flexible pavement structures (2000) GMA White Paper II Geosynthetic Materials Association, pp. 130-200. , Roseville, MN; Chandra, S., Mehndirata, H.C., Effect of shoulder on life of flexible pavement (2002) Highway Research Bulletin, 67, pp. 37-47. , Indian Road Congress, New Delhi; Chen, J.S., Lin, P.E., Stein, E., Hothan, J., Development of a mechanistic-empirical model to characterize rutting in flexible pavements (2004) J. Transp. Eng., 130, pp. 519-525; Deng, F.L., Huan, L.L., Chien, T., Ming, D.C., Study properties of soft subgrade soil stabilized by sewage slush/lime and nano SiO2 (2016) J. Geomech. Eng., 1 (6), pp. 773-780; Duncan, J.M., Monismith, C.L., Wilson, E.C., Finite element analysis of pavements (1968) Highway Res. Board, Highway Res. Rec., 228, pp. 18-33; Hanifi, C., Aziz, A., Feith, C., Soil stabilization of clay with lignin, rice husk powder and ash (2015) J. Geomech. Eng., 8 (1), pp. 67-79; Hass, R., Jamie, W., Carroll, R.G., “Geogrid reinforcement of granular bases in flexible pavements (1988) Trans. Res. Board, , 1188, Washington, DC., USA, 19-27; Hjelmstad, K.D., Taciroglu, E., Analysis and implementation of resilient modulus models for granular solids (2000) J.Eng. Mech., 126 (8), pp. 821-830; Huang, Y.H., (2003) Pavement Analysis and design”, , 2nd Ed., Prentice Hall, Upper Saddle River, N.J; Huang, Y.H., (2004) Pavement Analysis and design”, , 2nd Ed., Prentice Hall, Upper Saddle River, N.J; (2001) Guidelines for the Design of Flexible Pavements, , Indian code of practice, IRC:37, New Delhi, India; Issac, I.A., Ikenna, U., Soil modification by addition of cactus mulicage (2015) J. Geomech. Eng., 8 (5), pp. 649-661; Jie, G., Computational modeling of geogrid reinforced soil foundation and geogrid reinforced base in flexible pavement (2011) Ph.D Thesis, Department of Civil Eng. and Environ. Eng. B.S., Hebei University of Technology; Kaya, Z., Effect of slag on stabilization of sewage sludge and organic soil (2016) J.Geomech. Eng., 10 (5), pp. 689-707; Kim, M., Tutumluer, E., Kwon, J., Nonlinear pavement foundation modeling for three-dimensional finite-element analysis of flexible pavements (2009) Int. J. Geomech.-Asce, 9 (5), pp. 195-208; Moghaddas, S.N., Norouzi, A.H., Application of waste rubber to reduce the settlement of road embankment (2015) J. Geomech. Eng., 9 (2), pp. 219-241; Moustafa, A.K., Mohamed, E.L., Hamad, M., A procedure for quantification and optimization of stabilized subgrade pavement materials (2011) Int. J. Adv. Eng. Tech., 2 (1), pp. 025-035; Mubashir, A., Massod, S., Muhammed, I., Engineering behavior of expansive soil with rice husk ash (2015) J. Geomech. Eng., 8 (2), pp. 173-186; Olgun, M., Effects of polypropylene fiber inclusion on the strength and volume change characteristics of cement-fly ash stabilized clay soil (2013) Geosynthetics Int, 20 (4), pp. 263-275; Perkins, S.W., Development of design methods for geosynthetic reinforced flexible pavements (2004) Final Report, Montana State University, MT; Perkins, S.W., Edens, M.Q., Finite element and distress models for geosynthetic-reinforced pavements (2002) Int. J. Pavement Eng. Taylor & Francis, 3 (4), pp. 239-250; Perkins, S.W., Edens, M.Q., A design model for geosynthetic-reinforced pavements (2003) Int. J. Pav. Eng., 4 (1), pp. 37-50; Shahu, J.T., Patel, S., Senapati, A., Engineering properties of copper slag–fly ash–dolime mix and its utilization in the base course of flexible pavements (2013) J. Mater.Civ. Eng., 25, pp. 1871-1879; Suebsuk, J., Horpibulsuk, S., Liu, M.D., Modified structured cam clay: A constitutive model for destructured, naturally structured and artificially structured clays (2010) Comput. Geotech., 37 (7-8), pp. 956-968; Suebsuk, J., Horpibulsuk, S., Liu, M.D., A critical state model for overconsolidated structured clays (2011) Comput. Geotech., 38 (5), pp. 648-658; Sukumaran, B., Three dimensional finite element modeling of flexible pavements (2004) The 2004 FAA Worldwide Airport Technology Transfer Conf, , Atlantic City, NJ; Thomas, C.K., Jeannette, A.J., “Benefits of using geogrids for reinforcement with regard to rutting (1988) Trans. Res. Rec., pp. 86-96. , 1611, Washington, D.C., USA; Webstar, S.L., Geogrid reinforced base courses for flexible pavements for light aircraft:Test Section Construction, Behavior under Traffic, Laboratory Tests and Design Criteria (1992) Technical Report GL-93-6, ASAE Waterway Experiment Station, , Vicksburg, Mississippi, USA, 886; Yesuf, Y., Hoff, I., Finite element modeling for prediction of pavement strains in fine grained subgrade soils (2015) J. Road Mater. Pav. Des., 16 (2), pp. 392-404","Patil, A.; Datta Meghe College of Engineering, Airoli, India; email: atulya.patil@yahoo.com",,,"Techno-Press",,,,,23838477,,,,"English","Adv. Comput. Des.",Article,"Final","",Scopus,2-s2.0-85058036510
"Khadke R., Bhole K.","57201185858;55485785300;","Characterization of Radial Curved Fin Heat Sink under Natural and Forced Convection",2018,"IOP Conference Series: Materials Science and Engineering","310","1","012031","","",,1,"10.1088/1757-899X/310/1/012031","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85043719902&doi=10.1088%2f1757-899X%2f310%2f1%2f012031&partnerID=40&md5=0a611ececc4fc5aeb7a76502eb5a98c6","Sardar Patel College of Engineering, Mumbai, 400058, India","Khadke, R., Sardar Patel College of Engineering, Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Mumbai, 400058, India","Heat exchangers are important structures widely used in power plants, food industries, refrigeration, and air conditioners and now widely used in computing systems. Finned type of heat sink is widely used in computing systems. The main aim of the design of the heat sink is to maintain the optimum temperature level. To achieve this goal so many geometrical configurations are implemented. This paper presents a characterization of radially curved fin heat sink under natural and forced convection. Forced convection is studied for the optimization of temperature for better efficiency. The different alternatives in geometry are considered in characterization are heat intensity, the height of the fin and speed of the fan. By recognizing these alternatives the heat sink is characterized by the heat flux usually generated in high-end PCs. The temperature drop characteristics across height and radial direction are presented for the constant heat input and air flow in the heat sink. The effect of dimensionless elevation height (0 ≤ Z∗ ≤ 1) and Elenbaas Number (0.4 ≤ El ≤ 2.8) of the heat sink were investigated for study of the Nusselt number. Based on experimental characterization, process plan has been developed for the selection of the similar heat sinks for desired output (heat dissipation and temperature distribution). © Published under licence by IOP Publishing Ltd.",,"Air conditioning; Characterization; Fins (heat exchange); Forced convection; Heat flux; Heat sinks; Manufacture; Computing system; Experimental characterization; Food industries; Geometrical configurations; Natural and forced convections; Optimum temperature; Radial direction; Temperature drops; Heat convection",,,,,,,,,,,,,,,,"Avram, B., Madhusudan, I., Kraus Allan, D., Design of Optimum Plate-Fin Natural Convective Heat Sinks (2003) J. Electron Packaging, 125 (2), pp. 208-216; Costa Vitor, A.F., Lopes Antonio, M.G., Improved Radial Heat Sink for Led Lamp Cooling (2014) Appl. Therm. Eng., 70 (1), pp. 131-138; Seung-Hwan, Y., Kwan-Soo, L., Se-Jin, Y., Natural convection around a radial heat sink (2010) Int. J. Heat and Mass Transfer, 53 (13-14), pp. 2935-2938; Choi, Minjoong, J., Compact, lightweight, and highly efficient circular heat sink design for high-end PCs (2016) Appl. Therm. Eng., 92, pp. 162-171; Qie, S., Daming, S., Ya, X., Tao, J., Xu, Z., Ning, Z., Ke, W., Zhiyi, H., Natural convection heat transfer along vertical cylinder heat sinks with longitudinal fins (2016) International Journal of Thermal Sciences, 100, pp. 457-464; Seung-Jae, P., Daeseok, J., Kwan-Soo, L., Thermal performance and orientation effect of an inclined cross-cut cylindrical heat sink for LED light bulbs (2016) Int. J. Heat and Mass Transfer, 103, pp. 1371-1377; Bin, L., Chan, B., Investigation of natural convection heat transfer around a radial heat sink with a concentric ring (2015) Int. J. Heat and Mass Transfer, 89, pp. 159-164; Bin, L., Chan, B., Orientation effects on thermal performance of radial heat sinks with a concentric ring subject to natural convection (2015) Int. J. Heat and Mass Transfer, 90, pp. 102-108; Seri, L., Optimum design and selection of heat sinks (1995) Semiconductor Thermal Measurement and Management Symposium, pp. 48-54; Mukesh, K., Anil, K., Sandeep, K., Optimum design and selection of heat sink (2013) International Journal of Application or Innovation in Engineering & Management, 2, pp. 541-549; Daeseok, J., Se-Jin, Y., Kwan-Soo, L., Optimum design of a radial heat sink with a fin-height profile for high-power LED lighting applications (2014) Applied Energy, 116, pp. 260-268; Shankar, D., Venkateshan, S.P., Sundararajan, T., Experimental and numerical investigations on optimal distribution of heat source array under natural and forced convection in a horizontal channel (2017) International Journal of Thermal Sciences, 115, pp. 125-138; Silva, M.J., Zdanski, P.S.B., Vaz, M., Jr., Forced convection on grey cast iron plate-fins: Prediction of the heat transfer coefficient (2017) Int. Communications in Heat and Mass Transfer, 81, pp. 1-7. , Silva M.J., Zdanski P.S.B. and Vaz M. Jr; Mohammad Reza, S., Richard, B., Laminar Forced Convection Heat Transfer from Laterally Perforated-Finned Heat Sinks (2017) Applied Thermal Engineering, 116, pp. 406-418; Sajjad, B., Jafar, G., Unsteady Forced Convection over Cylinder with Radial Fins in Cross Flow (2017) Applied Thermal Engineering, 112, pp. 214-225; Tzer-Ming, J., Sheng-Chung, T., Yan-Cih, H., The orientation effect of driven air flow on cooling performance of the cylindrical heat sink with a built-in horizontally-placed fan (2017) International Communications in Heat and Mass Transfer, 81, pp. 190-200; Dong-Kwon, K., Jaehoon, J., Sung Jin, K., Thermal optimization of plate-fin heat sinks with variable fin thickness (2010) International Heat Transfer Conference, 53 (25-26), pp. 5988-5995; Morega, M., Bejan, A., Plate fins with variable thickness and height for air-cooled electronic modules (1994) Int. J. Heat Mass Transfer, 37, pp. 433-445; Kolambekar Rajesh, B., Kiran, B., Development of prototype for waste heat energy recovery from thermoelectric system at Godrej vikhroli plant (2015) International Conference on Nascent Technologies in the Engineering, pp. 1-6","Khadke, R.; Sardar Patel College of EngineeringIndia; email: rishikeshkhadke@gmail.com","Basavarajappa S.Rao C.S.P.","","Institute of Physics Publishing","International Conference on Advances in Materials and Manufacturing Applications 2017, IConAMMA 2017","17 August 2017 through 19 August 2017",,135135,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Gold",Scopus,2-s2.0-85043719902
"Dandage R.V., Mantha S.S., Rane S.B., Bhoola V.","57194626842;13005618000;56149402100;56674813300;","Analysis of interactions among barriers in project risk management",2018,"Journal of Industrial Engineering International","14","1",,"153","169",,42,"10.1007/s40092-017-0215-9","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021272539&doi=10.1007%2fs40092-017-0215-9&partnerID=40&md5=439ad19e195680677aa16cf790274b2c","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; All India Council for Technical Education (AICTE), New Delhi, India; SP Jain Institute of Management and Research, Mumbai, India","Dandage, R.V., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Mantha, S.S., All India Council for Technical Education (AICTE), New Delhi, India; Rane, S.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Bhoola, V., SP Jain Institute of Management and Research, Mumbai, India","In the context of the scope, time, cost, and quality constraints, failure is not uncommon in project management. While small projects have 70% chances of success, large projects virtually have no chance of meeting the quadruple constraints. While there is no dearth of research on project risk management, the manifestation of barriers to project risk management is a less dwelt topic. The success of project management is oftentimes based on the understanding of barriers to effective risk management, application of appropriate risk management methodology, proactive leadership to avoid barriers, workers’ attitude, adequate resources, organizational culture, and involvement of top management. This paper represents various risk categories and barriers to risk management in domestic and international projects through literature survey and feedback from project professionals. After analysing the various modelling methods used in project risk management literature, interpretive structural modelling (ISM) and MICMAC analysis have been used to analyse interactions among the barriers and prioritize them. The analysis indicates that lack of top management support, lack of formal training, and lack of addressing cultural differences are the high priority barriers, among many others. © 2017, The Author(s).","Barriers; ISM; MICMAC; Projects; Risk management",,,,,,,"Strategy 8: An organizational culture supported by cross-functional teamwork, collaboration, and open communication must be developed within project organization. It will encourage the team members to work more efficiently and effectively. Organizational culture must support trust and cooperation among the team members. This will improve risk management in the project.",,,,,,,,,,"Ahsan, K., Gunawan, I., Analysis of cost and schedule performance of international development projects (2010) Int J Proj Manage, 28, pp. 68-78; Alawamleh, M., Popplewell, K., Interpretive structural modelling of risk sources in a virtual organisation (2011) Int J Prod Res, 49 (20), pp. 6041-6063; Allen, M., Carpenter, C., Hutchins, M., Jones, G., Impact of risk management on project cost: an industry comparison (2015) J Inf Technol Econ Dev, 6 (2), p. 1; Aloini, D., Dulmin, R., Mininno, V., Modelling and assessing ERP project risks, a Petri net approach (2012) Eur J Oper Res, 220, pp. 484-495; Anderson, S.W., (2000) Identifying and managing risk in international mining projects, , November, In, Paper presented at the National Western Mining Conference, (2000); Attri, R., Nikhil Dev, N., Sharma, V., Interpretive structural modelling (ISM) approach: an overview (2013) Res J Manag Sci, 2 (2), pp. 3-8; Aven, T., Risk assessment and risk management: review of recent advances on their foundation (2016) Eur J Oper Res, 253, pp. 1-13; Barber, R., Understanding internally generated risks in projects (2005) Int J Proj Manag, 23, pp. 584-590; Bhoola, V., Hiremath, S.B., Mallik, D., An assessment of risk response strategies practiced in software projects. Australas (2014) J Inf Syst, 18 (3), pp. 161-191; Bing, L., Akintoye, A., Akintoye, P.J., Edwards, P.J., Hardcastle, C., The allocation of risk in PPP/PFI construction projects in the UK (2005) Int J Proj Manag, 23, pp. 25-35; Boateng, P., Chen, Z., Ogunlana, S.O., An analytical network process model for risks prioritisation in megaprojects (2015) Int J Proj Manag, 33, pp. 1795-1811; Bush, J.K., Dai, W.S., Dieck, G.S., Hostelley, L.S., Hassall, T., The art and science of risk management—a US research based industry perspective (2005) Drug Saf, 28 (1), pp. 1-18; Camprieu, R., Cultural differences in project risk perception: An empirical comparison of China and Canada (2007) Int J Proj Manag, 25, pp. 683-693; Carr, V., Tah, J.H.M., A fuzzy approach to construction project risk assessment and analysis: construction project risk management system (2001) Adv Eng Softw, 32, pp. 847-857; Charan, P., Shankar, R., Baisya, R.K., Analysis of Interactions among variables of supply chain performance measurement system implementation (2008) Business Process Manag J, 14 (4), pp. 512-529; Charoenngam, C., Yeh, C.Y., Contractual risk and liability sharing in hydropower construction (1999) Int J Proj Manag, 17 (1), pp. 29-37; Doloi, H., Anil Sawhney, K.C., Iyer, S.R., Analysing factors affecting delays in Indian construction projects (2012) Int J Proj Manag, 30, pp. 479-489; Elkington, P., Smallman, C., Managing project risks: a case study from the utility sector (2002) Int J Proj Manag, 20, pp. 49-57; Eswarlal, V.K., Dey, P.K., Budhwar, P., Shankar, R., Analysis of interactions among variables of renewable energy projects-A case study on renewable energy projects in India (2011) J Sci Ind Res, 70, pp. 713-720; Eybpoosh, M., Dikmen, I., Talat Birgonul, M., Identification of risk paths in international construction projects using structural equation modelling (2011) J Constr Eng Manag, 137 (12), pp. 1164-1175; Faisal, M.N., Analysing the barriers to corporate social responsibility in supply chains: an interpretive structural modelling approach (2010) Int J Logist Res Appl, 13 (3), pp. 179-195; 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Hwang, B.G., Zhao, X., Gay, M.J.S., Public-private partnership projects in Singapore: factors, critical risks, and preferred risk allocation from the perspective of contractors (2013) Int J Proj Manag, 31, pp. 424-433; Hwang, B.G., Zhao, X., Toh, L.P., Risk management in small construction projects in Singapore: status, barriers and impact (2014) Int J Proj Manag, 32, pp. 116-124; Isaac, I., Training in risk management (1995) Int J Proj Manag, 13, pp. 225-229; Jadhav, J., Mantha, S., Rane, S., Development of framework for sustainable Lean implementation: an ISM approach (2014) J Ind Eng Int, 10, p. 72; Jadhav, J., Mantha, S., Rane, S., Barriers for successful implementation of JIT—a manufacturers perspective (2014) Int J Procure Manag, 7 (3), pp. 316-342; Jadhav, J., Mantha, S., Rane, S., Roadmap for Lean implementation in Indian automotive component manufacturing industry: comparative study of UNIDO Model and ISM Model (2015) J Ind Eng Int, 11 (2), pp. 179-198; Jadhav, J., Mantha, S., Rane, S., Analysis of interactions among the barriers to JIT production: interpretive structural modelling approach (2015) J Ind Eng Int, 11, pp. 331-352; 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Kirkire, M.S., Rane, S.B., Jadhav, J.R., ‘Risk management in medical product development process using traditional FMEA and fuzzy linguistic approach: a case study (2015) J Ind Eng Int, 11 (4), pp. 595-611; Kumar, N., Kumar, S., Haleem, A., Gahlot, P., implementing lean manufacturing system: ISM approach (2013) J Ind Eng Manag, 6 (4), pp. 996-1012; Kumar, S., Luthra, S., Haleem, A., Customer involvement in greening the supply chain: an interpretive structural modelling methodology (2013) J Ind Eng Int, 9 (6), pp. 1-13; Kutsch, E., Hall, M., Deliberate ignorance in project risk management (2010) Int J Proj Manag, 28 (3), pp. 245-255; Lam, K.C., Wang, D., Lee, P.T.K., Tsang, Y.T., Modelling risk allocation decision in construction contracts (2007) Int J Proj Manag, 25, pp. 485-493; Latham, M., (1994) Constructing the team, , HMSO, London; Lee, E., Park, Y., Shin, J.G., Large engineering project risk management using a Bayesian belief network (2009) Expert Syst Appl, 36, pp. 5880-5887; Li, S., Risk management for overseas development projects (2009) Int Business Res, 2 (3), pp. 193-196; 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Yim, R., Jason, C., Doolen, T., Tumer, I., Malak, R., A study of the impact of project classification on project risk indicators (2015) Int J Proj Manag, 33, pp. 863-876; Zou, P.X.W., Zhang, G., Wang, J., Understanding the key risks in construction projects in China (2007) Int J Proj Manag, 25, pp. 601-614; Zwikael, O., Sadeh, A., Planning effort as an effective risk management tool (2007) J Oper Manag, 25, pp. 755-767; Zwikael, O., Pathak, R., Singh, G., Ahmad, S., The moderating effect of risk on the relationship between planning and success (2013) Int J Proj Manag","Dandage, R.V.; Mechanical Engineering Department, India; email: dandagerahul@gmail.com",,,"SpringerOpen",,,,,17355702,,,,"English","J. Ind. Eng. Int.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85021272539
"Rahate N.D., Kinhekar N.","57203169053;55920860800;","Demand side management for household equipment's",2018,"IEEE International Conference on Information, Communication, Instrumentation and Control, ICICIC 2017","2018-January",,,"1","5",,11,"10.1109/ICOMICON.2017.8279108","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85050792148&doi=10.1109%2fICOMICON.2017.8279108&partnerID=40&md5=09d9589165b4fbaccb186c1dd345bc2b","Department of Electrical Engineering, Sardar Patel College of Engineering Andheri (West), Mumbai, 400052, India","Rahate, N.D., Department of Electrical Engineering, Sardar Patel College of Engineering Andheri (West), Mumbai, 400052, India; Kinhekar, N., Department of Electrical Engineering, Sardar Patel College of Engineering Andheri (West), Mumbai, 400052, India","This paper aims to minimize the peak load at utility as well as reduce the electricity bill of residential consumers. A Swarm Intelligent based Particle Swarm Optimization methodology is used to minimize the peak load at the utility, for that an effective load shifting Demand Side Management technique is used. In this article, the residential consumer co-operates with the utility to manage their energy demand by scheduling the shift-able home appliances based on consumer's priority. The proposed article considers 14 types of shift-able appliances which reschedule for the next day to manage the demand. Simulation work shows that reduction in consumed power during peak load period and electricity bill minimization of the consumer. © 2017 IEEE.","Demand Side Management (DSM); Load Scheduling; Particle Swarm Optimization (PSO)","Demand side management; Domestic appliances; Electric utilities; Housing; Scheduling; Demand Side Management (DSM); Electricity bill; Energy demands; Load scheduling; Load shifting; Peak load; Residential consumers; Swarm intelligent; Particle swarm optimization (PSO)",,,,,,,,,,,,,,,,"Logenthiran, T., Srinivasan, D., Phyu, E., Particle Swarm Optimization for Demand Side Management in Smart Grid (2012) Newcastle University, Singapore, 3 (3), pp. 1244-1252. , september; Kinhekar, N., Gupta, H.O., (2015) Particle Swarm Optimization Based Demand Response for Residential Consumers; Nayak, S., (2015) Demand Side Management of Residential Loads in A Smart Grid Using 2D Particle Swarm Optimization Technique, , Anusandhan University, Bhubaneswar, India; Michael, A.A.P., (2009) Scheduling of Demand Side Resources Using Binary Particle Swarm Optimization, 24 (3), pp. 1173-1180. , August; Kennedy, J., Eberhart, R., Particle Swarm Optimization (1995) Proc. IEEE int'L. Conf. on Neural Networks (Perth, Australia), pp. 1942-1948. , IEEE Service Center, Piscataway, NJ, IV; Matlab Online Help, , http://www.MathWorks.com; Gudi, N., Wang, L., Devabhaktuni, V., (2012) A Demand Side Management Based Simulation Platform Incorporating Heuristic Optimization for Management of Household Appliances, pp. 185-193. , June; Dobakhshari, D.G., Gupta, V., (2016) Optimal Contract Design for Incentive-Based Demand Response, pp. 3219-3224. , July 6-8, Boston, MA, USA; Abrahamse, W., Steg, L., Vlek, C., Rothengatter, T., A Review of Intervention Studies Aimed at Household Energy Conservation, pp. 273-291. , University of Groningen, Grote Kruisstraat 2/1, 9712 TS Groningen, The Netherlands; Kinhekar, N., Padhy, N.P., Gupta, H.O., Multiobjective demand side management solutions for utilities with peak demand deficit (2014) Int. J. Elect. Power Energy Syst, 55, pp. 612-619. , Feb; Kinhekar, N., Padhy, N.P., Gupta, H.O., (2013) Demand Side Management for Residential Consumers",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 IEEE International Conference on Information, Communication, Instrumentation and Control, ICICIC 2017","17 August 2017 through 19 August 2017",,134524,,9781509063130,,,"English","IEEE Int. Conf. Inf., Commun., Instrum. Control, ICICIC",Conference Paper,"Final","",Scopus,2-s2.0-85050792148
"Anil Singare A., Kale B.S., Suresh Bhole K.","57205061655;57194765857;55485785300;","Experimental Characterization of Meso-Micro Fractals from Nanoparticle Seeded Resin in Lifting Plate Hele-Shaw Cell",2018,"Materials Today: Proceedings","5","11",,"24213","24220",,8,"10.1016/j.matpr.2018.10.216","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058419104&doi=10.1016%2fj.matpr.2018.10.216&partnerID=40&md5=bcb2efc078139007dc750bef065c4dbe","Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Datta Meghe College of Engineering, Airoli, Navi Mumbai, Maharashtra, 400701, India","Anil Singare, A., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Kale, B.S., Datta Meghe College of Engineering, Airoli, Navi Mumbai, Maharashtra, 400701, India; Suresh Bhole, K., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Various processes are developed to fabricate meso and micro size fractal structures for wide variety of engineering applications. Various types of fluid flows are studied and are deployed to develop meso and micro fractal structures. Lift Plate Hele-Shaw fluid flow also termed as Saffman-Taylor instability is one of the fluid phenomenon's which can be easily used to fabricate such structures. In this process, fractals are formed by capturing the fluid droplet between thin gaps of two flat parallel plates and moving the upper plate in controlled manner. The formation of the fractal depends on process parameters; viz velocity of plate, fluid property and gap between the plates. This paper presents the exhaustive characterization of fluid composed of photopolymer seeded with the nanopowder in lifting plate Hele-Shaw cell. The prepared resin is mixture of monomer Hexanediol Diacrylate (HDDA) and photoinitiator Benzoyl Ethyl Ether (BEE) seeded with ceramic nanopowder. The fractal growth is observed from the prepared resin under lifting plate Hele Shaw cell through designed of experiments. The parameters; fluid separation velocity and gap between the plates are varied through developed system and effect of viscosity is observed by varying the loading of the ceramic nanopowder. The exhaustive characterization of the process has presented the effect of parameters and its interactions on the formation of the fractal. Further the fractal growth is presented in the dimensionless manner for its generalization. The experimental characterization has given a generalised methodology for the formation of controlled fractals or to mimic various meso and micro fractals available in the nature. © 2018 Elsevier Ltd.","Hele-Shaw Flow; meso fractals; micro fractals; nanoparticle; Saffman-Taylor instability; Viscous fingering","Ceramic materials; Flow of fluids; Fractals; Nanostructured materials; Plates (structural components); Resins; Ceramic nanopowders; Experimental characterization; Fractal growth; Fractal structures; Hele-Shaw cells; Hele-Shaw flow; Meso fractal; Micro fractal; Saffman-Taylor instability; Viscous fingering; Nanoparticles",,,,,,,,,,,,,,,,"Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Manuf. Syst., 12, pp. 43-68; Bhole, K., Gandhi, P., Kundu, T., (2014) J. Appl. Phys, 116, pp. 043105-043110; Gandhi, P., Bhole, K., (2013) J. Micro Nano-Manuf., 1, pp. 041002-041018; Gandhi, P., Bhole, K., (2011) ASME Intl, pp. 393-400. , Denver, USA Mechanical Engineering Congress and Exposition; Ladd, C., So, J.H., Muth, J., Dickey (2013) Adv. Mater., 25, pp. 5081-5085; Jang, J.H., Ullal, C.K., Maldovan, M., Gorishnyy, T., Kooi, S., Koh, C., Thomas, E.L., (2007) Adv. Funct. Mater., 17, pp. 3027-3041; Jang, D.C., Meza, L.R., Greer, F., Greer, J.R., (2013) Nat. Mater., 12, pp. 893-898; Cohen, D.L., Malone, E., Lipson, H., Bonassar, L.J., (2006) Tissue Eng., 12, pp. 1325-1335; Kondic, L., Palffy-Muhoray, P., Shelley, M.J., (1996) Phys. Rev. Lett., 54, pp. R4536-R4539; Kondic, L., Shelley, M.J., Palffy-Muhoray, P., (1998) Phys. Rev. Lett., 80; Teodorescu, R., (2006) Phys. Rev. Lett., 7; Hadavinia, H., Advani, S.G., Fenner, R.T., (1995) Eng Anal Bound Elem., 16, pp. 183-195; Kabiraj, S.K., Tarafdar, S., (2003) Physica A., 328, pp. 305-314; Kim, H., Funada, T., Joseph, D.D., Homsy, G.M., (2009) Phys Fluids 21; Miranda, J.A., Widom, M., (1998) Physica D, 120, pp. 315-328; Shelley, M.J., Tia, F.-R., Krzysztof Wlodarski, J., (1997) Nonlinearity., 10, pp. 1471-1495; Brandao, R., Fontana, J.V., Miranda, J.A., (2013) Phys. Rev. Lett., pp. 1-7. , 063003; Lindner, A., Bonn, D., Eugenia Corvera Poire, Martine Ben Amar, Jacques Meunier (2002) J. Fluid Mech., 469, pp. 237-256; Holzbecher, E., (2009) COMSOL Conference Milan; Dutta Choudhury, M., Tarafdar, S., Indian (2015) J Phys., 89, pp. 471-477; Cummings, L.J., Howison, S.D., King, J.R., (1999) J. Appl. Math., 10, pp. 635-680; Kh Imomnazarov, Kh., (2004) J. Math Comput Model., 40, pp. 5-10; Fontana, J.V., Dias, E.O., Miranda, J.A., (2014) J. APS., pp. 1-8; Tanveerul, I., Prasanna, S.G., (2016) J, Nature., 6, p. 37187","Anil Singare, A.; Sardar Patel College of EngineeringIndia; email: asingare19@gmail.com","Basavarajappa S.Rao C.S.P.Nagaraja S.R.",,"Elsevier Ltd","2017 International Conference on Advances in Materials and Manufacturing Applications, IConAMMA 2017","17 August 2017 through 19 August 2017",,142973,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85058419104
"Bhole K.S., Janbandhu M.","55485785300;57205059832;","Design and Development of Double Spiral Shaped Flexural Feed Stage for Micro-drilling Workstation",2018,"Materials Today: Proceedings","5","11",,"25468","25476",,3,"10.1016/j.matpr.2018.10.352","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058408074&doi=10.1016%2fj.matpr.2018.10.352&partnerID=40&md5=8b718d533668d2b02a4aedc0c388b6c0","Sardar Patel College of Engineering, Mumbai, Andheri (West), 400058, India","Bhole, K.S., Sardar Patel College of Engineering, Mumbai, Andheri (West), 400058, India; Janbandhu, M., Sardar Patel College of Engineering, Mumbai, Andheri (West), 400058, India","Flexure based system is class of compliant mechanisms which allows motion by bending the load elements. Accurate linear motion is one of the features of the flexure based systems. Due to these advantages flexural based mechanisms are used in various applications demanding micro and nano-positioning accuracy. The established high positioning accuracy of flexural mechanisms sets the motivation and promise for its utility in development of economical micro-drilling work station. This paper presents development of flexural guideways for micro-drilling workstation. Flexural systems are light in weight, possess low friction and require no lubrication. Use of spiral shape flexural guideways is the key element for accurate linear motion in feed direction in the developed system. In this paper, proposed spiral shape flexural mechanism is analyzed for its linear motion and strength using finite element analysis. The linear motion of the flexural feed stage is observed under feed force and undesirable lateral forces. The low axial stiffness and high radial stiffness is required to provide accurate linear motion even under presence of the undesirable lateral forces. Based on finite element analysis, the flexural design is converged and then accordingly fabricated for its implementation. The experimental results have shown that the flexural mechanism is capable of providing linear motion within ±5 μm accuracy. Further implementation of flexural stage could reduce the positioning errors. The inherent accuracy in linear motion of the flexural guideways has enabled to make micro-drilling up to 50 μm with ease and simplicity in design. © 2018 Elsevier Ltd.","Flexural Mechanisms; Micro-drilling; Micro-milling; Microfabriction; Scanning Systems","Drills; Finite element method; Infill drilling; Milling (machining); Stiffness; Finite element analyse; Flexural mechanism; Lateral force; Linear motion; Micro milling; Micro-drilling; Microfabriction; Positioning accuracy; Scanning systems; Spiral shape; Mechanisms",,,,,"Science and Engineering Research Board, SERB: ECR/2016/000760","Authors would like to acknowledge financial support for this work by Science and Engineering Research Board (SERB) of Government of India (Project reference number ECR/2016/000760) and Technical Education Quality Improvement Program-II (TEQIP-II). Authors also acknowledge the support of Sardar Patel College of Engineering Andheri, Mumbai to carry out the project work.",,,,,,,,,,"Stephen, A., Schrauf, G., Mehrafsun, S., Vollertsen, F., (2014) Proc. CIRP, 24, pp. 130-133; Gandhi, P.S., Deshmukh, S., (2009) J. Micromech. Microeng., 20, pp. 1-11; Deshmukh, S., Gandhi, P.S., (2008) J. Mater. Process. Technol, 209, pp. 1275-1285; Gandhi, P.S., Bhole, K.S., (2011) IMECE2011-62473, 11, pp. 393-399; Gandhi, P.S., Bhole, K.S., Chaudhari, N., (2012), pp. 959-964. , MSEC2012-7357; Gandhi, P.S., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Manuf. Syst, 12, pp. 43-68; Gandhi, P.S., Bhole, K.S., (2013) J. Micro Nano-Manuf., 1, pp. 0410021-0410028; Bhole, K.S., Gandhi, P.S., Kundu, T., (2014) J. Appl. Phys, 116, pp. 043105-043110; Marquardt, E., Radebaugh, R., Kittel, P., (1992) Proc. 7th International Cryogenics Conf., pp. 783-804; Gaunekar, A.S., Goddenhenrich, T., (1996) Cryogenics, 36, pp. 359-364; Lee, C.C., Pan, R.B., Cryocoolers (1997) New York: Plenum Press, 9, pp. 413-420; Trollier, T., Ravex, A., Mullie, J., ISS Cryocoolers (2003) New York: Plenum Press, 12, pp. 31-35; Rawlings Richard, M., Miskimins, S.M., (2000) Proc. of SPIE, Infrared Technology and Applications XXVI, 4130, pp. 406-412; Gaunekar, A.S., Widdowson, G.P., (2005) Precis. Eng, 29, pp. 81-85; Chen, N., Chen, X., Wu, Y.N., Yang, C.G., (2006) Cryogenics, 46, pp. 409-419; Tian, Y., Shirinzadeh, B., Zhang, D., (2009) Precis. Eng, 33, pp. 160-166; Tian, Y., Zhang, D., Shirinzadeh, B., (2011) Precis. Eng, 35, pp. 554-565; Simcock, C.J., (2007) Cryocoolers, 14, pp. 335-343; Qi, Y., Wu, Y., Zhang, H., Chen, X., (2009) ASME International Conference, pp. 805-809. , IDETC/CIE, DETC2009-86371; Phakatkar, H., Sahasrabudhe, A., Lele, M., (2015) J. Mater. Sci. Surface Eng, 3 (2), pp. 211-215; Longsworth, R.C., (1993) NASA Contract Report, 4538; Tonny, B., Jeroen, M., Peter, B., Proc, S.P.I.E., (2003) Infrared Technology and Applications XXVIII, 4820, pp. 33-42; (2007) Optomechanical Translational Stages, , http://www.holmarc.com/opto_mechanics.html, Holmarc; (2015) BLDC Motors, , http://www.maxonmotor.in, Maxon; (2015) Micro Tools A., , http://axismicrotools.com/micro-drills-reamers, micro-drill bits; (2015), http://www.showatool.com/en/products/rsc/index.php, Showa Tools Limited chuck collet; (2012) Optical Microscope, , http://www.olympusims.com/en/microscope/mx51/, Olympus; Hyacinth, X., Suganthi, U., Ramasubbu, N.N., (2015) Int. J. Adv. Manuf. Tech., 81, pp. 199-217","Bhole, K.S.; Sardar Patel College of EngineeringIndia; email: kiran_bhole@spce.ac.in","Basavarajappa S.Rao C.S.P.Nagaraja S.R.",,"Elsevier Ltd","2017 International Conference on Advances in Materials and Manufacturing Applications, IConAMMA 2017","17 August 2017 through 19 August 2017",,142973,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85058408074
"Sawant D., Bhole K., Buktar R.","57205060732;55485785300;57205055392;","Characterization of Sublimation Based Microstructure Release Technique to Combat Stiction Effect",2018,"Materials Today: Proceedings","5","11",,"24059","24067",,1,"10.1016/j.matpr.2018.10.199","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85058379887&doi=10.1016%2fj.matpr.2018.10.199&partnerID=40&md5=143d6ac489bd68b7623f286ce52995d7","Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Sawant, D., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Bhole, K., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India; Buktar, R., Sardar Patel College of Engineering, Andheri, Mumbai, 400058, India","Micro-arrayed structures such as scaffolds, comb actuations are used in wide range of biological and micro-electromechanical systems (MEMS). These micro-arrayed structures are generally consists of high aspect ratio of polymer based materials. These polymer based structures are fabricated from liquid resin cured by controlled exposure of laser beam. Post processing (removal of uncured resin from cured sections) of these micro arrayed structures is challenging task and is often prone to failure like stiction. It is major class of failure in which microstructures are entangled because of the capillarity force coming into play during conventional evaporative drying technique. This paper presents solution to this menace by eliminating the liquid -gas interface by sublimation based drying technique. Paper presents exhaustive characterization of sublimation based post processing technique for typically high aspect ratio polymer microstructure. Vacuum Pump, solid state refrigerator and t-butyl alcohol (solvent) are used as main constituents in design of the sublimation based system. The designed system is characterized for its performance measures of solving the problem. The solidification time of solvent against the energy input to the solid state refrigeration and sublimation time of solvent against flow rate for constant volume are considered in the characterization of the process. After characterization, test experiments are performed on the bird's feather as naturally available microstructures to assess effectiveness of the process. The system is showing good result of releasing the microstructure without stiction. Further mathematical modeling of cantilever type structure is done to predict the stiction effect. The developed system has shown the potential to solve the problem of stiction effect and dry release the microstructure efficiently and effectively. © 2018 Elsevier Ltd.","high aspect ratio structures; MEMS; Microstructure release; polymer microstructure; Stiction effect; t-butyl alcohol","Aspect ratio; Curing; Drying; Laser beams; MEMS; Polyimides; Solvents; Drying technique; High aspect ratio; High aspect ratio structures; Liquid resin; Microstructure release; Polymer based; Polymer microstructures; Polymer-based materials; Stiction effect; T-butyl alcohol; Microstructure",,,,,,,,,,,,,,,,"Zhang, X., Jiang, X.N., Sun, C., (1999) Sensor Actuat A-Phys, 77, pp. 149-156; Maruo, S., Ikuta, K., (2002) Sensor Actuat A-Phys, 100, pp. 70-76; Jiang, X.N., Sun, C., Zhang, X., Xu, B., Ye, Y.H., (2000) Sensor Actuat A-Phys, 87, pp. 72-77; Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Manuf. Syst., 12, pp. 43-68; Bhole, K., Gandhi, P., Kundu, T., (2014) J. Appl. Phys, 116, pp. 043105-043110; Gandhi, P., Bhole, K., (2013) J. Micro Nano-Manuf., 1, pp. 041002-041018; Gandhi, P., Bhole, K., (2011) ASME Intl, pp. 393-400. , Denver, USA Mechanical Engineering Congress and Exposition; Marques, C., Desta, Y.M., Rogers, J., Murphy, M.C., Kelly, K., (1997) J. Microelectromech. S., 6 (4), pp. 329-336; Kelly, G., Alderman, J., Lyden, C., Barrett, J., (1997) J. Micromech. Microeng., 7, pp. 99-103; Dario, P., Carrozza, M.C., Croce, N., Montesi, M.C., Cocco, M., (1995) J. Micromech. Microeng., 5, pp. 64-71; Yee, Y., Chun, K., Duk Lee, J., Kim, C., (1996) Sensor Actuat A-Phys, 52, pp. 145-150; Legtenberg, R., Tilmans, H.A.C., Elders, J., Elwenspoek, M., Sensor Actuat A 41919940230-238; Kim, C.-J., John, Y., Kim, B., Sridharan, (1998) Sensor Actuat A-Phys, 64, pp. 17-26; Dongmin, Wu., Fang, N., Sun, C., Zhang, X., (2006) Sensors Actuat A-phys, 128, pp. 109-115; Ramsak, M., Ravnik, J., Zadravec, M., Hribersek, M., Iljaz, J., (2017) Eng Anal Bound Elem, 77, pp. 145-156; Hwang, Y., Candler, R.N., (2012) J Microelectromech S., 21 (6), pp. 1282-1284; Mastrangelo, C.H., Hsu, C.H., (1993) J. Microelectromech. S., 2, pp. 33-43; Mastrangelo, C.H., Hsu, C.H., (1993) J. Microelectromech. S., 2, pp. 44-55; Zhang, Y., Zhao, Y.-P., (2012) Int. J. Solids Struct., 49, pp. 2203-2214; Rusu, F., Pustan, M., Birleanu, C., Müller, R., Voicu, R., Baracu, A., (2015) Appl. Surf. Sci., 358, pp. 634-640; Quist, B.W., Mitra, R.A.F., Hartmann, J.Z., Biomech, J., (2011), 44, pp. 2275-2781; Cameron, G.J., Wess, T.J., Bonser, R.H.C., (2003) J Struct Biol, 143, pp. 118-123","Sawant, D.; Sardar Patel College of EngineeringIndia; email: durveshsawant420@gmail.com","Basavarajappa S.Rao C.S.P.Nagaraja S.R.",,"Elsevier Ltd","2017 International Conference on Advances in Materials and Manufacturing Applications, IConAMMA 2017","17 August 2017 through 19 August 2017",,142973,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85058379887
"Bhole K., Sonavane V.","55485785300;57204174132;","Parameter based method for three arm spiral shaped flexural bearing",2018,"Materials Today: Proceedings","5","9",,"19380","19390",,4,"10.1016/j.matpr.2018.06.298","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054847116&doi=10.1016%2fj.matpr.2018.06.298&partnerID=40&md5=635ea2b20c7ce13bf9ed715f4ffa1fc7","Sardar Patel College of Engineering, Andheri-(West)-Mumbai, 400058, India","Bhole, K., Sardar Patel College of Engineering, Andheri-(West)-Mumbai, 400058, India; Sonavane, V., Sardar Patel College of Engineering, Andheri-(West)-Mumbai, 400058, India","Spiral slot based flexural bearings are widely used in sterling engine in cryogenic application. This paper deals with parametric analysis of three spiral arm, double stage spiral slot flexural bearing of constant inner and outer diameter. The parameter analysis was conducted on ANSYS. In the parameter analysis; spiral angle, thickness of the flexural plate, spiral slot thickness were varied at different levels to study the axial displacement, axial and radial stiffness of the system and stresses developed. Among various geometrical attributes spiral angle, slot thickness and pitch of the spiral are the outcomes of the design for desired axial displacement for considered flexural plate thickness. The results obtained are generalized for the purpose of developing the design methodology. Further these results are presented in graphical way for design simplification leading to determination of geometrical parameters of flexural bearing based on predetermined geometrical and material constants. © 2018 Elsevier Ltd. All rights reserved.","Compliant mechanisms; Flexural mechanisms; Parameter analysis; Spiral arm, Cryogenics","Compliant mechanisms; Cryogenics; Geometry; Axial displacements; Cryogenic applications; Flexural bearing; Flexural mechanism; Parameter analysis; Spiral angle; Spiral arm, cryogenic; Spiral arms; Spiral slots; Sterling engines; Mechanisms",,,,,"Science and Engineering Research Board, SERB: ECR/2016/000760","Authors would like to acknowledge financial support for this work by Science and Engineering Research Board (SERB) of Government of India (Project reference number ECR/2016/000760). Authors also acknowledge the support of Sardar Patel College of Engineering Andheri, Mumbai to carry out the project work.",,,,,,,,,,"Stephen, A., Schrauf, G., Mehrafsun, S., Vollertsen, F., (2014) Proc. CIRP, 24, pp. 130-133; Gandhi, P.S., Deshmukh, S., (2009) J. Micromech. Microeng., 20, pp. 1-11; Deshmukh, S., Gandhi, P.S., (2008) J. Mater. Process. Technol, 209, pp. 1275-1285; Gandhi, P.S., Bhole, K.S., (2011) IMECE2011-62473, 11, p. 393; Gandhi, P.S., Bhole, K.S., Chaudhari, N., (2012) MSEC2012-7357, p. 959; Gandhi, P.S., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., (2013) J. Adv. Manuf. Syst, 12, pp. 43-68; Gandhi, P.S., Bhole, K.S., (2013) J. Micro Nano-Manuf., 1. , 041002-1 041002-8; Bhole, K.S., Gandhi, P.S., Kundu, T., (2014) J. Appl. Phys, 116. , 043105-1 10; Marquardt, E., Radebaugh, R., Kittel, P., (1992) Proc. 7th International Cryogenics Conf., pp. 783-804; Jomde, A., Bhojwani, V., Kedia, S., Jangale, N., Kolas, K., Khedkar, P., Deshmukh, S., (2017) Mater. Today: Proc., 4, pp. 10184-10188; Gaunekar, A.S., Goddenhenrich, T., (1996) Cryogenics, 36, pp. 359-364; Lee, C.C., Pan, R.B., (1997) Cryocoolers, 9, pp. 413-420. , New York: Plenum Press; Trollier, T., Ravex, A., Mullie, J., (2003) ISS Cryocoolers, 12, pp. 31-35. , New York: Plenum Press; Rawlings Richard, M., Miskimins, S.M., (2000) Proc. of SPIE, Infrared Technology and Applications XXVI, 4130, pp. 406-412; Gaunekar, A.S., Widdowson, G.P., (2005) Precis. Eng, 29, pp. 81-85; Chen, N., Chen, X., Wu, Y.N., Yang, C.G., (2006) Cryogenics, 46, pp. 409-419; Tian, Y., Shirinzadeh, B., Zhang, D., (2009) Precis. Eng, 33, pp. 160-166; Tian, Y., Zhang, D., Shirinzadeh, B., (2011) Precis. Eng, 35, pp. 554-565; Simcock, C.J., (2007) Cryocoolers, 14, pp. 335-343; Qi, Y., Wu, Y., Zhang, H., Chen, X., (2009) ASME International Conference, IDETC/CIE, pp. 805-809. , DETC2009-86371; Phakatkar, H., Sahasrabudhe, A., Lele, M., (2015) J. Mater. Sci. Surface Eng, 3 (2), pp. 211-215; Amit Jomde, A., Virendra Bhojwani, A., Kharadi, F., Deshmukh, S., (2017) Mater. Today: Proc., 4, Part A, pp. 2478-2486; Amoedo, S., Thebaud, E., Gschwendtner, M., White, D., (2016) Cryogenics, 76, pp. 1-9","Sonavane, V.; Sardar Patel College of EngineeringIndia; email: vinit.sonavane93@gmail.com","Singh S.K.Purohit R.Parveen A.",,"Elsevier Ltd","8th International Conference on Materials Processing and Characterization, ICMPC 2018","16 March 2018 through 18 March 2018",,140097,22147853,,,,"English","Mater. Today Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85054847116
"Rane S.B., Mishra N.","56149402100;57202760964;","Roadmap for business analytics implementation using DIPPS model for sustainable business excellence: Case studies from the multiple fields",2018,"International Journal of Business Excellence","15","3",,"308","334",,17,"10.1504/IJBEX.2018.092574","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85049250309&doi=10.1504%2fIJBEX.2018.092574&partnerID=40&md5=726090dbc2a3261d1317d2a620d68fc1","Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400 058, India","Rane, S.B., Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400 058, India; Mishra, N., Department of Mechanical Engineering, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai, 400 058, India","Today the organisations are increasingly adopting analytics for breakthrough business results. There are enough talks about potentials of business analytics, software solutions on analytics and data visualisations. However, very few success stories are published and easily available in public domain. The focus is required to translate potentials of analytics into the breakthrough business results. This paper proposes discover-innovate-predict-perform-sustain (DIPPS) model for the business excellence through analytics. It also presents success stories of big data analytics and industrial internet of the things (IIoT) from the multiple fields for the breakthrough business results. The hypothesis testing indicates that the organisations deploying the DIPPS model have higher success rate and the probability of achieving their analytics goals. Copyright © 2018 Inderscience Enterprises Ltd.","ANN; Artificial neural network; Business analytics; Business excellence; Delphi method; DIPPS; Discover- innovate- predict- perform- sustain model; F-test and t-test; Hypothesis testing; IIoT; Industrial internet of the things; Logistic regression model; Multiple regression model",,,,,,,,,,,,,,,,,"Akopov, A., Parallel genetic algorithm with fading selection' (2014) International Journal of Computer Applications in Technology, 49 (3-4), pp. 325-331; Akter, S., Wamba, S., Gunasekaran, A., Dubey, R., Childe, S., How to improve firm performance using big data analytics capability and business strategy alignment?' 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J. Bus. Excellence",Article,"Final","",Scopus,2-s2.0-85049250309
"Phule R.R., Choudhury D.","56578640500;7103392045;","Assessing and Mapping Seismic Liquefaction Hazard, Vulnerability, and Risk of the Transportation Infrastructure of Mumbai City, India",2018,"Geotechnical Special Publication","2018-June","GSP 291",,"658","666",,2,"10.1061/9780784481462.064","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85048889591&doi=10.1061%2f9780784481462.064&partnerID=40&md5=73a0efa8ea04636a36da971cef881e7b","Sardar Patel College of Engineering, Dept. of Civil Engineering, Bhartiya Vidya Bhavan's Campus, Andheri West, Mumbai, 400058, India; Indian Institute of Technology Bombay, Powai, Mumbai, 400078, India","Phule, R.R., Sardar Patel College of Engineering, Dept. of Civil Engineering, Bhartiya Vidya Bhavan's Campus, Andheri West, Mumbai, 400058, India; Choudhury, D., Indian Institute of Technology Bombay, Powai, Mumbai, 400078, India","In this paper, a methodology is presented to conduct seismic liquefaction hazard, vulnerability, and risk assessment (HRVA) and mapping for the transportation infrastructure such as railway stations, bus stops and depots, railway and metro lines, aeroways, bridges, and highways and roads, of Mumbai city by using the data obtained from various resources such as field and lab soil test results along with openstreetmap (OSM) data, on a GIS platform, for different earthquake moment magnitude (Mw). The hazard map indicates that some areas in the city are prone to low to moderate seismic liquefaction while the vulnerability map indicates that highways and roads in the city are highly vulnerable. These hazard and vulnerability maps are combined to produce the seismic liquefaction risk maps for the city. These risk maps can be a source of preliminary information for disaster management response. © 2018 American Society of Civil Engineers.",,,,,,,,,,,,,,,,,,"Baecher, G.B., Christian, J.T., (2003) Reliability and Statistics in Geotechnical Engineering, , John Wiley and Sons, London; Baise, L.G., Higgins, R.B., Brankman, C.M., Liquefaction hazard mapping-statistical and spatial characterization of susceptible units (2005) J. Geotech. and Geoenv. Eng, 132 (6), pp. 705-715; Brabhaharan, P., Earthquake ground damage hazard studies and their use in riskmanagement in the wellington region, New Zealand (2000) Proc. 12th World Conf. on Earthquake Eng, , Auckland, New Zealand Paper No.1588; Chakraborty, J., Tobin, G.A., Montz, B.E., Population evacuation: Assessing spatial variability in geophysical risk and social vulnerability to natural hazards (2005) Nat. Haz. Rev, 6 (1), pp. 23-33; Choudhury, D., Phanikanth, V.S., Mhaske, S.Y., Phule, R.R., Chatterjee, K., Seismic liquefaction hazard and site response for design of piles in mumbai city (2014) Indian Geotech. 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Redlands, CA: Environmental Systems Research Institute; (2013) Google Earth Copyrighted 2013, , http://www.google.com/earth, May, 2013; Habibullah, B.M., Pokhrel, R.M., Kuwano, J., Tachibana, S., Gis-based soil liquefaction hazard zonation due to earthqauke using geotechnical data (2012) Int J. of Geomat, 2 (1), pp. 154-160; Idriss, I.M., Boulanger, R.W., (2008) Soil Liquefaction during Earthquakes, , Earthquake Engineering Research Institute, Oakland, CA; (2002) Criteria for Earthquake Resistant Design of Structures-Part 1: General Provisions and Buildings, , IS 1893: Part 1 Bureau of Indian Standards, New Delhi; Knudsen, K.L., Bott, J.J., Woods, M.O., McGuire, T.L., Development of a liquefaction hazard screening tool for caltrans bridge sites (2009) Proc. 2009 ASCE Technical Council on Lifeline Earthquake (TCLEE) Conference, pp. 573-584. , Oakland; Li, X., Li, G., Li, C., Analysis of ground motion parameters and ground liquefaction prediction using gis for kunming basin, China (2009) Proc., International Conference on Geo-Spatial Solutions for Emergency Mgmnt, , Beijing, China, 78-83; (2013) Map Data Copyrighted OpenStreetMap Contributors and, , http://www.openstreetmap.org, May; Menezes, G.B., Galvao, T.B., Geostatistical assessment of liquefaction models: A gis-based approach (2009) Proc., 10th International Symposium on Environmental, Geotechnical and Sustainable Development, , Bochum; Mhaske, S.Y., Choudhury, D., Gis-based soil liquefaction susceptibility map of mumbai city for earthquake events (2010) J. App. Geophy, 70, pp. 216-225; Mostafa, H., Baise, L., Hafez, H., Zahaby, K.L., A gis-based assessment of liquefaction potential of the city of new damietta, Egypt (2010) Geophysical Research Abstracts (GRA), Conference Series for General Assemblies of the European Geosciences Union (EGU), pp. 2010-15630; Mote, T.I., Dismuke, J.N., Screening-level liquefaction hazard maps for Australia (2011) Proc., Australian Earthquake Engineering Society 2011 Conference, , Barossa Valley, South Australia; Phule, R.R., Choudhury, D., Seismic liquefaction hazard zonation and contour mapsfor mumbai city using open source gis (2015) Disaster Advances, 8 (7), pp. 20-33; Phule, R.R., Choudhury, D., Vulnerability mapping for disaster assessment using arcgis tools and techniques for mumbai city, India (2015) Proc. of 16th ESRI India User Conference, pp. 1-10. , December 3-5, New Delhi, India; Phule, R.R., Choudhury, D., Seismic reliability based analysis and gis mapping of cyclic mobility of clayey soils of mumbai city (2017) India, Nat. Haz, 85 (1), pp. 139-169; Piya, B.K., (2004) Generation of A Geologic Database for the Liquefaction Hazard Assessment in Kathmandu Valley, , M.Sc Dissertation Report, International Institute for Geoinformation Science and Earth Observation, Enschede, Netherlands; Sinha, R., Adarsh, N., A postulated earthquake damage scenario for mumbai (1999) ISET J. Earthquake Tech, 36 (2-4), pp. 169-183; Tanaka, Y., Agata, S., Knudsen, V., Kayen, R., Assessment of ground defrmation due to soil liquefaction in the san jose, California area by using geotechnical it (2006) Proc., 8th U.S. National Conference on Earthquake Engineering, , San Francisco, California, USA; Tosun, H., Syrek, E., Orhan, A., Savas, H., Turkoz, M., Soil liquefaction potential in eskisehir, nw Turkey (2011) Nat. Haz. Earth Syst. 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"Kirkire M.S., Rane S.B., Singh S.P.","57190767311;56149402100;57199578228;","Integrated SEM-FTOPSIS framework for modeling and prioritization of risk sources in medical device development process",2018,"Benchmarking","25","1",,"178","200",,17,"10.1108/BIJ-07-2016-0112","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85041602777&doi=10.1108%2fBIJ-07-2016-0112&partnerID=40&md5=b007eed5d7f1710dc2502862374e2720","Mechanical Engineering, Finolex Academy of Management and Technology, Ratnagiri, India; Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Management Studies, Indian Institute of Technology Delhi, New Delhi, India","Kirkire, M.S., Mechanical Engineering, Finolex Academy of Management and Technology, Ratnagiri, India; Rane, S.B., Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Singh, S.P., Management Studies, Indian Institute of Technology Delhi, New Delhi, India","Purpose: The purpose of this paper is to outline and prioritizes risk sources in medical device development (MDD) process using an integrated “structural equation modeling” (SEM) and fuzzy “technique for order performance by similarity to ideal solution (TOPSIS)” framework. Design/methodology/approach: Risk sources which deter MDD process are explored through literature review. Initial structural model is proposed, factor loadings are determined by exploratory factor analysis and model fit is established by confirmatory factor analysis. Further, the sources are ranked using FTOPSIS, and sensitivity analysis is carried to check robustness of results. Findings: The sources of risks have catastrophic effect on MDD process. The initial SEM model developed based on survey of experts is found reliable and valid which breaks up the risk sources into three categories – internal sources of risks, user-related sources of risks and third-party-related sources of risks. The risk sources are ranked and prioritized based on perspective of experts from the categories using FTOPSIS; unmet user needs/requirements is found as the most important source of risk. Results of sensitivity analysis confirm that the factors are relatively less sensitive to criteria weights confirming reliability of initial solution. Research limitations/implications: The proposed methodology combines qualitative and quantative approaches, making it little complex and lengthy, but results in dual confirmation. Practical implications: The outcomes of this research will be of prime use for MDD industries to mitigate risk sources. It will help to increase the success rate of MDD. Originality/value: Integrated SEM-FTOPSIS provides a unique and effective structural modeling-based decision support tool. The framework can be effectively utilized in other domains, and failure events of medical devices can be potentially controlled by applying risk mitigation measures. © 2018, Emerald Publishing Limited.","Fuzzy TOPSIS framework; Medical device development process; Risk sources; Structural equation modelling",,,,,,"All India Council for Technical Education, AICTE: 20/AICTE/ RIFD/RPS (POLICY-1) 61/2013-14","This work was supported by All India Council for Technical Education (AICTE) under Grant Ref No. 20/AICTE/ RIFD/RPS (POLICY-1) 61/2013-14. The authors are grateful to the concerned authorities and the MDD experts who contributed to this study.",,,,,,,,,,"Aguwa, C.C., Monplaisire, L., Sylajakumari, P.A., Rules modification on a fuzzy based modular architecture for medical device design and development (2012) IIE Transactions on Healthcare Systems Engineering, 2 (1), pp. 50-61; Aktepe, A., Ersoz, S., Toklu, B., Customer satisfaction and loyalty analysis with classification algorithms and structural equation modeling (2014) Computers & Industrial Engineering, 86, pp. 95-106; Aloini, D., Martini, A., Pellegrini, L., A structural equation model for continuous improvement: a test for capabilities, tools and performance (2011) Production Planning & Control: The Management of Operations, 22 (7), pp. 628-648; Aydogan, E.K., Performance measurement model for Turkish aviation firms using the rough-AHP and TOPSIS methods under fuzzy environment (2011) Expert Systems with Applications, 38 (4), pp. 3992-3998; Behzadian, M., Otaghsara, S.K., Yazdani, M., Ignatius, J., A state-of the-art survey of TOPSIS applications (2012) Expert Systems with Applications, 39 (17), pp. 13051-13069; 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Marsh, H.W., Balla, J.R., McDonald, R.P., Goodness-of-fit indexes in confirmatory factor analysis: the effect of sample size (1988) Psychological Bulletin, 103 (3), pp. 391-410; Martin, J.L., Clark, D.J., Morgan, S.P., Crowe, J.A., Murphy, E., A user centred approach to requirements elicitation in medical device development: a case study from an industry perspective (2012) Applied Ergonomics, 43 (1), pp. 184-190; Medina, L.A., Kremer, G.E., Wysk, R.A., Supporting medical device development: a standard product design process model (2012) Journal of Engineering Design, 24 (2), pp. 1-37; Mendes, L., Machado, J., Employees’ skills, manufacturing flexibility and performance: a structural equation modelling applied to the automotive industry (2014) International Journal of Production Research, 53 (13), pp. 4087-4101; Metaxas, I.N., Koulouriotis, D.E., Spartalis, S.H., A multicriteria model on calculating the sustainable business excellence index of a firm with fuzzy AHP and TOPSIS (2016) Benchmarking: An International Journal, 23 (6), pp. 1522-1557; Mishra, S., Datta, S., Mahapatra, S.S., Grey based and fuzzy TOPSIS decision making approach for agility evaluation of mass customization systems (2013) Benchmarking: An International Journal, 20 (4), pp. 440-462; Mittal, V.K., (2013) Development and validation of drivers for, barriers to and stakeholders of green manufacturing, , PhD dissertaion, Birla Institute of Technology and Science, Pilani; Mittal, V.K., Sangwan, K.S., Development of a model of barriers to environmentally conscious manufacturing implementation (2014) International Journal of Production Research, 52 (2), pp. 584-594; Mittal, V.K., Sangwan, K.S., Development of a structural model of environmentally conscious manufacturing drivers (2014) Journal of Manufacturing Technology Management, 25 (8), pp. 1195-1208; Mittal, V.K., Sangwan, K.S., Prioritizing drivers for green manufacturing: environmental, social and economic perspectives (2014) Procedia CIRP, 15, pp. 135-140; Mol, B.A.D., Regulation of risk management of medical devices and the role of litigation (2014) Journal of Risk Research, 17 (6), pp. 735-748; Money, A.G., Barnett, J., Kuljis, J., Craven, M.P., Martin, J.L., Young, T., The role of the user within the medical device design and development process: medical device manufacturers' perspectives (2011) BMC Medical Information and Decision Making, 11 (15), pp. 1-12; Nunnally, J.C., (1978) Psychometric Theory, , McGraw Hill, New York, NY; Patil, S.K., Kant, R., A fuzzy AHP-TOPSIS framework for ranking the solutions of knowledge management adoption in supply chain to overcome its barriers (2014) Expert Systems with Applications, 41 (2), pp. 679-693; Pietzsch, J.B., Shluzas, L.A., Paté-Cornell, M.E., Yock, P.G., Linehan, J.H., Stage-gate process for the development of medical devices (2009) Journal of Medical Devices, 3 (2). , 15pp; Polisena, J., Jutai, J., Chreyh, R., A proposed framework to improve the safety of medical devices in a Canadian hospital context (2014) Medical Devices, 7, pp. 139-147; Pooniyamoorthy, M., Mathiyalagan, P., Parthiban, P., A strategic model using structural equation modelling and fuzzy logic in supplier selection (2011) Expert Systems with Applications, 38 (1), pp. 458-474; Qureshi, S.M., Kang, C.W., Analysing the organizational factors of project complexity using structural equation modelling (2015) International Journal of Project Management, 33 (1), pp. 165-176; Ramaswami, H., Acharya, S.B., Kovvur, Y., Anand, S., A multivariate statistical analysis of sampling uncertainties in geometric and dimensional errors for circular features (2006) Journal of Manufacturing Systems, 25 (2), pp. 77-94; Rane, S.B., Kirkire, M.S., Interpretive structural modelling of risk sources in medical device development process (2017) International Journal of System Assurance Engineering and Management, 8 (S1), pp. 451-464; Roberts, N., Thatcher, J.B., Grover, V., Advancing operations management theory using exploratory structural equation modelling techniques (2010) International Journal of Production Research, 48 (15), pp. 4329-4353; Rodrigues Lima, F., Jr., Osiro, L., Carpinetti, L.C.R., A comparison between fuzzy AHP and fuzzy TOPSIS methods to supplier selection (2014) Applied Soft Computing, 21, pp. 194-209; Sahu, A.K., Datta, S., Mahapatra, S.S., Evaluation and selection of suppliers considering green perspectives: comparative analysis on application of FMLMCDM and fuzzy-TOPSIS (2016) Benchmarking: An International Journal, 23 (6), pp. 1579-1604; Schmland, C., Value-added medical-device risk management: device and materials reliability (2005) IEEE Transactions on Device and Materials Reliability, 5 (3), pp. 488-493; Schraagen, J.M., Verhoeven, F., Methods for studying medical device technology and practitioner cognition: the case of user-interface issues with infusion pumps (2013) Journal of Biomedical Informatics, 46 (1), pp. 181-195; Sun, C.C., A performance evaluation model by integrating fuzzy AHP and fuzzy TOPSIS method (2010) Expert Systems with Applications, 37 (12), pp. 7745-7754; Verworn, B., A structural equation model of the impact of the ‘fuzzy front end’ on the success of new product development (2009) Research Policy, 38 (10), pp. 1571-1581; Vinodh, S., Joy, D., Structural equation modelling of lean manufacturing practices (2012) International Journal of Production Research, 50 (6), pp. 1598-1607; Vinodh, S., Joy, D., Structural equation modeling of sustainable manufacturing practices (2012) Clean Technology and Environmental Policy, 14 (1), pp. 79-84; Vinodh, S., Prasanna, M., Prakash, N.H., Integrated fuzzy AHP-TOPSIS for selecting the best plastic recycling method: a case study (2014) Applied Mathematical Modelling, 38 (19-20), pp. 4662-4672; Vinodh, S., Aravindraj, S., Pushkar, B., Kishore, S., Estimation of reliability and validity of agility constructs using structural equation modelling (2012) International Journal of Production Research, 50 (23), pp. 6737-6745","Kirkire, M.S.; Mechanical Engineering, India; email: milind.kirkire@gmail.com",,,"Emerald Group Publishing Ltd.",,,,,14635771,,BQMTF,,"English","Benchmarking",Article,"Final","",Scopus,2-s2.0-85041602777
"Dukare S.R., Raykar N.R.","57196739719;19934528100;","Creep–fatigue damage evaluation of 2.25Cr-1Mo steel in process reactor using ASME-NH code methodology",2018,"Lecture Notes in Mechanical Engineering","0","9789811060014",,"267","281",,,"10.1007/978-981-10-6002-1_21","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033673869&doi=10.1007%2f978-981-10-6002-1_21&partnerID=40&md5=537c2fd347e375262f1836ef5d141064","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Dukare, S.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Raykar, N.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Critical equipment of nuclear power plants and petrochemical industries is sometimes subjected to both creep and fatigue loading simultaneously. Under combined creep–fatigue loading, the creep deformation affects the fatigue behavior of the material depending on the relative duration of stress relaxation due to creep within service life. In the present paper, evaluation of creep and fatigue damage is carried out for a process reactor using elastic analysis method of ASME-NH code. The reactor material is 2.25Cr-1Mo steel. The stress evaluations are carried out at outlet nozzle where stresses are observed to be maximum. Effect of three parameters, that is, the maximum hold temperature, the duration of hold time at highest temperature and the rate of temperature change on combined creep–fatigue damage, is studied. This work provides guidelines for performing creep–fatigue analysis for similar pressure components. © 2018, Springer Nature Singapore Pte Ltd.","2.25Cr-1Mo steel; ASME-NH; Creep ratcheting; Creep–fatigue interaction","Binary alloys; Chromium alloys; Chromium steel; Creep; Fatigue damage; Nuclear power plants; Pressure vessels; Stress analysis; Stress relaxation; 2.25cr-1mo steel; ASME-NH; Creep and fatigue; Creep ratcheting; Creep-fatigue damage; Creep-fatigue interactions; Critical equipment; Damage evaluation; In-process; Process reactors; Nuclear fuels",,,,,,,,,,,,,,,,"Plumbridge, W.J., Dean, M., Sand Miller, D.A., The importance of failure mode in fatigue-creep interactions (1982) Fatigue of Engineering Materials and Structures, 5, pp. 101-114; Hormozi, R., Biglari, F., Nikbin, K., Experimental and numerical creep-fatigue study of type 316 stainless steel failure under high-temperature LCF loading condition with different hold time (2015) Eng Fract Mech, 141, pp. 19-43; Jawad, M.H., Jetter, R.I., (2009) Creep-Fatigue Analysis in Design and Analysis of ASME Boiler and Pressure Vessel Components in the Creep Range, pp. 151-176. , ASME Press, New York; Koo, G.H., Yoo, B., Elevated temperature design of KALIMER internals accounting for creep and rupture effects (2000) J Korean Nucl Soc, 32, pp. 66-594; Gurumurthy, K., Balaji, S., Creep-fatigue design studies for process reactor components subjected to elevated temperature service as per ASME-NH (2014) Procedia Eng, 86, pp. 327-334; Fournier, B., Sauzay, M., Creep-fatigue oxidation interactions in 9Cr-1Mo martensitic steel. Part III: Lifetime prediction (2008) Int J Fatigue, 30, pp. 1797-1812; (2002) Design and Construction Rules for Mechanical Components of FBR Nuclear Islands, , RCC-MR, 2002 edn. AFCEN; Oldham, J., Abou-Hanna, J., Numerical investigation of creep-fatigue life prediction utilizing hysteresis energy as a damage parameter (2011) Int J Pressure Vessels Piping, 88, pp. 149-157; (2015) ASME Boiler and Pressure Vessel Code, , Section III, Subsection NH; Manson, S.S., Halford, G.R., (2009) Fatigue and Durability of Metals at High Temperatures, , ASM International, Materials Park, Ohio; Guodong, Z.B., Yanfen, Z., Creep-fatigue interaction damage model and its application in modified 9Cr–1Mo steel (2011) Nucl Eng Des, 241, pp. 4856-4861; Fan, Z.C., Chen, X.D., A CDM-based study of fatigue-creep interaction behavior (2009) Int J Pressure Vessels Piping, 86, pp. 628-632; Aoto, K., Komine, R., Creep-fatigue evaluation of normalized and tempered modified 9Cr-1Mo (1994) Nucl Eng Des, 153, pp. 97-110; (2015) Section VIII, Division 1; (2015) Release 14.5, ANSYS Inc; (2015) Section II, Part D; (2015) Section VIII, Division 2; Koo, G.H., Lee, J.H., High-temperature structural integrity evaluation method and application studies by ASME-NH for the next generation reactor design (2006) J Mech Sci Technol, 20, pp. 2061-2078","Dukare, S.R.; Mechanical Engineering Department, India; email: sagardukare27@gmail.com",,,"Springer Heidelberg",,,,,21954356,9783319666969; 9783319686189; 9789811053283; 9789811322723,,,"English","Lect. Notes Mech. Eng.",Article,"Final","",Scopus,2-s2.0-85033673869
"Wandhare N.P., Joshi V.P.","57202120279;57193646938;","Power quality improvement using multi-level inverter as STATCOM",2017,"Proceedings - 2017 IEEE International Conference on Electrical, Instrumentation and Communication Engineering, ICEICE 2017","2017-December",,,"1","4",,1,"10.1109/ICEICE.2017.8191904","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85047201369&doi=10.1109%2fICEICE.2017.8191904&partnerID=40&md5=b7d14acf5c04701ab887cf457cab30e9","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Wandhare, N.P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Joshi, V.P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","This paper, identifies a problem associated with the grid in order to supply power without any impurity and their solutions, particularly in terms of compensating the reactive power. The deviation in the system is computed and it is compensated using a STATCOM. Here the STATCOM is a five level cascaded H-bridge inverter controlled using level shift PWM technique modelled for three phase system. The control of reactive power maintaining the voltage and current waveform of the system as per the standard is done using d-q reference frame. The STATCOM's operations and performance for compensation of reactive power (VAR) are validated by simulation studies using MATLAB/SIMULINK software which confirms the theoretical predictions. © 2017 IEEE.","Cascaded H-bridge; Multi-level inverter; PWM; STATCOM","Bridge circuits; Electric current regulators; Electric inverters; MATLAB; Pulse width modulation; Reactive power; Cascaded H-bridge; Cascaded H-bridge inverters; Matlab/Simulink software; Multilevel inverter; Power quality improvement; Simulation studies; Three phase system; Voltage and current waveforms; Static synchronous compensators",,,,,,,,,,,,,,,,"Sabin, D.D., Sundaram, A., Quality enhances reliability[power supplies] (1996) Spectrum IEEE., 33 (2), pp. 34-41; Hingorani, N., Gyugu, L., (2000) Understanding FACTS, Concepts and Technology of Flexible AC Transmission Systems, , IEEE Press, New York; Datta, R., Multipulse converter-topology and control for utility power conversion IEEE Industrial Conference, , Datta, R., et al; Sundararaju, K., Senthilkumar, R., Modelling and analysis of real time power system with cascaded multilevel statcom using fuzzy controller (2016) Journal of Advances in Chemistry, 12 (10), pp. 4408-4417; Lai, J.S., Peng, F.Z., Multilevel converters-a new breed of power converters (1996) IEEE Trans. Ind. Appl., 32 (3), pp. 509-517. , May/Jun; Peng, F.Z., McKeever, J.W., Adams, D.J., A power line conditioner using multilevel inverters for distribution systems (1998) IEEE Trans. Ind. Appl., 34 (6), pp. 1293-1298. , Nov./Dec; Nabae, A., Takahashi, I., Akagi, H., A new neutral-point-clamped PWM inverter (1981) IEEE Trans. Ind. Appl., IA-17 (5), pp. 518-523. , Sep./Oct; Akagi, H., Fujita, H., Yonetani, S., Kondo, Y., A 6.6-kv transformerless statcom based on a five-level diode-clamped PWM converter: System design and experimentation of a 200-v, 10-kva laboratory model (2005) Conf. Rec. IEEE IAS Annu. Meeting, pp. 557-564; Tolbert, L.M., Habetler, T.G., Novel multilevel inverter carrier-based PWM method (1999) IEEE Transactions on Industrial Applications, 25 (5), pp. 1098-1107. , Sep/Oct; Akagi, H., Inoue, S., Yoshii, T., Control and performance of transformerless cascade PWM statc om with star configuration (2007) IEEE Transactions on Industrial Applications, 43 (4), pp. 1041-1049; Akagi, H., Kanazawa, Y., Nabae, A., Instantaneous reactive power compensators comprising switching devices without energy storage components (1984) IEEE Trans. Ind. Appl., IA-20 (3), pp. 625-630. , May/Jun",,"Sundararaju Dr.","","Institute of Electrical and Electronics Engineers Inc.","2017 IEEE International Conference on Electrical, Instrumentation and Communication Engineering, ICEICE 2017","27 April 2017 through 28 April 2017",,133900,,9781509049967,,,"English","Proc. - IEEE Int. Conf. Electr., Instrum. Commun. Eng., ICEICE",Conference Paper,"Final","",Scopus,2-s2.0-85047201369
"Rawool P.E., Raykar N.R., Prabhune S.C.","57199258542;19934528100;57510126600;","Investigation of behavior of GFRP composites under marine conditions using drop weight impact test",2017,"Integrated Ferroelectrics","185","1",,"31","40",,1,"10.1080/10584587.2017.1370285","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85037737770&doi=10.1080%2f10584587.2017.1370285&partnerID=40&md5=3d218d2b38e0ce551fc32c6c49fb21ff","Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India; Larsen & Toubro Limited, Powai Campus, Powai, Mumbai, India","Rawool, P.E., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India; Raykar, N.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India; Prabhune, S.C., Larsen & Toubro Limited, Powai Campus, Powai, Mumbai, India","This paper presents experimental investigation on E-Glass Epoxy laminated composites subjected to drop weight impact test as per ASTM-D7136M in marine environment. Glass Epoxy specimens with three different orientations were fabricated using compression moulding. These specimens were immersed in artificial sea water of 3.5% salinity in laboratory for period of 15 and 30 days at three different temperatures of 4°C, 23°C and 45°C. The specimens were given central impact as per the testing standards. The test results are obtained for contact force, deflection, and breaking energy of specimens was compared between virgin and immersed specimens. It is observed that impact behaviour of composites is marginally affected over the selected range of immersion temperature. The layup sequence is also found to influence the behaviour in major way. The changes in delamination area due to temperature of immersion are reported. © 2017 Taylor & Francis Group, LLC.","delamination; drop weight impact test; GFRP; marine environment; quasi-isotropic","Delamination; Drops; Glass; Seawater; Standards; Artificial sea waters; Drop weight impact; Experimental investigations; GFRP; Marine conditions; Marine environment; Quasi-isotropic; Testing standards; Laminated composites",,,,,,,,,,,,,,,,"Mallick, P.K., Broutman, L.J., Impact properties of laminated angle ply composites (1976) Engineering Fracture Mechanics, 8 (4), pp. 631-641; Agarwal, B.D., Narang, J.N., Strength and failure mechanism of anisotropic composites (1977) Fibre Science and Technology, 10 (1), pp. 37-52; Pickett, L., Dayal, V., Effect of tube geometry and ply-angle on energy absorption of a circular glass/epoxy crush tube–A numerical study (2012) Composites Part B: Engineering, 43 (8), pp. 2960-2967; Deniz, M.E., Karakuzu, R., Seawater effect on impact behavior of glass–epoxy composite pipes (2012) Composites Part B: Engineering, 43 (3), pp. 1130-1138; Singh, H., Namala, K.K., Mahajan, P., A damage evolution study of E-glass/epoxy composite under low velocity impact (2015) Composites Part B: Engineering, 76, pp. 235-248; (2005) D7136M–05, Standard test method for measuring the damage resistance of a fiber reinforced polymer matrix composite to a drop-weight impact event, , West Conshohocken (PA): ASTM International","Raykar, N.R.; Department of Mechanical Engineering, India; email: nilesh_raykar@spce.ac.in",,,"Taylor and Francis Ltd.",,,,,10584587,,IFERE,,"English","Integr Ferroelectr",Article,"Final","",Scopus,2-s2.0-85037737770
"Ushkewar S., Shinde V., Dake V.","57195262149;57200275312;56453529100;","Modeling and analysis of split core pulse transformer for solid state pulse power modulator",2017,"Proceedings of the 2017 2nd IEEE International Conference on Electrical, Computer and Communication Technologies, ICECCT 2017",,,"8118032","","",,3,"10.1109/ICECCT.2017.8118032","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85040599665&doi=10.1109%2fICECCT.2017.8118032&partnerID=40&md5=085d0526b5897a750cd7c539a89376fe","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Ushkewar, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Shinde, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Dake, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","A pulsed power system is the transformation of electrical energy in to the high peak power pulses which can be transferred to the load by means of switching devices like MOSFET, SCR, IGBT etc. which converts a low power to high power short time pulse hence, very high average power and energy will get with the pulsed power system. This system is a simply energy storage either in electrostatic field i.e. Capacitors or magnetic field i.e. inductors which can be released in the form of high power pulses to the load. Nowadays, load includes sample of biological cells it is a new applications where the manipulation of mammalian cells with pulsed electric fields as they can trigger apoptosis in cancer cells and can be used to fight tumors. The use of streamers and pulsed electric fields on cells are the starting of new era in biomedical engineering. This paper discusses the technique used to find the parasitic elements of the transformer like leakage inductance and distributed capacitance also discusses in detailed the comparison of simulated results by CST (Computer Simulation Technique) software and calculated values for a pulse transformer hence prototype solid-state pulse power modulator rated for 56 kV, 4μs and 250Hz has been designed with split core transformer topology for biomedical applications. © 2017 IEEE.","Distributed capacitance; Leakage inductance; parasitic elements; Pulse power modulator","Application programs; Bioinformatics; Biomedical engineering; Capacitance; Cell death; Cell engineering; Cells; Computer software; Cytology; Electric fields; Electric power systems; Inductance; Magnetic storage; Mammals; Medical applications; Molecular biology; MOSFET devices; Pulse transformers; Biomedical applications; Distributed capacitance; High-peak-power pulse; Leakage inductance; Parasitic element; Pulse power; Pulsed electric field; Pulsed power systems; Static random access storage",,,,,,,,,,,,,,,,"Roche, S., Solid state pulsed power systems Industrie Physique &, 17 Rue de la Rente Logerot, 21160 Marsannay la Cote, France; Dake, V., Tillu, A., Dixit, K.P., Sarukte, H., Mangalvedekar, H.A., Implementation and initial test result of a prototype solid state modulator for pulsed magnetron (2014) XXVI Int. Symp. on Discharges and Electrical Insulation in Vacuum-Mumbai, , India; Biela, J., Bortis, D., Kolar, J.W., Analytical modelling of pulse transformers for power modulators Power Electronic Systems Laboratory (PES), , ETH Zurich, Switzerland; Bortis, D., Biela Ortiz G, J., Kolar, J.W., Design procedure for compact pulse transformer with rectangular pulses Shape and Fast Rise Time Power Electronic Systems Laboratory, , ETH Zurich; Schoenbach, K.H., Joshi, R., Kolb, J., Subcelluer effects of nanosecond electric pulses (2004) 26th Annual International Conference of IEEE EMBS USA, , Sep; Tillu, A., Pulse modulator: A brief introduction (2012) School on Pulsed Power Technology (SPPT), , BARC, Mumbai",,,"","Institute of Electrical and Electronics Engineers Inc.","2nd IEEE International Conference on Electrical, Computer and Communication Technologies, ICECCT 2017","22 February 2017 through 24 February 2017",,132225,,9781509032389,,,"English","Proc. IEEE Int. Conf. Electr., Comput. Commun. Technol., ICECCT",Conference Paper,"Final","",Scopus,2-s2.0-85040599665
"Rao P., Siraswar V., Pimple B.B.","57202632432;57200285286;36976185300;","Efficient implementation of MPPT and comparison of converter for variable load Solar PV system",2017,"Proceedings of the 2017 2nd IEEE International Conference on Electrical, Computer and Communication Technologies, ICECCT 2017",,,"8117967","","",,5,"10.1109/ICECCT.2017.8117967","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85040566337&doi=10.1109%2fICECCT.2017.8117967&partnerID=40&md5=fef994a16b361ed1640b410b53f72a9f","Electrical Engineering, Sardar Patel College of Engineering, Andheri (W) Mumbai, India; Faculty Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India","Rao, P., Electrical Engineering, Sardar Patel College of Engineering, Andheri (W) Mumbai, India; Siraswar, V., Electrical Engineering, Sardar Patel College of Engineering, Andheri (W) Mumbai, India; Pimple, B.B., Faculty Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India","Increase in renewable energy utilization has widened the scope of research in maximizing the efficiency of solar photovoltaic (PV) manufacturing technology, but still the achieved conversion efficiency of solar PV module is not more than 25%. Thus to maximize their operating efficiency and to compete with per unit costs of conventional power, there is need of an efficient and robust maximum power point (MPP) tracking controller. This manuscript studies the comparative analysis of boost, buck-boost and cuk converter for variable loads. Performance of different converters implementing MPPT algorithms are investigated using MATLAB/SIMULINK. Incremental conductance technique incorporated for enhancing the output power of solar PV ensures an efficiency of 95%. © 2017 IEEE.","cuk converter; DC-DC converter; incremental conductance; MPPT; solar PV","Electric inverters; Energy utilization; Industrial research; Maximum power point trackers; Photovoltaic cells; Solar power generation; Comparative analysis; Efficient implementation; Incremental conductance; Manufacturing technologies; Operating efficiency; Solar photovoltaics; Solar PVs; Tracking controller; DC-DC converters",,,,,,,,,,,,,,,,"Ahmad, S., Rashid, M.T., Ferdowsy, C.S., Islam, S., Mahmood, A.H., A technical comparison among different PV-MPPT algorithms to observe the effect of fast changing solar irradiation (2015) 2015 IEEEInternational WIE Conference on Electrical and Computer Engineering (WIECON-ECE), pp. 155-158. , Dhaka; Nian, C., Hun, W., Zao, S., Yukita, K., Goto, Y., Ichiyanagi, K., Reasearch of pv model and mppt methods in matlab (2010) Power and Energy Engineering Conference; Eshram, T., Chapman, P.L., Comparision of photovoltaic array maximum power point techniques (2007) IEEE Transaction on Energy Conversion, 22 (2), pp. 439-449. , June; Villalva, M.G., Gazoli, J.R., Ruppert, F.E., Modelling and circuit-based simulation of photovoltaic arrays (2009) Brazilian Journal Power Electronics, 14 (1), pp. 35-45; Sanz Morrales, D., Maximum power point tracking algorithms for photovoltaic applications (2010) School of Science and Technology, Aalto University; Ericksn, R.W., (1997) Fundamentals of Power Electronics, , International Thomson Publishing; Mohan, N., Undeland, T.M., Robbins, W.P., Power Electronics Converters, Applications, and Design, , Wiley India; Ashok Kumar, L., Surekha, P., Sumathi, S., (2015) Solar Pv and Wind Energy Conversion Systems: An Introduction to Theory, Modelling with Matlab/simulink and the Role of Soft Computing Techniques, , Springer International Publishing, Switzerland; Nath Tripathi, R., Singh, A., Badoni, M., A matlabsimulink-based solar photovoltaic array (spva) module with mppt (2013) 2013 International Conference on Emerging Trends in Communication, Control, Signal Processing and Computing Applications (C2SPCA), 2013 International Conference, pp. 1-6. , Banglore; Iftekhar, M.S., Hasan, M.R., Banik, R., Umar, R., Barua, C., Maximum power point tracking using Very high frequency resonant DC/DC converter for photovoltaic systems (2015) 2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT), pp. 1-6. , Dhaka",,,"","Institute of Electrical and Electronics Engineers Inc.","2nd IEEE International Conference on Electrical, Computer and Communication Technologies, ICECCT 2017","22 February 2017 through 24 February 2017",,132225,,9781509032389,,,"English","Proc. IEEE Int. Conf. Electr., Comput. Commun. Technol., ICECCT",Conference Paper,"Final","",Scopus,2-s2.0-85040566337
"Rane S.B., Narvel Y.A.M., Khatua N.","56149402100;57192108846;57197811492;","Development of mechanism for mounting secondary isolating contacts (SICs) in air circuit breakers (ACBs) with high operational reliability",2017,"International Journal of System Assurance Engineering and Management","8",,,"1816","1831",,5,"10.1007/s13198-017-0678-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85034953566&doi=10.1007%2fs13198-017-0678-5&partnerID=40&md5=3196707ea0e13f7252baf9c640cf61f8","Department of Mechanical Engineering, Sardar Patel College of Engineering Munshi Nagar, Andheri West, Mumbai, Maharashtra  400058, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, Maharashtra  400058, India; Switchgear Design and Development Centre, Larsen & Toubro Limited, ABEB, Gate No. 5, Powai Campus (E), Saki Vihar Road Mumbai, Mumbai, 400072, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering Munshi Nagar, Andheri West, Mumbai, Maharashtra  400058, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri West, Mumbai, Maharashtra  400058, India; Khatua, N., Switchgear Design and Development Centre, Larsen & Toubro Limited, ABEB, Gate No. 5, Powai Campus (E), Saki Vihar Road Mumbai, Mumbai, 400072, India","The main function of Secondary Isolating Contacts (SICs) is to provide power supply to accessories in Air Circuit Breaker (ACB). A new SIC identified, had more number of contacts in a very compact design. There was a need for developing a mechanism to mount these SICs by having a key focus on compactness, alignment and tolerance in ACBs along with high probability of survival for the defined period and operation, to ensure repeated and prolonged use without failure in performance. After the development of mechanism, lifetime distributions were used to assess the reliability of the mechanism, based on the results obtained from operating reliability of the mechanism, modifications were done to improve the reliability. After subsequent developments and modifications in design, reliability of the mechanism increased from 14 to 88% in phase I to phase III respectively. The new arrangement can save up to 25% of the cost compared to current designs. Companies using such SICs can become more competitive, and pass on the cost savings benefits to end users. The volume of SIC and weight of plastic were reduced by approximately 66 and 70%, respectively. The amount of non-degradable waste entering the environment will be considerably reduced. © 2017, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Air Circuit Breaker; Lifetime distributions; Mechanism development; Reliability Assessment; Secondary Isolating Contacts","Mountings; Reliability; Timing circuits; Air circuit breakers; Life-time distribution; Mechanism development; Non-degradable wastes; Number of contacts; Operating reliability; Operational reliability; Reliability assessments; Electric circuit breakers",,,,,,,,,,,,,,,,"Almalki, S.J., Yuan, J., The new modified Weibull distribution (2013) Reliab Eng Syst Saf, 111, pp. 164-170; Artana, K.B., Ishida, K., Spreadsheet Modeling of optimal maintenance schedule for components in wear-out phase (2002) Reliab Eng Syst Saf, 77, pp. 81-91; Asgharzadeh, A., Valiollahi, R., Raqab, M.Z., Stress-strength reliability of Weibull distribution based on progressively censored samples (2011) SORT, 35 (2), pp. 103-124; Bebbington, M., Laia, C.D., Zitikis, R., A flexible Weibull extension (2007) Reliab Eng Syst Saf, 92, pp. 719-726; Bertsche, B., (2007) Reliability in Automotive and Mechanical Engineering, pp. 35-60. , Springer, Berlin; Bichon, B.J., McFarland, J.M., Mahadevan, S., Efficient surrogate models for reliability analysis of systems with multiple failure modes (2011) Reliab Eng Syst Saf, 96, pp. 1386-1395; Billinton, R., Karki, R., Incorporating wind power in generating system reliability evaluation (2010) Int J Syst Assur Eng Manag, 1 (2), pp. 120-128; Bourezg, A., Meglouli, H., Reliability analysis of breaker arrangements in distribution substations (2014) Int J Syst Assur Eng Manag, 8 (1), pp. 531-537; Bourezg, A., Meglouli, H., Reliability analysis of breaker arrangements in distribution substations (2017) Int J Syst Assur Eng Manag; Bourouni, K., Availability assessment of a reverse osmosis plant: Comparison between Reliability Block Diagram and Fault Tree Analysis Methods (2013) Desalin, 313, pp. 66-76; Chaturvedi, A., Malhotra, A., Estimation and testing procedures for the reliability functions of a family of lifetime distributions based on records (2016) Int J Syst Assur Eng Manag; Chen, C., Tests of fit for the three-parameter lognormal distribution (2006) Comput Stat Data Anal, 50, pp. 1418-1440; Cooper, J., (2017) An overview of reliability, pp. 1-5. , Pan Pacific Microelectronics Symposium (Pan Pacific) Kauai, HI; Demir, M., Kahramanoğlu, G., Bekir Yıldız, A., Importance of reliability for power electronic circuits, case study: Inrush current test and calculating of fuse melting point (2016) IEEE International Power Electronics and Motion Control Conference (PEMC), Varna, pp. 830-834; Djeddi, A.Z., Hafaifa, A., Kouzou, A., Exploration of reliability algorithms using modified Weibull distribution: application on gas turbine (2016) Int J Syst Assur Eng Manag; Fajdiga, M., Jurejevčič, T., Kernc, J., Reliability prediction in early phases of product design (1996) J Eng Des, 7 (2), pp. 107-128; Fisher, F.E., Fisher, J.R., (2000) Probability applications in mechanical design, pp. 200-205. , Marcel Dekker, New York; Jiang, R., Murthy, D.N.P., A study of Weibull shape parameter: properties and significance (2011) Reliab Eng Syst Saf, 96, pp. 1619-1626; Kapur, P.K., Kumar, U., Special issue on reliability, infocomm technology and business operations (2016) Int J Syst Assur Eng Manag; Khorshidi, H.A., Gunawan, I., Ibrahim, M.Y., Data-driven system reliability and failure behavior modelling using FMECA” Industrial Informatics (2015) IEEE Trans; Kim, J.S., Yum, B., Selection between Weibull and lognormal distributions: a comparative simulation study (2008) Comput Stat Data Anal, 53, pp. 477-485; Klein, J.P., Moeschberger, M.L., (2010) Survival analysis: techniques for censored and truncated data, , 2nd ed, New York, Springer; Kumar, S., Chattopadhyay, G., Kumar, U., Reliability improvement through alternative designs—A case study (2007) Reliab Eng Syst Saf, 92, pp. 983-991; Lougha, K.G., Stonea, R., Tumer, I.Y., The risk in early design method (2009) J Eng Des, 20 (2), pp. 155-173; Marković, D., Jukic, D., On nonlinear weighted total least squares parameter estimation problem for the three-parameter Weibull density (2010) Appl Math Model, 34, pp. 1839-1848; McPherson, J.W., (2010) Reliability physics and engineering Time-To-Failure Modeling, , Springer, Berlin; Moeini, A., Jenab, K., Mohammadi, M., Foumani, M., Fitting the three-parameter Weibull distribution with Cross Entropy (2013) Appl Math Model, 37, pp. 6354-6363; Mohammadian, S.H., Aı¨t-Kadi, D., Design stage confirmation of life time improvement for newly modified products through accelerated life testing (2010) Reliab Eng Syst Saf, 95, pp. 897-905; Mostafaeipour, A., A novel innovative design improvement using value engineering technique: a case study (2016) J Optim Ind Eng, 9 (19), pp. 25-36; Nagatsuka, H., Kamakurab, T., Balakrishnan, N., A consistent method of estimation for the three-parameter Weibull distribution (2013) Comput Stat Data Anal, 58, pp. 210-226; Nichols, K., Designing for quality and reliability (1992) J Eng Des, 3 (2), pp. 139-148; Pang, W., Leung, P., Huang, W., Liu, W., On interval estimation of the coefficient of variation for the three-parameter Weibull, lognormal and gamma distribution: a simulation-based approach (2005) Eur J Oper Res, 164, pp. 367-377; Electronic reliability design handbook, , http://relex.com/resources/mil/338b.pdf, Military handbook:<>; 1988; Rane, S.B., Narvel, Y.A.M., Reliability assessment and improvement of air circuit breaker (ACB) mechanism by identifying and eliminating the root causes (2015) Int J Syst Assur Eng Manag; Sinha, R.S., Mukhopadhyay, A.K., Reliability centered maintenance of cone crusher: a case study (2015) Int J Syst Assur Eng Manag., 6 (1), pp. 32-35; Smitha, J., Clarkson, P.J., Design concept modelling to improve reliability (2005) J Eng Des, 16 (5), pp. 473-492; Stapleberg, R.F., (2009) Handbook of reliability, availability, maintainability and safety in engineering design, pp. 45-55. , Springer, Berlin; Tang, J., Mechanical system reliability analysis using a combination of graph theory and Boolean function (2001) Reliab Eng Syst Safy, 72, pp. 21-30; Venu, V.V., Verma, A.K., Reliability of electric power systems: challenges in the deregulated environment–a research perspective (2010) Int J Syst Assur Eng Manag., 1, pp. 24-31; Vera, J.F., Díaz-García, J.A., A global simulated annealing heuristic for the three-parameter lognormal maximum likelihood estimation (2008) Comput Stat Data Anal, 52, pp. 5055-5065; Wang, Y., Wu, X., Zhou, Z., Li, Y., Investigation of reliability and lifetime distribution of the gas sensors based on C2H5OH (2003) Solid-State Electron, 47, pp. 107-110; Yadav, O.P., Singh, N., Goel, P.S., Reliability demonstration test planning: a three dimensional consideration (2006) Reliab Eng Syst Saf, 91, pp. 882-893; Zhang, T., Dwight, R., Choosing an optimal model for failure data analysis by graphical approach (2013) Reliab Eng Syst Saf, 115, pp. 111-123; Zhang, X., Gockenbacha, E., Liub, Z., Chenc, H., Yangc, L., Reliability estimation of high voltage SF6 circuit breakers by statistical analysis on the basis of the field data (2013) Electr Power Syst Res, 103, pp. 105-113","Narvel, Y.A.M.; Department of Mechanical Engineering, Munshi Nagar, Andheri West, India; email: yahyanarvel@gmail.com",,,"Springer",,,,,09756809,,,,"English","Intl. J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-85034953566
"Bhosale A.D., Murudi M.M.","57196466137;8077743100;","Seismic control of structures using sloped bottom tuned liquid dampers",2017,"Structural Engineering and Mechanics","64","2",,"233","241",,5,"10.12989/sem.2017.64.2.233","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033488724&doi=10.12989%2fsem.2017.64.2.233&partnerID=40&md5=ede3225aaccf41c1c3ad3d7c01e35b85","Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (west), Mumbai, 400058, India","Bhosale, A.D., Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (west), Mumbai, 400058, India; Murudi, M.M., Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (west), Mumbai, 400058, India","Earlier numerous studies have been done on implementation of Tuned Liquid Damper (TLD) for structural vibration control by many researchers. As per current review there is no significant study on a sloped bottom TLD. TLD‟s are passive devices. A TLD is a tank rigidly attached to the structure and filled partially by liquid. When fundamental linear sloshing frequency is tuned to structure‟s natural frequency large sloshing amplitude is expected. In this study set of experiments are conducted on flat bottom and sloped bottom TLD at beach slope 20º, 30ºand 45º, for different types of structures, mass ratio, and depth ratio to investigate the overall effectiveness of TLD and specific effect of TLD parameters on structural response. This experimental study shows that a properly designed TLD reduces structural response. It is also observed that effectiveness of TLD increases with increase in mass ratio. In this experimental study an effectiveness of sloped bottom TLD with beach slope 30ºis investigated and compared with that of flat bottom TLD in reducing the structural response. It is observed from this study that efficiency of sloped bottom TLD in reducing the response of structure is more as compared to that of flat bottom TLD. It is shown that there is good agreement between numerical simulation of flat bottom and sloped bottom TLD and its experimental results. Also an attempt has been made to investigate the effectiveness of sloped bottom TLD with beach slope 20ºand 45º. Copyright © 2017 Techno-Press, Ltd.","Base excitation; Energy dissipation; Sloshing; TLD design; Tuned liquid dampers; Vibration control","Beaches; Energy dissipation; Fuel sloshing; Structural dynamics; Vibration control; Base excitation; Overall effectiveness; Seismic control; Sloshing frequency; Specific effects; Structural response; Structural vibration control; Tuned liquid dampers; Liquid sloshing",,,,,,"The research described in this paper was supported by the TEQIP-II. This financial heartily acknowledged.",,,,,,,,,,"Banerji, P., Samanta, A., Earthquake vibration control of structures using hybrid mass liquid damper (2011) Eng. Struct., 33, pp. 1291-1301; Banerji, P., Murudi, M., Shah, A.H., Popplewell, N., Tuned liquid dampers for controlling earthquake response of structures (2000) Earthq. Eng. Struct. D., 29, pp. 587-602; Banerji, P., Samanta, A., Chavan, S.A., Earthquake vibration control of structures using tuned liquid dampers: Experimental studies (2010) Int. J. Adv. Struct. Eng., 2 (2), pp. 133-152; Chaiseri, P., Fujino, Y., Pacheco, B.M., Sun, L.M., Interaction of tuned liquid dampers and structure: Theory, experimental verification and application (1989) J. Struct. Eng. Earthq. Eng., ISCE, 6, pp. 103-111; Fujii, K., Tamura, Y., Sato, T., Wakahara, T., Wind-induced vibration of tower and practical applications of tuned sloshing damper (1990) J. Wind Eng. Indus. Aerodyn., 33, pp. 263-272; Fujino, Y., Sun, L., Pacheco, B.M., Chaiseri, P., Tuned liquid dampers (TLD) for suppressing horizontal motion of structures (1992) J. Eng. Mech., 118 (10), pp. 2017-2030; Gardarsson, S., (1997) Shallow-Water Sloshing, , Ph.D. Thesis, University of Washington, Seattle, USA; Gardarsson, S., Yeh, H., Reed, D., Behavior of slopped- Bottom tuned liquid dampers (2001) J. Eng. Mech., 127 (3), pp. 266-271; Kareem, A., Kijewski, T., Tamura, Y., Mitigation of motions of tall buildings with specific examples of recent applications (1999) Wind Struct., 2 (3), pp. 201-251; Karna, T., Damping methods to mitigate wind-induced vibrations (2009) J. Struct. Mech., 42 (1), pp. 38-47; KoH, C.G., Mahatma, S., Wang, C.M., Theoretical and experimental studies on rectangular liquid dampers under arbitrary excitations (1994) Earthq. Eng. Struct. D., 23, pp. 17-31; Lamb, H., (1932) Hydrodynamics, , 6th Edition, Cambridge University Press, Cambridge; Lepelletier, T.G., Raichlen, F., Nonlinear oscillations in rectangular tanks (1988) J. Eng. Mech., ASCE, 114 (1), pp. 1-23; Love, J.S., Tait, M.J., Parametric depth ratio study on tuned liquid dampers: Fluid modeling and experimental work (2013) Comput. Fluid, 79, pp. 13-26; Love, J.S., Tait, M.J., Multiple tuned liquid dampers for efficient and robust structural control (2015) J. Struct. Eng., ASCE, 141 (12), pp. 04015045-1-6; Matteo, A.D., Paola, M.D., Pirrotta, A., Innovative modeling of tuned liquid column damper controlled structures (2016) Smart Struct. Syst., 18 (1), pp. 117-138; Morsy, H., (2010) A Numerical Study of The Performance of Tuned Liquid Dampers, , Master of Applied Science Thesis, McMaster University Hamilton, Ontario; Olson, D.E., Reed, D.A., A nonlinear numerical model for sloped-bottom tuned liquid dampers (2001) Earthq. Eng. Struct. D., 30, pp. 731-743; Ross, A.S., Damatty, A.A.E., Ansary, A.M.E., Application of tuned liquid dampers in controlling the torsional vibration of high rise buildings (2015) Wind Struct, 21 (5), pp. 537-564; Shad, H., Adnan, A., Behbahani, H.P., Vafaei, M., Efficiency of TLDs with bottom-mounted baffles in suppression of structural responses when subjected to harmonic excitations (2016) Struct. Eng. Mech., 60 (1), pp. 131-148; Sun, L.M., Fujino, Y., Pacheco, B.M., Chaiseri, P., Modeling of tuned liquid damper (TLD) (1992) J. Wind Eng. Indus. Aerodyn., 41-44, pp. 1883-1894; Sun, L.M., Fujino, Y., Pacheco, B.M., Isobe, M., Nonlinear wave and dynamics pressures in rectangular tuned liquid damper (TLD)-simulation and experimental verification (1989) Struct. Eng. Earthq. Eng., IJCE, 6 (2), pp. 81-92; Tamura, Y., Fujii, K., Ohtsuki, T., Wakahara, T., Kohsaka, R., Effectiveness of tuned liquid dampers under wind excitation (1995) Eng. Struct., 17, pp. 609-621; Zahrai, S.M., Abbasi, S., Samali, B., Vrcelj, Z., Experimental investigation of utilizing TLD with baffles in a scaled down 5-story benchmark building (2012) J. Fluid. Struct., 28, pp. 194-210","Bhosale, A.D.; Department of Structural Engineering, Andheri (west), India; email: amardeepbhosale@yahoo.com",,,"Techno-Press",,,,,12254568,,SEGME,,"English","Struct Eng Mech",Article,"Final","",Scopus,2-s2.0-85033488724
"Maurya R.S., Singh S.","57225420052;56175889900;","Numerical investigation of isothermal flow around impingement plates in a shell and tube exchanger",2017,"Journal of Thermal Engineering","3","5",,"1442","1452",,4,"10.18186/journal-of-thermal-engineering.338901","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054652871&doi=10.18186%2fjournal-of-thermal-engineering.338901&partnerID=40&md5=0a8e7cb81b991f9a08af20206ae3290d","Department of Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Maurya, R.S., Department of Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Singh, S., Department of Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","The impingement plate is an important protecting device of tube bank which is located on shell side at the nozzle inlet of shell and tube heat exchanger. Current work presents a 2D numerical investigation of the flow structure developing around different impingement plate design under different flow conditions using ANSYS Fluent. Location, size and arrangement of impingement plate are the investigated parameters which provides significant information for the selection of ideal location and size of required impingement plate. Study compares different plate geometry and concludes the best one which apart from protecting the tube banks, also removes the stagnation zone developing behind them because of their placements. © 2017 Journal of Thermal Engineering.","CFD; Flow distribution; Heat exchanger; Impingement plate; Numerical; Simulation; TEMA",,,,,,,,,,,,,,,,,"Tu, C.V., Wood, D.H., Wall pressure and shear stress measurements beneath an impinging jet (1996) Experimental Thermal and Fluid Science, 13, pp. 364-373; Shi, Y.L., Ray, M.B., Mujumdar, A.S., Computational study of impingement heat transfer under a turbulence slot jet (2002) Industrial and Engineering Chemistry Research, 41, pp. 4643-4651; Langhe, D., Merci, B., Dick, E., Application of RG hybrid RANS/LES model to swirling confined turbulent jets (2006) Journal of Turbulence, 7 (56), pp. 1-19; Perrotin, T., Clodic, D., Thermal-hydraulic CFD study in louvered fin and flat tube heat exchangers (2004) International Journal of Refrigeration, 27 (4), pp. 422-432; Ozden, E., Tari, I., Shell side CFD analysis of a small shell and tube heat exchanger (2010) Energy Conversion and Management, 51 (5), pp. 1004-1014; Badra, J., Masri, A.R., Behnia, M., Enhanced heat transfer from arrays of jets impinging on a moving plates (2013) Heat Transfer Engineering, 34 (4), pp. 361-371; Karlsson, T., Vamling, L., Flow fields in shell and tube condensers: comparison of a pure refrigerant and a binary mixture (2005) International Journal of Refrigeration, 28 (5), pp. 706-713; Al-Anizi, S.S., Al-Otaibi, A.M., Double perforated impingement plate in shell and tube heat exchanger (2007) 7th International Conference on Heat Exchanger Fouling and Cleaning-Challenges and Opportunities, , Tomar, Portugal; Kandu, B., Semi analytical methods for heat and fluid flow between two parallel plates (2015) Journal of Thermal Engineering, 1 (3), pp. 175-181",,,,"Yildiz Technical University",,,,,21487847,,,,"English","J. Therm. Eng.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85054652871
"Palivela H., Nirmala C.R., Kubal D.R.","55786442800;50361746400;57195934645;","Application of various graph kernels for finding molecular similarity in ligand based drug discovery",2017,"2017 4th International Conference on Advanced Computing and Communication Systems, ICACCS 2017",,,"8014688","","",,,"10.1109/ICACCS.2017.8014688","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85030263271&doi=10.1109%2fICACCS.2017.8014688&partnerID=40&md5=9a5eb7332c7c99a88f2c2bce9162fff0","Department of Information Technology, MPSTME, NMIMS University, India; Department of Computer Science and Engineering, Bapuji Institute of Engineering and Technology, Visvesvaraya Technological University, Davangere, Karnataka, India; Computer Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","Palivela, H., Department of Information Technology, MPSTME, NMIMS University, India; Nirmala, C.R., Department of Computer Science and Engineering, Bapuji Institute of Engineering and Technology, Visvesvaraya Technological University, Davangere, Karnataka, India; Kubal, D.R., Computer Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","There have been various measures and techniques which have currently been used in order to measure the similarity between graphs [1]. In this paper, molecules have been represented as graphs with atoms of the molecule being represented as nodes and bonds between atoms being represented as edges [2]. We will first see how various available similarity coefficients perform in order to measure the similarity between molecules (graphs) [3]. Then we will move to various popular and widely used Graphlet kernels, kernels based on subtree patterns and then we will see how each algorithm performs against molecular data which is represented as a graph structure. Graph kernel-based virtual screening has very been popular but due to very high runtime complexity of algorithms (even best algorithm is of the order cubic O(n3)), graph kernel based virtual screening has not yet been fully implemented in a full-fledged manner. Even if we apply the best graphlet kernel algorithm to molecular data in order to obtain similarity and to distinguish from active molecules from inactive ones, we just cannot replace the traditional clinical testing procedure. In this paper, we will be comparing all the popular and widely accepted graph kernels. Finally, we will be studying how multi kernel learning (MKL) helps to solve the same problem more efficiently. We will also be seeing how the amount of training data and a number of relevant features contribute towards the computation time. © 2017 IEEE.","Cheminformatics; Complexity; Drug Discovery; Graphlet Kernels; Molecules; Multi Kernel Learning (MKL); Virtual Screening","Molecules; Cheminformatics; Complexity; Drug discovery; Graphlet Kernels; Multi-kernel learning; Virtual Screening; Computational complexity",,,,,,,,,,,,,,,,"Blondel, V.D., A measure of similarity between graph vertices: Applications to synonym extraction and web searching (2004) SIAM Review, 46 (4), pp. 647-666; Weininger, D., SMILES, a chemical language and information system. 1. Introduction to methodology and encoding rules (1988) Journal of Chemical Information and Computer Sciences, 28 (1), pp. 31-36; Willett, P., Similarity-based approaches to virtual screening (2003) Biochemical Society Transactions, 31 (3), pp. 603-606; Goto, S., LIGAND: Database of chemical compounds and reactions in biological pathways (2002) Nucleic Acids Research, 30 (1), pp. 402-404; Allen, F.H., The Cambridge structural database: A quarter of a million crystal structures and rising (2002) Acta Crystallographica Section B: Structural Science, 58 (3), pp. 380-388; Chen, J., ChemDB: A public database of small molecules and related chemoinformatics resources (2005) Bioinformatics, 21 (22), pp. 4133-4139; McKay, B., 3.13 Practical graph isomorphism (2016) The Graph Isomorphism Problem, p. 11; Leach, A.R., Gillet, V.J., (2007) An Introduction to Chemoinformatics, , Springer Science & Business Media; Brown, N., Chemoinformatics-an introduction for computer scientists (2009) ACM Computing Surveys (CSUR), 41 (2), p. 8; Ma, D.-L., Chan, S.-H.D., Leung, C., Drug repositioning by structure-based virtual screening (2013) Chemical Society Reviews, 42 (5), pp. 2130-2141; Cheng, T., Structure-based virtual screening for drug discovery: A problem-centric review (2012) The AAPS Journal, 14 (1), pp. 133-141; Drwal, M.N., Griffith, R., Combination of ligandand structure-based methods in virtual screening (2013) Drug Discovery Today: Technologies, 10 (3), pp. e395-e401; Zoete, V., Swisssimilarity: A web tool for low to ultra high throughput ligand-based virtual screening (2016) Journal of Chemical Information and Modeling, 56 (8), pp. 1399-1404; Yan, X., Yu, P.S., Han, J., Substructure similarity search in graph databases (2005) Proceedings of the 2005 ACM SIGMOD International Conference on Management of Data. ACM; Jiang, H., Gstring: A novel approach for efficient search in graph databases (2007) 2007 IEEE 23rd International Conference on Data Engineering. IEEE; Kashyap, K.N., Graph mining using gspan: Graph-based substructure pattern mining (2016) International Journal of Applied Research on Information Technology and Computing, 7 (2), pp. 132-139; Carletti, V., Report on the first contest on graph matching algorithms for pattern search in biological databases (2015) International Workshop on Graph-Based Representations in Pattern Recognition, , Springer International Publishing; Zheng, W., Efficient graph similarity search over large graph databases (2015) IEEE Transactions on Knowledge and Data Engineering, 27 (4), pp. 964-978; Dongoran, S., Sori, E., Kemas, R., Saleh, W., Akbar Gozali, A., Analysis and implementation of graph indexing for graph database using GraphGrep algorithm (2015) Information and Communication Technology (ICoICT), 2015 3rd International Conference On. IEEE; Arif, M.S., Holliday, J.D., Willett, P., (2016) The Use of Weighted 2D Fingerprints in Similarity-Based Virtual Screening, , Elsevier Inc.; Bajusz, D., Rácz, A., Héberger, K., Why is Tanimoto index an appropriate choice for fingerprint-based similarity calculations (2015) Journal of Cheminformatics, 7 (1), p. 1; Gillet, V.J., Holliday, J.D., Willett, P., Chemoinformatics at the University of Sheffield 2002-2014 (2015) Molecular Informatics, 34 (9), pp. 598-607; Drwal, N.M., Molecular similarity-based predictions of the Tox21 screening outcome (2015) Frontiers in Environmental Science, 3, p. 54; Duesbury, E., Holliday, J., Willett, P., Maximum common substructure-based data fusion in similarity searching (2015) Journal of Chemical Information and Modeling, 55 (2), pp. 222-230; Hernandez, M., (2016) A Novel Graph-based Approach for Determining Molecular Similarity, , arXiv preprint arXiv:1601.06693; Van Berlo, R.J.P., Efficient calculation of compound similarity based on maximum common subgraphs and its application to prediction of gene transcript levels (2013) International Journal of Bioinformatics Research and Applications, 9 (4), pp. 407-432; Preeja, M.P., Ligand-based virtual screening using random walk kernel and empirical filters (2015) Procedia Computer Science, 57, pp. 418-427; Yanardag, P., Vishwanathan, S.V.N., (2014) The Structurally Smoothed Graphlet Kernel, , arXiv preprint arXiv:1403.0598; Ralaivola, L., Graph kernels for chemical informatics (2005) Neural Networks, 18 (8), pp. 1093-1110; Preeja, M.P., Soman, K.P., Fast computation of marginalized walk kernel for virtual screening in drug discovery (2010) Proceedings of the 1st Amrita ACM-W Celebration on Women in Computing in India. ACM; Vishwanathan, V.N.S., Graph kernels (2010) Journal of Machine Learning Research, 11, pp. 1201-1242. , Apr; Yanardag, P., Vishwanathan, S.V.N., Deep graph kernels (2015) Proceedings of the 21th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. ACM; Spitzer, F., (2013) Principles of Random Walk., 34. , Springer Science & Business Media; Vishwanathan, N.S.V., Borgwardt, K.M., Schraudolph, N.N., Fast computation of graph kernels (2006) NIPS, 19; Rao, N., Collaborative filtering with graph information: Consistency and scalable methods (2015) Advances in Neural Information Processing Systems.; Welke, P., Horváth, T., Wrobel, S., Probabilistic frequent subtree kernels (2015) International Workshop on New Frontiers in Mining Complex Patterns, , Springer International Publishing; Yu, Y., Pan, Z., Hu, G., Graph classification based on sparse graph feature selection and extreme learning machine (2016) Proceedings of ELM-2015, 1, pp. 179-191. , Springer International Publishing; Shervashidze, N., Weisfeiler-lehman graph kernels (2011) Journal of Machine Learning Research, 12, pp. 2539-2561. , Sep; Borgwardt, K.M., Kriegel, H., Shortest-path kernels on graphs (2005) Fifth IEEE International Conference on Data Mining (ICDM'05). IEEE; Feragen, A., Scalable kernels for graphs with continuous attributes (2013) Advances in Neural Information Processing Systems.; Hofmann, T., Schölkopf, B., Smola, A.J., (2006) A Review of RKHS Methods in Machine Learning; Hofmann, T., Schölkopf, B., Smola, A., (2005) A Tutorial Review of RKHS Methods in Machine Learning; Haussler, D., (1999) Convolution Kernels on Discrete Structures., 646. , Technical report, Department of Computer Science, University of California at Santa Cruz; Gönen, M., Alpaydn, E., Multiple kernel learning algorithms (2011) Journal of Machine Learning Research, 12, pp. 2211-2268. , Jul; Zien, A., Soon Ong, C., Multiclass multiple kernel learning (2007) Proceedings of the 24th International Conference on Machine Learning. ACM",,,"","Institute of Electrical and Electronics Engineers Inc.","4th International Conference on Advanced Computing and Communication Systems, ICACCS 2017","6 January 2017 through 7 January 2017",,130103,,9781509045594,,,"English","Int. Conf. Adv. Comput. Commun. Syst., ICACCS",Conference Paper,"Final","",Scopus,2-s2.0-85030263271
"Deshpande N., Chavhan R.D., Deshpande N.","56354292100;57195260526;57213139939;","Coupled inductor based single-input multiple-outputs boost converter",2017,"Proceedings of the 3rd IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2017",,,"7972396","126","130",,4,"10.1109/AEEICB.2017.7972396","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85026675045&doi=10.1109%2fAEEICB.2017.7972396&partnerID=40&md5=a3783cf203b8edc75e0d24d8c3730766","Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Department of Industrial Electronics, Bharati Vidyapeeth Institute of Tech., Kharghar, Navi Mumbai, India","Deshpande, N., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Chavhan, R.D., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Deshpande, N., Department of Industrial Electronics, Bharati Vidyapeeth Institute of Tech., Kharghar, Navi Mumbai, India","In this paper, the proposed SIMO (Single input multiple outputs) DC-DC converter based on coupled inductor. The required controllable high DC voltage and intermediate DC voltage with high voltage gain from low input voltage sources, like renewable energy, can be achieved easily from the proposed converter. The high voltage DC bus can be used as the leading power for a DC load and intermediate voltage DC output terminals can charge supplementary power sources like battery modules. This converter operates simply with one power switch. It incorporates the techniques of voltage clamping (VC) and zero current switching (ZCS). The simulation result in PSIM software shows that the aims of high efficiency, high voltage gain, several output voltages with unlike levels, are achieved. © 2017 IEEE.","Coupled inductor; PSIM; Single-input multiple-outputs boost converter; Voltage clamping; Zero current switching","Computer software; DC power transmission; Electric inductors; Electric inverters; Gain measurement; HVDC power transmission; Power converters; Zero current switching; BOOST converter; Coupled inductor; High voltage DC bus; Input voltage sources; PSIM; Renewable energies; Single input multiple outputs; Voltage clamping; DC-DC converters",,,,,,,,,,,,,,,,"Wai, R.-J., Jheng, K.-H., High-efficiency single input multiple output DC-DC converter (2013) IEEE Transactions on Power Electronics, 28 (2). , February; Patra, P., Patra, A., Misra, N., A single-inductor multiple-output switcher with simultaneous buck, boost, and inverted outputs (2012) IEEE Transactions on Power Electron, 27 (4), pp. 1936-1951. , Apr; Nami, A., Zare, F., Ghosh, A., Blaabjerg, F., Multiple-output DC-DC converters based on diode-clamped converters configuration: Topology and control strategy (2010) IET Power Electronics, 3 (2), pp. 197-208; Chen, Y., Kang, Y., Nie, S., Pei, X., The multiple-output DC-DC converter with shared zcs lagging leg (2011) IEEE Transactions on Power Electronics, Vol. 26, (8), pp. 2278-2294. , Aug; Bella Ferrera Prieto, M., Perez Litran, S., Duran Aranda, E., Manuel Enrique Gomez, J., New single-input, multiple-output converter topologies (2016) IEEE Industrial Electronics Magazine, 10 (2), pp. 6-20; Wai, R.J., Duan, R.Y., High step-up converter with coupled inductor (2005) IEEE Transactions Power Electronics, 20 (5), pp. 1025-1035. , Sep; Lee, J.J., Kwon, B.H., DC-DC converter using a multiple-coupled inductor for low output voltages (2007) IEEE Transactions on Industrial Electronics, 54 (1), pp. 467-478. , Feb; www.powersimtech.com, Powersim (2010) PSIM User Guide. Version 9. 0, Release 2; Arthur, F.W., Introduction to modeling of transformers and coupled inductors (1995) IEEE Transactions on Power Electronics, 10 (3), pp. 349-357. , May; Yang, L.-S., Liang, T.-J., Lee, H.-C., Chen, J.-F., Novel high step-up DC-DC converter with coupled-inductor and voltage-doubler circuits (2011) IEEE Transactions on Industrial Electronics, 58 (9). , September; Wu, H., Chen, R., Zhang, J., Xing, Y., Hu, H., Ge, H., A family of three port half-bridge converters for a stand-alone renewable power system (2012) IEEE Transaction on Power Electronics, 26 (9), pp. 2697-2706. , Sep; Mohan, N., Undeland, T.M., Robbins, W.P., (1995) Power Electronics: Converters, Applications, and Design, , New York, USA, Wiely",,"Ramesh P.L.N.Moorthi M.","","Institute of Electrical and Electronics Engineers Inc.","3rd IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2017","27 February 2017 through 28 February 2017",,128951,,9781509054343,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Inf., AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85026675045
"Kurhade R.I., Daingade S., Sharma A., Saroj P.C.","57195264257;56136566000;57199494599;25957744300;","Implementation of fast trigger generator for high coulomb spark gap switching",2017,"Proceedings of the 3rd IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2017",,,"7972319","295","298",,2,"10.1109/AEEICB.2017.7972319","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85026627693&doi=10.1109%2fAEEICB.2017.7972319&partnerID=40&md5=f214913d2c9b0b9ae89c3a26f3b1b2f3","Sardar Patel College of Engineering, Andheri, Mumbai, India; Bhabha Atomic Research Centre, Mumbai, India","Kurhade, R.I., Sardar Patel College of Engineering, Andheri, Mumbai, India; Daingade, S., Sardar Patel College of Engineering, Andheri, Mumbai, India; Sharma, A., Bhabha Atomic Research Centre, Mumbai, India; Saroj, P.C., Bhabha Atomic Research Centre, Mumbai, India","Design and implementation of a 15kV sub-nanosecond pulse generator using Trigatron type spark gap as a switch. Straightforward and compact trigger generator using pulse shaping network which produces a trigger pulse of sub-nanosecond rise time. A pulse power system requires delivering a high voltage, high coulomb in short rise time. This is achieved by using pulse shaping network comprises of parallel combinations of capacitors and inductor. Spark gap switches are used to switch the energy from capacitive source to inductive load. The pulse hence generated can be used for synchronization of two or more spark gap. Because of the fast rise time and the high output voltage, the reliability of the synchronization is increased. The analytical calculations, simulation, have been carried out to select the circuit parameters. Simulation results using MATLAB/SIMULINK have been implemented in the experimental setup and sub-nanoseconds output waveforms have been obtained. © 2017 IEEE.","Fast trigger generator; Jitter; Rise time; Spark gap switch","Jitter; MATLAB; Analytical calculation; Design and implementations; Fast trigger generator; Parallel combination; Pulse power systems; Risetimes; Spark gap switch; Sub-nanosecond pulse; Pulse shaping",,,,,"Bhabha Atomic Research Centre, BARC","Acknowledgment The author would like to give sincere thanks to Satendra Kumar, Priti Patade, Tanmay Kolge, M.R.Kulkarni working at Bhabha Atomic Research Centre, Mumbai for valuable knowledge and guidance.",,,,,,,,,,"Saroj, P.C., Kulkarni, M.R., Kumar, S., Sharma, V., Mitra, S., Patade, P., Sharma, A., Mittal, K.C., Synchronization and reliable operation of triggered spark gap switches in 40 kJ, 20 kV EMM System (2014) XXVI Int. Symp. on Discharges and Electrical Insulation in Vacuum-Mumbai, , India; Kumar, R., Mitra, S., Patel, A., Dwivedi, R., Kolge, T., Ranjeet, S.A., Chakravarthy, D.P., Novel synchronization technique for two parallel connected spark gap switches (2012) Review of Scientific Instruments, 83, p. 084702; Zhen, L.-E., Multiple-switch Pulsed Power Generation Based on A Transmission Line Transformer, , China; Kono, S., Ono, T., Hirayama, K., Matsushita, K., Biological effects of pulsed electric field by several ways of applying voltage (2005) IEEE Trans. Plasma Sci; Lindblom, A., Isberg, J., Bernho, H., Leijon, M., Inductive high voltage pulse generator based on resonance system (2007) Journal of Electrical Engineering, 58 (1); Yi, L., Fuchang, L., Feng, X., Qin, Z., Heqing, Z., Hua, L., Ling, D., Design and construction of a trigger generator based on pulse transformer for spark gap switch (2011) IEEE Transactions on Plasma Science, 39 (12). , December; Arefjev, A.S., Baranov, A.N., Vereschagin, N.M., (2000) IEEE 19th International Symposium on Discharges and Electrical Insulation in Vacuum, Xi'an; Mayes, J.R., Carey, W.J., Pulsed power conference, digest of technical papers 12th IEEE International (IEEE, 1999), 2, pp. 1207-1210",,"Ramesh P.L.N.Moorthi M.","","Institute of Electrical and Electronics Engineers Inc.","3rd IEEE International Conference on Advances in Electrical and Electronics, Information, Communication and Bio-Informatics, AEEICB 2017","27 February 2017 through 28 February 2017",,128951,,9781509054343,,,"English","Proc. IEEE Int. Conf. Adv. Electr. Electron., Inf., Commun. Bio-Inf., AEEICB",Conference Paper,"Final","",Scopus,2-s2.0-85026627693
"Prasad S., Sakpal D., Rakhe P., Rawool S.","57201854604;57201851509;57201850413;57201861950;","Head-motion controlled wheelchair",2017,"RTEICT 2017 - 2nd IEEE International Conference on Recent Trends in Electronics, Information and Communication Technology, Proceedings","2018-January",,,"1636","1640",,11,"10.1109/RTEICT.2017.8256876","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85046266301&doi=10.1109%2fRTEICT.2017.8256876&partnerID=40&md5=a9bb612b290199eeb500e45cb38559a9","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400058, India","Prasad, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400058, India; Sakpal, D., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400058, India; Rakhe, P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400058, India; Rawool, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400058, India","An electric wheelchair is propelled by means of an electric motor rather than manually. Persons with mobility impairments often traditionally use these. Quadriplegics are one of the many physically disabled people that require such electric wheelchairs. They have paralysis of all four limbs and the torso that may be caused due to spinal cord injuries, strokes or cerebral palsy. They have no control over their hand movements and cannot grasp things or perform motions that might allow them independence over their movements. They only have control over their head motions. For this reason, a head-motion controlled wheelchair would provide them with the flexibility of navigation. The tilting movements of the head in the four directions-forward, backward, right or left-would cause the wheelchair to move in the signalled directions. This paper represents a novel approach to developing a head-motion controlled wheelchair and aims to replicate the electric wheelchair on a small-scale basis and show its working and advantages over other electric wheelchairs available in the market. © 2017 IEEE.","accelerometer; actuators; head motion recognition; human machine interface; remote control; XBee; ZigBee","Accelerometers; Actuators; Motion estimation; Remote control; Zigbee; Cerebral palsy; Disabled people; Electric wheelchair; Hand movement; Head motion; Human Machine Interface; Spinal cord injuries (SCI); XBee; Wheelchairs",,,,,,,,,,,,,,,,"http://www.brainandspinalcord.org/quadriplegia/; Statistics on Occurrence of Quadriplegia in India, , http://www.rehabcouncil.nic.in/writereaddata/vi.pdf; Jia, P., Hu, H.H., Lu, T., Yuan, K., Head gesture recognition for hands-free control of an intelligent wheelchair, Industrial Robot (2007) An International Journal, 34 (1), pp. 60-68; Han, J.S., Bien, Z.Z., Kim, D.J., Lee, H.E., Kim, J.S., Humanmachine interface for wheelchair control with EMG and its evaluation Engineering in Medicine and Biology Society 2003 Proceedings of the 25th Annual International Conference of the IEEE, pp. 1602-1605. , September 17-21, Cancun, Mexico; Sandeep, Supriya, Wheelchair control using accelerometer based gesture technology (2015) International Journal of Advanced Research in Computer Engineering Technology (IJARCET), 4 (5), pp. 1802-1806. , May; Information on How to Configure XBee Using XCTU Software, , https://alselectro.wordpress.com/2017/01/23/zigbee-xbee-s2c-how-toconfigure-as-coordinator-router-end-device/; Pajkanovi, A., Doki, B., Wheelchair control by head motion (2013) Serbian Journal of Electrical Engineering, 10 (1), pp. 135-151. , February; Rechy-Ramirez, E.J., Hu, H., McDonald-Maier, K., Head movements based control of an intelligent wheelchair in an indoor environment, Robotics and Biomimetics (ROBIO) (2012) IEEE International Conference, pp. 1464-1469; Chen, S.H., Chen, Y.L., Chiou, Y.H., Tsai, J.C., Kuo, T.S., Headcontrolled device with M3S-based for people with disabilities Engineering in Medicine and Biology Society 2003 Proceedings of the 25th Annual International Conference of the IEEE, pp. 1587-1589. , September 17-21, Cancun, Mexico; Zeng, H., Zhao, Y., Sensing movements: Microsensors for body movement measurement (2011) Sensors, 11, pp. 638-660; Rahayfeh, A.A., Faezipour, M., Eye tracking and head movement detection: A state-of-art survey (2013) IEEE Journal of Translational Engineering in Health and Medicine, 1",,,,"Institute of Electrical and Electronics Engineers Inc.","2nd IEEE International Conference on Recent Trends in Electronics, Information and Communication Technology, RTEICT 2017","19 May 2017 through 20 May 2017",,134255,,9781509037049,,,"English","RTEICT - IEEE Int. Conf. Recent Trends Electron., Inf. Commun. Technol., Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85046266301
"Seth N., Goel V., Kulkami R.D.","57194429425;57189226794;7201509749;","Three phase innovative multilevel inverter topologies for research and industrial applications: A review",2017,"2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017 - Proceedings",,,"7947934","","",,9,"10.1109/ICNTE.2017.7947934","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85022066857&doi=10.1109%2fICNTE.2017.7947934&partnerID=40&md5=d6a02ed7759fb52c067529d1529688c0","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engineering, PEC University of Technology, Chandigarh, India; Experimental Facilities Section, RED, Bhabha Atomic Research Centre, Mumbai, India","Seth, N., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Goel, V., Department of Electrical Engineering, PEC University of Technology, Chandigarh, India; Kulkami, R.D., Experimental Facilities Section, RED, Bhabha Atomic Research Centre, Mumbai, India","Multilevel inverters have evolved and developed into a mature and successful technology as a result of its high power applications based electronic power conversion capabilities. The aim of this paper is to review various recently developed three phase multilevel inverter topologies with different configurations and control methodologies such that number of components employed is reduced and ultimately emerge as techno economical design. This paper strongly orients the reader towards recent advances made in the new topologies, their control strategies, modulation schemes including operational issues in order to provide a synergized and comprehensive review. The new promising topologies are analyzed both quantitatively and qualitatively so that these serve as the ultimate solution for a particular commercial, industrial and research application e.g. reactive power compensation, wind energy conversion systems, HVDC transmission, hydro-pumped storage, railway traction, solar thermal energy conversion and many more. Finally, the emerging trends, future scope and challenges offered by the multilevel inverter technology are outlined in order to encourage further contributions and development in this field. © 2017 IEEE.","HVDC Transmission; Modulation Schemes; Multilevel Inverter; PV System; Reactive Power Compensation","DC power transmission; Electric inverters; Electric power utilization; Energy conversion; HVDC power transmission; Modulation; Reactive power; Solar energy; Topology; Wind power; HVDC transmission; Modulation schemes; Multilevel inverter; PV system; Reactive power compensation; Industrial research",,,,,,,,,,,,,,,,"Rodriguez, J., Lai, J.S., Peng, F.Z., Multilevel inverters: A survey of topologies, controls, and applications (2002) IEEE Trans. Ind. Electron, 49 (4), pp. 724-738. , Aug; Rizzo, S., Zargari, N., Medium voltage drives: What does the future hold? (2004) Proc. 4th IPEMC Conf, 1, pp. 82-89. , Aug. 14-16; Klug, R.D., Klaassen, N., High power medium voltage drives Innovations portfolio, trends (2005) Proc. Eur. Conf. Power Electron. Appl, pp. 1-10; Wu, B., (2006) High-Power Converters, , AC Drives New York Wiley-IEEE Press, Mar; Steimer, P., High power electronics, trends of technology and applications (2007) Proc. PCIM, Germany, , May; Franquelo, L.G., Rodriguez, J., Leon, J.I., Kouro, S., Portillo, R., Prats, M.A.M., The age of multilevel converters arrives (2008) IEEE Ind. Electron. Mag, 2 (2), pp. 28-39. , Jun; Rodriguez, J., Wu, B., Bernet, S., Zargari, N., Rebolledo, J., Pontt, J., Steimer, P., Design and evaluation criteria for high power drives (2008) Conf. Rec IEEE IAS Annu. Meeting Oct. 5-9, pp. 1-9; Rodriguez, J., Franquelo, L.G., Kouro, S., Leon, J.I., Portillo, R.C., Prats, M.A.M., Perez, M.A., Multilevel converters: An enabling technology for high-power applications (2009) Proc IEEE, 97 (11), pp. 1786-1817. , Nov; Allebrod, S., Hamerski, R., Marquardt, R., New transformerless, scalable modular multilevel converters for HVDC transmission (2008) Proc IEEE Power Electron. Spec. Conf, pp. 174-179. , Jun. 15-19; Daher, S., Schmid, J., Antunes, F.L.M., Multilevel inverter topologies for stand-Alone PV systems (2008) IEEE Trans. Ind. Electron, 55 (7), pp. 2703-2712. , Jul; Gonzalez, R., Gubia, E., Lopez, J., Marroyo, L., Transformerless singlephase multilevel-based photovoltaic inverter (2008) IEEE Trans. Ind. Electron, 55 (7), pp. 2694-2702. , Jul; Ozdemir, E., Ozdemir, S., Tolbert, L.M., Fundamental frequencymodulated six-level diode-clamped multilevel inverter for three-phase stand-Alone photovoltaic system (2009) IEEE Trans. Ind. Electron, 56 (11), pp. 4407-4415. , Nov; Kerekes, T., Liserre, M., Teodorescu, R., Klumpner, C., Sumner, M., Evaluation of three-phase transformerless photovoltaic inverter topologies (2009) IEEE Trans. Power Electron, 24 (9), pp. 2202-2211. , Sep; Ma, L., Jin, X., Kerekes, T., Liserre, M., Teodorescu, R., Rodriguez, P., The PWM strategies of grid-connected distributed generation active NPC inverters (2009) Proc IEEE Energy Conv. Congr. Expo., Sep. 20-24, pp. 920-927; Kang, F.S., Park, S.J., Kim, C.U., Ise, T., Multilevel PWM inverters suitable for the use of stand-Alone photovoltaic power system (2005) IEEE Trans. Energy Convers, 20 (4), pp. 906-915. , Dec; Villanueva, E., Correa, P., Rodriguez, J., Pacas, M., Control of a singlephase cascaded H-bridge multilevel inverter for grid-connected photovoltaic systems (2009) IEEE Trans. Ind. Electron, 56 (11), pp. 4399-4406. , Nov; Kouro, S., Moya, A., Villanueva, E., Correa, P., Wu, B., Rodriguez, J., Control of a cascaded H-bridge multilevel converter for grid connection of photovoltaic systems (2009) Proc. 35th IEEE IECON, Porto, Portugal, pp. 1-7. , Nov; Grandi, G., Rossi, C., Ostojic, D., Casadei, D., A new multilevel conversion structure for grid-connected PV applications (2009) IEEE Trans. Ind. Electron, 56 (11), pp. 4416-4426. , Nov; Selvaraj, J., Rahim, N.A., Multilevel inverter for grid-connected PV system employing digital PI controller (2009) IEEE Trans. Ind. Electron, 56 (1), pp. 149-158. , Jan; www.rxpe.co.uk, Rongxin Power Electronic Co. (RXPE); LS Industrial Systems, , http://eng.lsis.biz/; www.yaskawa.eu.com, Yaskawa; Beijing Leader & Harvest Electric Technologies, , www.ld-harvest.com; Schneider-Electric, , www.schneider-electric.com; www.alstom.com, Alstom; Grupo Jema, , www.grupojema.com; Malinowski, M., Gopakumar, K., Rodriguez, J., Pérez, M.A., A survey on cascaded multilevel inverters (2010) IEEE Trans. Ind. Electron, 57 (7), pp. 2197-2206. , Jul; Rao, S.N., Kumar, D.V.A., Babu, C.S., New multilevel inverter topology with reduced number of switches using advanced modulation strategies (2013) Power, Energy and Control (ICPEC) 2013 International Conference on Year; Gobinath, K., Mahendran, S., Gnanambal, I., New cascaded h-bridge multilevel inverter with improved efficiency (2013) International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 2 (4). , April; Park, S.J., Kang, F.S., Lee, M.H., Kim, C.U., A new single-phase five-level PWM inverter employing a deadbeat control scheme (2003) IEEE Transactions on Power Electronics, 18 (3), pp. 831-843. , May; Selvaraj, J., Rahim, N.A., Multilevel inverter for grid-connected pv system employing digital pi controller (2009) IEEE Transactions on Industrial Electronics, 56 (1), pp. 149-158. , Jan; Hosseini Aghdam, M.G., Fathi, S.H., Gharehpetian, G.B., Comparison of OMTHD and OHSW harmonic optimization techniquesin multi-level voltage-source inverter with non-equal DC sources (2007) 7th International Conference on Power Electronics, ICPE-07, pp. 587-591. , Daegu, South Korea October 22-26; Kang, D.W., Hyun, D.S., Simple harmonic analysis method for multi-carrier PWM techniques using output phase voltage in multilevel inverter (2005) IEE Proceedings-Electric Power Applications, 152 (2), pp. 157-165. , March; Kim, T.J., Kang, D.W., Lee, Y.H., Hyun, D.S., The analysis of conduction and switching losses in multi-level inverter system (2001) Proc. of 32nd Annual IEEE Power Electronics Specialists Conference, PESC-2001, 3, pp. 1363-1368. , Vancouver, Canada, 17-21June; Flores, P., Dixon, J., Ortuzar, M., Carmi, R., Barriuso, P., Moran, L., Static var compensator and active power filter with power injection Capability, using 27-level inverters and photovoltaic cells (2009) IEEE Trans. Ind. Electron, 56, pp. 130-138; Najafi, E., Halim, A., Yatim, M., Design and Implementation of a New Multilevel Inverter Topology (2012) IEEE Transactions on Industrial Electronics, 59 (11). , November; Belkamel, H., Mekhilef, S., Masaoud, A., Naeim, M.A., Novel threephase asymmetrical cascaded multilevel voltage source inverter (2013) IET Power Electron, 6 (8), pp. 1696-1706. , Sep; Salem, A., Emad, M., Orabi, A., Ahmed, M., New three-phase symmetrical multilevel voltage source inverter (2015) IEEE Journal on Emerging and Selected Topics in Circuits and Systems, 5 (3). , September",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017","27 January 2017 through 28 January 2017",,128305,,9781509027941,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85022066857
"Sonare O.G., Chavan N.C., Kalamkar V.R.","57194331753;57194777820;37060998400;","Experimental investigation and optimization of Oxy-Acetylene assisted machining parameters for Nickel based alloy Inconel-718",2017,"2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017 - Proceedings",,,"7947985","","",,1,"10.1109/ICNTE.2017.7947985","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021917762&doi=10.1109%2fICNTE.2017.7947985&partnerID=40&md5=938b5ae511be7fb497aa84bca8d30d09","Sardar Patel College of Engineering, Andheri, Mumbai, India; Dept. of Engineering Science, RAIT, Nerul, Navi Mumbai, India; Department of Mechanical Engg., VNIT, Nagpur, India","Sonare, O.G., Sardar Patel College of Engineering, Andheri, Mumbai, India; Chavan, N.C., Dept. of Engineering Science, RAIT, Nerul, Navi Mumbai, India; Kalamkar, V.R., Department of Mechanical Engg., VNIT, Nagpur, India","This paper presents an experimental investigation of Inconel-718 nickel based alloy using Oxy-Acetylene Assisted Machining (OAAM) process, which is difficult-To-cut at room temperature and then results in disproportionate tool wear and poor surface finish. The workpiece surface is heated just before machining operation starts. This is done using external heat source till the set value of temperature is attained, due to heating the material surface is soften which enhances the material removal rate. The set value of temperature is constant while turning the workpiece surface using temperature control system on conventional lathe machine with the help of tungsten carbide cutting tool. This paper presents the design of experiment based on Taguchi method which is used to find the optimal cutting parameters for surface roughness. In this study, the methodology of L9 orthogonal array, signal-To-noise (S/N) ratio and analysis of variance (ANOVA) is applied to synthesize the effect of these parameters on Nickel based alloy Inconel-718. © 2017 IEEE.","Difficult-To-cut; Oxy-Acetylene assisted machining (OAAM); Surface roughness; Taguchi method; Temperature control system","Acetylene; Carbide cutting tools; Control systems; Design of experiments; Lighting; Machining centers; Nickel; Nickel alloys; Signal to noise ratio; Surface roughness; Taguchi methods; Temperature control; Tungsten carbide; Turning; Difficult-To-cut; Experimental investigations; Machining operations; Machining parameters; Material removal rate; Optimal cutting parameters; Oxy-Acetylene assisted machining (OAAM); Signal to noise (S/N) ratios; Analysis of variance (ANOVA)",,,,,,,,,,,,,,,,"Tosun, N., Ozler, L., Optimization for hot turning operations with multiple performance characteristics (2004) Int. J. Adv. Manuf. Technology, 23, pp. 777-782; Davami, M., Zadshakoyan, M., Investigation of tool temperature and surface quality in hot Machining of Hard-To-cut Materials (2008) World Academy of Science, Engineering and Technology, 46, pp. 672-676; Attai, H., Tavakoli, S., Vargas, R., Thomson, V., Laser-Assisted highspeed finish turning of superalloy Inconel 718 under dry condition (2010) CIRP Annals-Manufacturing Technology, 59, pp. 83-88; Feyzi, T., Mohsen Safavi, S., Improving Machinability of Inconel718 with a new hybrid machining technique (2013) International Journal of Manufacturing Technology, 66, pp. 1025-1030; Bhole, K., Gandhi, P., Kundu, T., On the evolution of cured voxel in bulk photopolymerization upon Gaussian Laser Exposure (2014) Journal of Applied Physics, 116, pp. 043105-043110. , July; Gandhi, P., Bhole, K., Characterization of bulk lithography process for fabrication of 3D Micro-structures (2013) ASME Journal on Nano and Micro Manufacturing, 1, pp. 041002-041018. , Dec; Gandhi, P., Deshmukh, S., Ramtekkar, R., Bhole, K., Baraki, A., On-Axis linear focused spot scanning microstereolithography system: Optomechatronic design, analysis and development (2013) Journal of Advanced Manufacturing Systems, 12 (1), pp. 43-68. , June; Anderson, M., Patwa, R., Shin, Y., Laser-Assisted machining of Inconel 718 with an economic analysis (2006) International Journal of Machine Tools & Manufacture, 46, pp. 1879-1891; Venkatesan, K., Ramanujam, R., Kuppan, P., (2014) Analysis of Cutting Forces and Temperature in Laser Assisted Machining of Inconel 718 Using Taguchi Method, 97, pp. 1637-1646. , GCMM 2014, Procedia Engineering; Ezugwu, E.O., Key improvements in the machining of difficult-To-cut aerospace Super alloys (2005) International Journal of Machine Tools & Manufacture, 45, pp. 1353-1367; Aslan, E., Camuscu, N., Birgoren, B., Design optimization of cutting parameters when turning hardened AISI 4140 steel (63HRC) with AL2O3+TiCN mixed ceramic tool (2007) Material and Design, 28, pp. 1618-1622; Jatin Taneja, K., Bector, M., Kumar, R., Application of Taguchi Method for Optimizing Turning Process by the effects of Machining Parameters (2012) International Journal of Engineering and Advanced Technology (IJEAT), 2 (1). , October ISSN:2249-8958; Panyaphirawat, T., Sapsmarnwong, P., Pornyungyuen, T., An optimization of machine parameters for modified horizontal Boring Tool Using Taguchi Method (2014) World Academy of Science, Engineering and Technology International Journal of Mechanical, Aerospace, Industrial, Mechatronics and Manufacturing Engineering 2014, 8 (9), pp. 1516-1520; Darwish, S.M., Machining of difficult-To-cut materials with bonded tools (2000) International Journal of Adhesion and Adhesives, 20, pp. 279-289; Ozler, L., Inan, A., Ozel, C., Theoretical and experimental determination of tool life in hot machining of austenitic manganese steel (2001) Int J. of Machine Tools & Manufacture, 41, pp. 163-172; Yang, W.H., Tarng, Y.S., Design optimization of cutting parameters for turning operations based on the Taguchi method (1998) Journal of Materials Processing Technology, 84, pp. 122-129; Taguchi, G., Introduction to quality engineering (1990) Tokyo: Asian Productivity Organization; Besterfield, D.H., (2005) Total Quality Management, , Third Edition Pearson Education; Phadke, M.S., Quality Engineering Using Robust Design, , Englewood Cliffs (NJ Prentice-Hall); Tata MacGraw Hill Education Pvt. Ltd., Table 4.7, Cutting Conditions for Turning, Page No 98, , Text book of Production Technology HMT Banglore; Operators Manual of Lathe Machine Kirloskar Turnmaster-35, , Manual 010399; Chang, C., Kuo, C., Evaluation of surface roughness in Laser-Assisted machining of aluminum oxide ceramics with Taguchi method (2007) International Journal of Machine Tools & Manufacture, 47, pp. 141-147; Nalbant, M., Gokkaya, H., Sur, G., Application of Taguchi method in the optimization of cutting parameters for surface roughness in turning (2007) International Journal of Materials and Design, 28, pp. 1379-1385; Paiva, A.P., Roberto Ferreira, J., Balestrassi, P.P., A multivariate hybrid approach applied to AISI 52100 hardened steel turning optimization (2007) Journal of Materials Processing Technology, 189, pp. 26-35; Su, Y., He, N., Li, L., Iqbal, A., Xiao, M.H., Xu, S., Qiu, B.G., Refrigerated cooling air cutting of difficult-To-cut materials (2007) International Journal of Machine Tools & Manufacture, 47, pp. 927-933; Singh, R., Melkote, S.N., Characterization of a hybrid laser assisted mechanical micromachining ( LAMM ) process for a difficult-Tomachine materials (2007) International Journal of Machine Tools & Manufacture, 47, pp. 1139-1150; Paulo Davim, J., Design optimization of cutting parameters for turning metal matrix composites based on the orthogonal arrays (2003) Journal of Materials Processing Technology, 132, pp. 340-344; Ghani, J.A., Choudhury, I.A., Hassan, H.H., Application of taguchi method in the optimization of end milling parameters (2004) Journal of Materials Processing Technology, 145, pp. 84-92; Suresh, P.V.S., Venkateswara Rao, P., Deshmukh, S.G., A genetic algorithmic approach for optimization of surface roughness prediction model (2002) International Journal of Machine Tools & Manufacture, 42, pp. 675-680; Kim, S.W., Lee, D.W., Kang, M.C., Kim, J.S., Evalution of machinability by cutting environments in high-speed milling of difficult-To-cut materials (2001) Journal of Materials Processing Technology, 111, pp. 256-260; Hosokawa, A., Ueda, T., Onishi, R., Tanaka, R., Furumoto, T., Turning of difficult-To-machine materials with actively driven rotary tool (2010) CIRP Annals-Manufacturing Technology, 59, pp. 89-92; Dumitrescu, P., Koshy, P., Stenekes, J., Elbestawi, M.A., High-power diode laser assisted hard turning of AISI D2 tool steel (2006) International Journal of Machine Tools & Manufacture, 46, pp. 2009-2016",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017","27 January 2017 through 28 January 2017",,128305,,9781509027941,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85021917762
"Lachuriya A., Kulkarni R.D.","57194778151;7201509749;","Stationary electrical energy storage technology for global energy sustainability: A review",2017,"2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017 - Proceedings",,,"7947936","","",,13,"10.1109/ICNTE.2017.7947936","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021915318&doi=10.1109%2fICNTE.2017.7947936&partnerID=40&md5=665506abfba0b954105b1639c07168fd","Sardar Patel College of Engineering, Mumbai, India; Experimental Facilities Section, RED, Bhabha Atomic Research Centre, Mumbai, India","Lachuriya, A., Sardar Patel College of Engineering, Mumbai, India; Kulkarni, R.D., Experimental Facilities Section, RED, Bhabha Atomic Research Centre, Mumbai, India","Today our life depends on electricity. With increase in demand, requirement of electricity generation is also increasing day by day. Energy should be transferred from fossil fuel to other energy sources. Stationary electrical energy storage technology is reported to be safe, flexible, unlimited and reliable. Goal of global energy sustainability is to replace the fossil fuel by renewable energy and to reduce the emission of greenhouse gases. This paper describes the requirements and various challenges of global energy sustainability. The paper also presents the role of energy storage in electricity supply network, different electrical energy storage technologies, control and power conditioning system, comparison of high power technologies including various important high power applications in research and industry. © 2017 IEEE.","Electrical Energy; Flywheel; Global Energy; Li-ion Battery; Power Generation; Storage Technology; Super Capacitors","Electric network parameters; Energy policy; Energy storage; Flywheels; Fossil fuels; Greenhouse gases; Industrial research; Lithium-ion batteries; Power generation; Sustainable development; Electrical energy; Electrical energy storages; Electricity generation; Electricity supply network; Global energy; High power applications; Power conditioning systems; Storage technology; Electric power system control",,,,,,,,,,,,,,,,"Chen, H., Ngoc Cong, T., Li, Y., Ding, Y., Progress in electrical energy storage system: A critical review (2009) Progress in Natural Science, 19, pp. 291-312; Luo, X., Wang, J., Dooner, M., Overview of Current Development in Electrical Energy Storage Technologies and the Application Potential in Power System Operation, , Jonathan Clarke School of Engineering, The University of Warwick, UK; Dell, R.M., Rand, D.A.J., Energy storage-A key technology for global energy sustainability (2001) Article in Journal of Power Sources, 100 (12), p. 217. , November; Michael, T., Christopher, W., Isaacs Eric, D., Electrical energy storage for transportation-Approaching the limits of and going beyond, lithium-ion batteries (2012) Article in Energy and Environmental Science, 5 (7), pp. 7854-7863. , June; Divya, K.C., Battery energy storage technology for power systems-An overview (2009) Jacob Østergaar, pp. 511-520. , Technical University of Denmark, Denmank Electric Power Systems Research 79; Farhadi, M., Mohammed, O., Energy storage technologies for high power applications (2016) IEEE Transactions on Industry Applications, 52 (3), pp. 1953-1961. , May/June; Cohen, I.J., Kelley, J.P., Wetz, D.A., Heinzel, J., Evaluation of a hybrid energy storage module for pulsed power applications (2014) IEEE Transactions on Plasma Science, 42 (10), pp. 2948-2955. , October; Patrick, K., Gregory, Ng., Roy Davis, M., System Integration of Lithium-Ion Battery in Telecommunication Back-up Power Plant, , Tyco Electronics Power Systems, USA",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017","27 January 2017 through 28 January 2017",,128305,,9781509027941,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85021915318
"Tank K., Pai S.K., Kamath R., Beloshe A., Pai V., Patel K., Solanki B., Joshi N., Sawant S.","57194779950;57194770831;57194769139;57194761385;57193739374;57194760308;57194761930;57194698660;57194763288;","Gripmitt: An electronic exoskeleton for improved hand movement",2017,"2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017 - Proceedings",,,"7947953","","",,1,"10.1109/ICNTE.2017.7947953","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021866344&doi=10.1109%2fICNTE.2017.7947953&partnerID=40&md5=76d46ecda36626c16a3e5b7da382dd0e","D. J. Sanghvi College of Engineering, Mumbai, India; Atharva College of Engineering, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India; Thakur College of Engineering, Mumbai, India; Sardar Patel Institute of Technology, Mumbai, India; B.P.T. Physiotherapy, Maeer's College of Physiotherapy, Pune, India","Tank, K., D. J. Sanghvi College of Engineering, Mumbai, India; Pai, S.K., Atharva College of Engineering, Mumbai, India; Kamath, R., Sardar Patel College of Engineering, Mumbai, India; Beloshe, A., Thakur College of Engineering, Mumbai, India; Pai, V., Sardar Patel Institute of Technology, Mumbai, India; Patel, K., B.P.T. Physiotherapy, Maeer's College of Physiotherapy, Pune, India; Solanki, B., B.P.T. Physiotherapy, Maeer's College of Physiotherapy, Pune, India; Joshi, N., B.P.T. Physiotherapy, Maeer's College of Physiotherapy, Pune, India; Sawant, S., B.P.T. Physiotherapy, Maeer's College of Physiotherapy, Pune, India","Grip is the result of sequence of operations including opening of hand, positioning of fingers, bringing the fingers closer to the object and maintaining the hold of an object. Gripping is a problem in many people, may it be patients with brain injury, spinal cord injury, nerve injury, fractures and many more. The formation of the grip requires action of flexors and extensors of wrist and fingers. If any of these is affected, this grip will be affected or it may also be lost. Problems in gripping hampers even the basic activities of daily life's, like picking up a glass of water, wringing clothes, holding a bottle, etc. This increases the dependency of the patient on others and thus reduces the quality of life. Cylindrical grip is one of the most powerful grips that enable a person to grab cylindrical objects like a glass of water, a bottle, etc. Other types of grip includes spherical grip, point grip etc. Here, we introduce Gripmitt. This device provides an external assistance to the user to make a cylindrical grip possible. In order to achieve this, the patient's functioning of the shoulder and elbow needs to be intact. This device operates on verbal commands given by the patient himself. Voice of the patient and function of each verbal command is pre-stored in the module. Patient needs no external assistance once the device is fitted on his/her hand. The device can be easily mounted and unmounted from the patient's hand and it can be effectively used. © 2017 IEEE.","cylindrical grip; fractures; gripmitt; spasticity","Bottles; Fracture; Glass; Activities of Daily Life; cylindrical grip; Cylindrical objects; gripmitt; Nerve injuries; Quality of life; Spasticity; Spinal cord injuries (SCI); Exoskeleton (Robotics)",,,,,,,,,,,,,,,,"Matthew, B., Burn, M.D., Three-dimensional printing of prosthetic hands for children (2016) The Journal of Hand Surgery, 41, p. 5; Kumbay Yildiz, S., Fabrication and characterization of highly stretchable elastomeric strain sensors for prosthetic hand applications (2016) Sensors & Actuators A: Physical, 247, pp. 514-521; Erik, D., Engeberg A physiological basis for control of a prosthetic hand (2013) Biomedical Signal Processing and Control, 8 (1), pp. 6-15; Andrecioli, R., Adaptive sliding manifold slope via grasped object stiffness detection with a prosthetic hand (2013) Mechatronics, 23 (8), pp. 1171-1179; Hand synergies: Integration of robotics and neuroscience for understanding the control of biological and artificial hands (2016) Physics of Life Reviews, 17, pp. 47-49. , Marc H. Schieber. Comment on; Upper, M.C., Prostheses, L., A Review of the Literature with A Focus on Myoelectric Hands, , [Last accessed on 2011 Feb]; Roeschlein, R.A., Domholdt, E., Factors related to successful upper extremity prosthetic use (1989) Prosthet Orthot Int, 13, pp. 14-18. , [PubMed]; Heger, H., Millstein, S., Hunter, G., Electrically powered prostheses for the adult with an upper limb amputation (1985) J Bone Joint Surg Br, 67, pp. 278-281. , [PubMed]; Aszmann, O.C., Dietl, H., Frey, M., Selective nerve transfers to improve the control of myoelectric arm prosthesis (2008) Handchir Mikrochir Plast Chir, 40, pp. 60-65. , [PubMed]; Seo, Delays in grip initiation and termination in persons with stroke: Effects of arm support & active muscle stretch exercise (2009) Journal of Neurophysiology, 101 (6), p. 3108; Catherine, Recovery of thumb and finger extension and its relation to grasp performance after stroke (2009) Journal of Neurophysiology, pp. 451-459",,,"","Institute of Electrical and Electronics Engineers Inc.","2017 International Conference on Nascent Technologies in Engineering, ICNTE 2017","27 January 2017 through 28 January 2017",,128305,,9781509027941,,,"English","Int. Conf. Nascent Technol. Eng., ICNTE - Proc.",Conference Paper,"Final","",Scopus,2-s2.0-85021866344
"Seth N., Goel V., Kulkarni R.D., Joshi V.P.","57194429425;57189226794;7201509749;57193646938;","Performance analysis of seven level three phase asymmetric multilevel Inverter at various modulation indices",2017,"International Conference on Electrical Power and Energy Systems, ICEPES 2016",,,"7915966","407","413",,10,"10.1109/ICEPES.2016.7915966","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85020103435&doi=10.1109%2fICEPES.2016.7915966&partnerID=40&md5=86bfea44cdc35d396064a563167b8fde","Department of Electrical Engg., Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engg., PEC University of Technology, Chandigarh, India; Reactor Engineering Division, Bhabha Atomic Research Centre, Mumbai, India; Dept. of Electrical Engg., Sardar Patel College of Engineering, Mumbai, India","Seth, N., Department of Electrical Engg., Sardar Patel College of Engineering, Mumbai, India; Goel, V., Department of Electrical Engg., PEC University of Technology, Chandigarh, India; Kulkarni, R.D., Reactor Engineering Division, Bhabha Atomic Research Centre, Mumbai, India; Joshi, V.P., Dept. of Electrical Engg., Sardar Patel College of Engineering, Mumbai, India","This paper analyses the performance of an asymmetric topology of three phase seven level Multi-Level Inverter (MLI) at various modulation indices. The ultimate aim of carrying out the analysis is to vary the modulation index so as to obtain an optimum value at minimum Total Harmonic Distortion (THD). This topology offers a major advantage such that it contains lower number of switches and input DC source as compared to the conventional and other existing three phase MLI topologies. Amongst the conventional topologies such as Diode Clamp Multi-Level Inverter (DCMLI), Flying Capacitor Multi-Level Inverter (FCMLI) and Cascaded Multi-Level Inverter (CMLI), CMLI requires minimum number of components as we go for higher number of levels. In case of seven level, three phase MLI's, conventional CMLI requires thirty six switches whereas in the proposed topology, the required number of switches are one third of the conventional CMLI i.e. only twelve switches are required for the generation of three phase seven level output voltage. For achieving this, Multi-carrier Sinusoidal Pulse Width Modulation (MSPWM) technique is used. The topology is successfully simulated and verified using Simu-link tool at various modulation indices and detailed comparison between modulation indices and THD thus obtained is also carried out. © 2016 IEEE.","Asymmetric topology; Cascaded Multilevel Inverter; Modulation Index; Multi-carrier Sinusoidal Pulse Width Modulation; Total Harmonic Distortion","Electric inverters; Harmonic distortion; Pulse width modulation; Topology; Voltage control; Wave filters; Cascaded multi-level inverters; Conventional topologies; Multi Level Inverter (MLI); Multilevel inverter; Number of components; Performance analysis; Sinusoidal pulse width modulation; Total harmonic distortion (THD); Modulation",,,,,,,,,,,,,,,,"Lai, J.S., Peng, F.Z., Multilevel converters-A new breeds of power converters (1996) IEEE Trans. Ind. Appl., 32 (3), pp. 509-517. , May/June; Hochgraf, C., Lasseter, R., Divan, D., Lipo, T.A., Comparison of multilevel inverters for static VAR compensation (1994) Proc. IEEE Ind. Appl. Soc. Annu. Meeting, pp. 921-928; Ishida, T., Matsuse, K., Miyamoto, T., Sasagawa, K., Huang, L., Fundamental characteristics of five-level double converters with adjustable DC voltages for induction motorsdrives (2002) IEEE Trans. Ind. Electron., 49 (4), pp. 775-782. , Aug; Rodriguez, J., Jih-Sheng, L., Fang Zheng, P., Multilevels inverters: A survey of topologies, controls, and applications (2002) IEEE Trans. Ind. Electron., 49, pp. 724-738; Colak, I., Kabalci, E., Bayindir, R., Review of multilevel voltage source inverter topologies and control schemes (2011) Energy Convers Manage, 52 (2), pp. 1114-1128; Rech, C., Pinheiro, J.R., Impact of hybrid multilevel modulation strategies on input and output harmonic performance (2007) IEEE Trans. Power Electron., 22 (3), pp. 967-977. , May; Su, G.J., Multilevels DC-link inverter (2005) IEEE Trans. Ind. Appl., 41 (3), pp. 848-854. , May-June; Malinowski, M., Gopakumar, K., Rodriguez, J., Pérez, M.A., A survey on cascaded multilevel inverters (2010) IEEE Trans. Ind. Electron., 57 (7), pp. 2197-2206. , July; Baimel, D., Tapuchi, S., A new topology of cascaded multilevels inverter (2013) Proc. Int. Symp., pp. 137-140. , Sep; Belkamell, H., Mekhilef, S., Masaoud, A., Naeim, M.A., Novel threephase asymmetrical cascaded multilevelsvoltage source inverter (2013) IET Power Electron., 6 (8), pp. 1696-1706. , Sep; Veenstra, M., Rufer, A., Control of a hybrid asymmetric multilevels invertersfor competitive medium-voltage industrial drives (2005) IEEE Trans. Ind. Appl., 41 (2), pp. 655-664. , March/April; Laii, Y.S., Shyu, F.S., Topology for hybrid multilevel inverter (2002) IEE Proc. Elec. Power Appl., 149 (6), pp. 449-458. , Nov; Takahashi, N.I., Akagi, H., A new neutral-point-clamped PWM inverter (1981) IEEE Trans. Ind. Appl., IA-17 (5), pp. 518-523. , Sep; Kumar, P.R., Karthik, R.S., Gopakumar, K., Leon, J.I., Franquelo, L.G., Seventeen-level inverter formed by cascading flying capacitor and floating capacitor H-bridges (2015) IEEE Trans. Power Electron., 30 (7), pp. 3471-3478. , July; Goel, V., Kumar, J., Gambhir, J., Different multilevel inverter topologies with reduced number of devices (2015) 2nd IEEE International Conf. on Recent Advances in Engineering & Computational Sciences; Seth, N., Kulkarni, R.D., Joshi, V.P., Three Phase Asymmetric Multilevel Inverter with Reduced number of Switches for Improved Harmonic Performance (2016) International Journal of Engineering Research & Technology, 5 (1). , January",,,"","Institute of Electrical and Electronics Engineers Inc.","2nd International Conference on Electrical Power and Energy Systems, ICEPES 2016","14 December 2016 through 16 December 2016",,127556,,9781509024766,,,"English","Int. Conf. Electr. Power Energy Syst., ICEPES",Conference Paper,"Final","",Scopus,2-s2.0-85020103435
"Muley P.K., Bapat S.L., Atrey M.D.","57193771185;7004710293;6602560004;","Design analysis of a Helium re-condenser",2017,"IOP Conference Series: Materials Science and Engineering","171","1","012067","","",,1,"10.1088/1757-899X/171/1/012067","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85016488942&doi=10.1088%2f1757-899X%2f171%2f1%2f012067&partnerID=40&md5=551ac487d617ff9ae7751cee752d3df9","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India; Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India","Muley, P.K., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, 400058, India, Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India; Bapat, S.L., Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India; Atrey, M.D., Mechanical Engineering Department, Indian Institute of Technology Bombay, Mumbai, 400076, India","Modern helium cryostats deploy a cryocooler with a re-condenser at its II stage for in-situ re-condensation of boil-off vapor. The present work is a vital step in the ongoing research work of design of cryocooler based 100 litre helium cryostat with in-situ re-condensation. The cryostat incorporates a two stage Gifford McMahon cryocooler having specified refrigerating capacity of 40 W at 43 K for I stage and 1 W at 4.2 K for II stage. Although design of cryostat ensures thermal load for cryocooler below its specified refrigerating capacity at the second stage, successful in-situ re-condensation depends on proper design of re-condenser which forms the objective of this work. The present work proposes design of helium re-condenser with straight rectangular fins. Fins are analyzed for optimization of thermal performance parameters such as condensation heat transfer coefficient, surface area for heat transfer, re-condensing capacity, efficiency and effectiveness. The present work provides design of re-condenser with 19 integral fins each of 10 mm height and 1.5 mm thickness with a gap of 1.5 mm between two fins, keeping in mind the manufacturing feasibility, having efficiency of 80.96 % and effectiveness of 10.34. © Published under licence by IOP Publishing Ltd.",,"Condensation; Cooling; Cryogenic equipment; Cryostats; Efficiency; Engineering research; Fins (heat exchange); Heat transfer; Helium; Refrigeration; Condensation heat transfer coefficients; Condensing capacity; Design Analysis; Proper design; Recondensation; Rectangular fins; Refrigerating capacity; Thermal Performance; Cryogenics",,,,,"Board of Research in Nuclear Sciences, BRNS","The authors acknowledge the continuous financial support from the Board of Research in Nuclear Sciences (BRNS) for the ongoing research work in the area of in-situ re-condensation.",,,,,,,,,,"Kirichek, O., Carr, P., Johnson, C., Atrey, M., Nuclear magnetic resonance magnet actively cooled by pulse tube refrigerator (2005) Review of Scientific Instruments, 76 (5); Choudhury, A., Kar, S., Chacko, J., Kumar, M., Babu, S., Sahu, S., Kumar, R., Datta, T., Cool down analysis of a cryocooler based quadrupole magnet cryostat (2015) Physics Procedia, 67, pp. 320-325; Incropera, F., Dewitt, D., One dimensional steady state conduction Boiling and condensation chapter 3 chapter 10 (2006) Fundamentals of Heat and Mass Transfer, pp. 126-138. , (John Wiley amp;Sons Inc Singapore); McCarty, R.D., Arp, V.D., A new wide range equation of state for helium (1990) Advances in Cryogenic Engineering, 35, pp. 1465-1475; Barron, R., Two phase heat transfer and pressure drop chapter 4 (1999) Cryogenic Heat Transfer, pp. 179-181. , ed G Hewitt and C Tien (Taylor amp; Francis Philadelphia); Flynn, T., Transport properties of solids chapter 5 (2005) Cryogenic Engineering, pp. 317-318. , (New York: Marcel Dekker); Wang, N.M.R., Design of cryostat assembly (2006) Lawrence Berkley National Laboratory Final Engineering Design for MICE Spectrometer Solenoid Magnets, pp. 22-27. , chapter 3",,"Datta T.S.Kar S.Sharma R.G.","","Institute of Physics Publishing","26th International Cryogenic Engineering Conference, ICEC 2016 and International Cryogenic Materials Conference 2016, ICMC 2016","7 March 2016 through 11 March 2016",,126871,17578981,,,,"English","IOP Conf. Ser. Mater. Sci. Eng.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-85016488942
"Bhosale V., Hadawale P., Borole A., Kinhekar N.","57220412760;57193689668;57193701278;55920860800;","Automated demand response for residential consumers",2017,"2016 National Power Systems Conference, NPSC 2016",,,"7858960","","",,4,"10.1109/NPSC.2016.7858960","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015939178&doi=10.1109%2fNPSC.2016.7858960&partnerID=40&md5=f35e3d24e7478fa01ea50c80c88276cd","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Bhosale, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Hadawale, P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Borole, A., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kinhekar, N., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Demand response activities to mitigate peak and eliminate its drawback are carried out only at large industries or commercial complex. The residential sector is overlooked due to the unavailability of the required architecture and remains unexploited thus possessing great potential. The advent of smart grid technology has bolstered up the importance of residential sector in Demand response. Taking advantage of this fact our paper aims at providing an economical hardware solution to equip residential sector with the architecture required to capitalize on its untouched potential. © 2016 IEEE.","Curtailable loads; Demand Response; Dimming; Grid State; Residential; Shiftable loads; Voltage Control","Dimming (lamps); Hardware; Housing; Voltage control; Demand response; Grid state; Hardware solutions; Large industries; Residential; Residential consumers; Residential sectors; Smart Grid technologies; Smart power grids",,,,,,,,,,,,,,,,"Ministry of statistics and programme implementation government of India Energy Statistics 2016, , http://mospi.nic.in/mospi_new/upload/Energy_statistics_2016.pdf, Chapter 6; Hemmes, F., Papyrakis, E., Beukering, P., Waste not, want not: How utilities can help consumers save energy (2012) The Journal of Sustainable Development, 7 (1), pp. 1-16; Mohsenian-Rad, A.H., Wong, V.W.S., Jatskevich, J., Schober, R., Optimal and autonomous incentive-based energy consumption scheduling algorithm for smart grid (2010) Innovative Smart Grid Technologies (ISGT), pp. 1-6. , IEEE; Kinhekar, N., Padhy, N.P., Li, F., Gupta, H.O., Utility oriented demand side management using smart ac and micro dc grid cooperative (2015) IEEE Transactions on Power Systems, 31 (2), pp. 1151-1160. , March; Seo, J., Automated residential demand response based on advanced metering infrastructure network (2016) International Journal of Distributed Sensor Networks, 12 (2). , February; Open Energy Monitor, , https://openenergymonitor.org/emon/buildingblocks; Chen, Y., Liu, R.P., Wang, C., De Groot, M., Zeng, Z., Consumer operational comfort level based power demand management in the smart grid (2012) Innovative Smart Grid Technologies (ISGT Europe), pp. 1-6. , IEEE PES; Costanzo, G.T., Zhu, G., Anjos, M.F., Savard, G., A System architecture for autonomous demand side load management in smart buildings (2012) IEEE Trans. Smart Grid, 3 (4), pp. 2157-2165; Chang, T.H., Alizadeh, M., Scaglione, A., Real-Time power balancing via decentralized coordinated home energy scheduling (2013) IEEE Trans. Smart Grid, 4 (3), pp. 1490-1504; Kinhekar, N., Padhy, N.P., Gupta, H.O., Multiobjective demand side management solutions for utilities with peak demand deficit (2013) International Journal of Electrical Power and Energy Systems, 55, pp. 612-619. , October; Pipattanasomporn, M., Kuzlu, M., Rahman, S., An algorithm for intelligent home energy management and demand response analysis (2012) IEEE Trans. Smart Grid, 3 (4), pp. 2166-2173",,,"","Institute of Electrical and Electronics Engineers Inc.","2016 National Power Systems Conference, NPSC 2016","19 December 2016 through 21 December 2016",,126521,,9781467399685,,,"English","Natl. Power Syst. Conf., NPSC",Conference Paper,"Final","",Scopus,2-s2.0-85015939178
"Gudhe S., Pimple B.B.","57193694164;36976185300;","Improved torque response of induction motor drive using direct torque control technique applying Fuzzy Logic Control",2017,"1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016",,,"7853611","","",,4,"10.1109/ICPEICES.2016.7853611","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015922059&doi=10.1109%2fICPEICES.2016.7853611&partnerID=40&md5=d5f5b046cdc64475852b009447998bf7","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Gudhe, S., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Pimple, B.B., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","In this paper a new control technique is proposed by using fuzzy logic control for direct torque control of induction motor. Contemporarily, induction motor is most commonly used for variable speed drive application because of following advantages over DC drives: low maintenance cost, high efficiency; robust and rigged operation; and can be used in any environmental conditions. Field oriented control is one of the strategy for control of induction motor and has been widely acknowledged in drive industry. But due to its complexities such as sensitivity to parameter variation, tuning, temperature and tedious vector calculations, direct torque control technique is gaining importance. Large torque ripples occur in induction motor, based on conventional direct torque control system. For this problem of DTC, fuzzy control theory is proposed and executed. A modified look up table for the selection of switching vectors is proposed. Space vector modulation technique is used to synthesize the inverter output voltages. Fuzzy controller system is applied for 1.5kW of motor which selects appropriate voltage space vector for minimum torque ripples. The proposed scheme is simulated on the platform of Matlab/Simulink. © 2016 IEEE.","Direct Torque Control; Fuzzy Logic Control Technique; Space Vector Modulation; Torque Ripples","Computer circuits; Electric drives; Electric machine control; Fuzzy control; Fuzzy logic; Induction motors; Intelligent control; Modulation; Power control; Power electronics; Sensitivity analysis; Table lookup; Temperature control; Torque; Torque control; Variable speed drives; Vector spaces; Vectors; Direct torque control; Direct torque control system; Environmental conditions; Fuzzy logic control; Sensitivity to parameters; Space Vector Modulation; Torque ripples; Voltage space vectors; Vector control (Electric machinery)",,,,,,,,,,,,,,,,"Gdaim, S., Mtibaa, A., Faouzimimouni, M., Design and experimental i mplementation of dtc of an induction machine based oh fuzzy logic control on FPGA (2015) IEEE Transactions on Fuzzy Systems, 23 (3). , June; Takahashi, I., Noguchi, T., A new quick-response and h igh-efficiency control strategy of an i nduction motor (1986) IEEE Transactions on Industry Applications, 1 (5). , SEPTMBERIOCTOBER 22; Kowalski, C.T., Laceklis, O.-K.T., FPGA implementation of dtc control method for induction motor drive EUROCon 2007 the International Conference on, , Computer as a Tool; Bose, B.K., Modern Power Electronics and AC Drives, , PHI publ ications; Nabae, A., Otsuka, K., Uchino, H., Kurosawa, R., An approach to tlux control of Induction Motors operated withvariable frequency power supply (1980) IEEE. Trans. Ind. Appl., 1-16, pp. 342-350. , may/June; Garces, L.J., Parameter adoption for speed controlled statatic as drive with squirrel-cage induction motor (1980) IEEE Trans. Ind. Appl., 1-16, pp. 173-178. , Mar/Apr; Ralph, K., Elwy, E., Sabry, M., Abdou, E., Farouk, E., Improved Control for Induction motor drives with rapid prototyping system (2006) Energy Convers. Manage., 47, pp. 1999-2010; Anaianese, C., Meo, S., Perfeno, A., A voltage feeding algorithm for direct torque control of induction motor drives using state feedback (1998) Industrial Electronics Society. 1998. i ECON '98. Proceedings of the 24th Annual Conference of the IEEE, Aachen, 2, pp. 586-590; SoufienGdaim, A., Faouzimimouni, M., Design and experimental implementation of dtc of an induction machine based oh fuzzy logic control on FPGA (2015) IEEE Transactions on Fuzzy Systems, 23 (3). , June",,,"IEEE PELS-IES Delhi Chapter;IEEE PES-lAS Delhi Chapter","Institute of Electrical and Electronics Engineers Inc.","1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016","4 July 2016 through 6 July 2016",,126482,,9781467385879,,,"English","IEEE Int. Conf. Power Electron., Intell. Control Energy Syst., ICPEICES",Conference Paper,"Final","",Scopus,2-s2.0-85015922059
"Ramayana M.S., Kinhekar N., Ghat M.","57193693527;55920860800;57204888288;","Grid connection of Modular Multilevel converter",2017,"1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016",,,"7853562","","",,1,"10.1109/ICPEICES.2016.7853562","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015898360&doi=10.1109%2fICPEICES.2016.7853562&partnerID=40&md5=10d6829091a2f5e82cbb9fb03c29a48c","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Ramayana, M.S., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Kinhekar, N., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Ghat, M., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","This paper presents the detailed understanding of Modular Multilevel converters for its applications in HVDC and FACTS. Along with this, mathematical model of the converter in state space representation is presented. Scalability and modular nature of this configuration are making it a promising VSI topology in high power applications. To explore its applications in HVDC and FACTS controllers a detailed parameter design procedure is presented. In parameter design procedure selection of arms inductance and submodule capacitance is an essential part to minimize the circulating currents and to avoid resonance in the circuit. For validating the PQ-Controller for Modular Multilevel Converter a STATCOM is designed and its simulation results produces in PSCAD/EMTDC environment are presented. © 2016 IEEE.","Design of Converter Parameters; MMC-STATCOM; Modular Multilevel Converter; Modulation Technique","Controllers; DC power transmission; Electric current regulators; Flexible AC transmission systems; HVDC power transmission; Intelligent control; Power control; Power electronics; State space methods; Static synchronous compensators; Circulating current; FACTS controller; Grid connections; High power applications; Modular multilevel converters; Modulation techniques; Parameter designs; State space representation; Power converters",,,,,,,,,,,,,,,,"Adam, G.P., Anaya-Lara, O., Burt, G.M., Telford, D., Williams, W., MeDonald, J.R., Modular multilevel inverter: Pulse width modulation and eapaeitor balaneing teehnique (2010) Power Electronics, LET, 3 (5), pp. 702-715. , September; Li, B., Yang, R., Xu, D., Wang, G., Wang, W., Xu, D., Analysis of the phase-shifted carrier modulation for modular multi level converters (2015) Power Electronics, IEEE Transactions on, 30 (1), pp. 297-310. , Jan; Dargahi, V., Sadigh, A.K., Abarzadeh, M., Eskandari, S., Corzine, K.A., A new family of modular multilevel converter based on modified flying-capaeitor multieell converters (2015) Power Electronics, IEEE Transactions on, 30 (1), pp. 138-147. , Jan; Debnath, S., Qin, J., Bahrani, B., Saeedifard, M., Barbosa, P., Operation, control, and applieations of the modular multilevel converter: A review (2015) Power Electronics, IEEE Transactions on, 30 (1), pp. 37-53. , Jan; Mathew, E., Ghat, M., Shukla, A., A generalized cross-conneeted submodule strueture for hybrid multilevel converters IEEE Transactions on Indus/ly Applications, (99), p. 1. , 0.I I 09lTIA2016.25351 17; Gnanarathna, U.N., Chaudhary, S.K., Gole, A.M., Teodoreseu, R., Modular multi-level eonverter based HVDC system for grid eonneetion of offshore wind power plant (2010) AC and DC Power Transmission, 2010. ACDC. 9th LET International Coriference on, pp. 1-5. , 19-2I Oet; Iives, K., Harnefors, L., Norrga, S., Nee, H.-P., Analysis and operation of modular multilevel converters with phase-shifted carrier PWM (2015) Power Electronics, IEEE Transactions on, 30 (1), pp. 268-283. , Jan; Iives, K., Antonopoulos, A., Norraga, S., Nee, H., Steady state analysis of interaction between harmonie components of arm line quantities of modular multilevel converters (2012) IEEE TRANSACTIONS on POWER ELECTRONICS, 27 (1), pp. 57-68; Solas, E., Abad, G., Barrena, A.J., Aurtenetxea, S., Carear, A., Zajae, L., Modular multilevel converter with different submodule coneepts-part i: Capaeitor voltage balaneing method (2013) Industrial Electronics, IEEE Transactions on, 60 (10), pp. 4525-4535. , Oet; Solas, E., Abad, G., Barrena, A.J., Aurtenetxea, S., Carear, A., Zajae, L., Modular multilevel converter with different submodule coneepts-part 11: Experimental validation and comparison for hvdc applieation (2013) Industrial Electronics, IEEE Transactions on, 60 (10), pp. 4536-4545. , Oet; Solas, E., Abad, G., Barrena, J.A., Carear, A., Aurtenetxea, S., Modelling, simulation and eontrol of modular multilevel converter (2010) Power Electronics and Motion Control Coriference (EPEIPEMC), 2010 14th International, pp. T290-T296. , 6-8 Sept; Zygmanowski, M., Grzesik, B., Nalepa, R., Capaeitanee and induetanee seleetion of the modular multilevel eonverter (2013) Power Electronics and Applications (EPE), 2013 15th European Coriference on, pp. 1-10. , 2-6 Sept",,,"IEEE PELS-IES Delhi Chapter;IEEE PES-lAS Delhi Chapter","Institute of Electrical and Electronics Engineers Inc.","1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016","4 July 2016 through 6 July 2016",,126482,,9781467385879,,,"English","IEEE Int. Conf. Power Electron., Intell. Control Energy Syst., ICPEICES",Conference Paper,"Final","",Scopus,2-s2.0-85015898360
"Hemke G.D., Daingade S.","57193689205;56136566000;","Fast Terminal Sliding Mode based DC-DC Buck converter",2017,"1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016",,,"7853612","","",,6,"10.1109/ICPEICES.2016.7853612","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015838628&doi=10.1109%2fICPEICES.2016.7853612&partnerID=40&md5=732554bf5cf9db08464ec500a00ab5d8","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Hemke, G.D., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Daingade, S., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","DC to DC converters are extensively used for the transforming DC voltage from one voltage level to another. Buck converter is one of a type which is used to lower the level of DC voltage. Various control strategies have been proposed in the past for performance improvement of DC to DC Buck converter. The work presented in this paper is based on Fast Terminal Sliding Mode control, which combines the advantage of conventional sliding mode and terminal sliding mode. Fast terminal sliding based control strategy is designed to bring error states at equilibrium in finite time. The robustness of proposed control law is demonstrated through simulation. © 2016 IEEE.","Buck Converter; Fast Terminal Sliding Mode Control; Sliding Mode Control","Control theory; Electric inverters; Intelligent control; Power control; Power converters; Power electronics; Sliding mode control; Buck converters; Control strategies; DC-DC buck converter; DC-to-DC converters; Fast terminal sliding mode controls; Sliding modes; Terminal sliding mode; Voltage levels; DC-DC converters",,,,,,,,,,,,,,,,"Manavelli, R.P.L., Spiazzi, G., Small-singnal analysis of DC-DC converter with sliding mode control (1997) IEEE Transactions on Power Electronics, 12, pp. 96-102; Wang, Y., Xia, H., Cao, Y., Voltage controller of OC-OC buck converter using terminal sliding mode (2015) Industrial Electronics Society, IECON20 i 5-4 i St Annual Conference of the IEEE, pp. 262-266; Guldemir, H., Modeling and sliding mode control of oc-oc buck-boost converter 6th International Advanced Technologies Symposium(IATS), pp. 475-480. , 16-18 May 2011,Elazig,Turkey; Guldemir, H., Sliding mode speed control of oc orive system (2003) Mathematical and Computational Applications, 8, pp. 337-384; Kumar, A., Patil, S.L., Kumar Panday, S., Modeling and control of OC-OC buck converter using SMC (2015) Industrial Instrumentation and Control (FCIC), 20 i 51nternational Comference on, pp. 1406-1411. , IEEE; Guldemir, H., Sliding mode control of oc-oc boost converter (2005) Journal of Applied Sciences, 5 (3), pp. 588-592; Utkin, V., Sliding mode control of oc/oc converter (2013) J Franlin Inst., 350 (8), pp. 2146-2165; Mezger, F., Killat, O., A digital observer current loop control for buck converter (2013) Industrial Electronics Society, IECON 2013-39th Annual Conference of the IEEE, pp. 181-186. , Vienna; Gonzalez-Fonseca, N., De Leon-Morales, J., Leyva-Ramos, Observer-based controller for switch-mode oc-oc converters (2005) Oecision and Control, 2005 and 2005 European Control Conference. COC-ECC '05. 44th IEEE Conference on, pp. 4773-4778; Midya, P., Greuel, M., Krein, P.T., Sensorless current mode control-an observer-based technique for OC-OC converter (1997) Power Electronics Specialists Conference, 1997. PESC '97 Record 28th Annual IEEE, St. Louis, MO, 1, pp. 197-202; Edwards, C., Spurgeon, S.K., Sliding Mode Control Taylor and Francis; Yu, X., Zhihong, M., Fast terminal sliding control oesign for nonlinear oynamical systems (2002) IEEE Transctions on Circuits and System-I: Fundamental Theory and Application, 49 (2). , February",,,"IEEE PELS-IES Delhi Chapter;IEEE PES-lAS Delhi Chapter","Institute of Electrical and Electronics Engineers Inc.","1st IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems, ICPEICES 2016","4 July 2016 through 6 July 2016",,126482,,9781467385879,,,"English","IEEE Int. Conf. Power Electron., Intell. Control Energy Syst., ICPEICES",Conference Paper,"Final","",Scopus,2-s2.0-85015838628
"Gawande P., Bedekar P., Joshi V., Dambhare S.","57189234642;57205019484;56825133400;6504756036;","An algorithm to secure the zone 3 operation of distance relay",2017,"IEEE Region 10 Annual International Conference, Proceedings/TENCON",,,"7848150","975","978",,2,"10.1109/TENCON.2016.7848150","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015363370&doi=10.1109%2fTENCON.2016.7848150&partnerID=40&md5=e8b903fc7fbc4aa9e71376a32161ba91","Department of Electrical Engineering, College of Engineering, Pune, 411005, India; Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Gawande, P., Department of Electrical Engineering, College of Engineering, Pune, 411005, India; Bedekar, P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Joshi, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Dambhare, S., Department of Electrical Engineering, College of Engineering, Pune, 411005, India","The insecure third zone operation of distance relay due to its inability to distinguish between symmetrical faults and system stresses has led to severe blackouts. An algorithm to enhance the security of the zone 3 operation of distance relay using only the local information is proposed in this paper. The proposed scheme takes advantage of the fact that a system unbalance exists during the post fault window of a three phase fault which is absent during the system stressed conditions. The ratio of the negative sequence impedance to positive sequence impedance monitored during the system stressed conditions is nearly equal to zero whereas during the symmetrical fault conditions this ratio becomes non-zero. The proposed methodology is tested on the WSCC three generator, nine bus system modeled in ATP-EMTP environment for symmetrical faults during power swing, load encroachment and voltage stressed conditions. The results obtained prove the reliability of the scheme. © 2016 IEEE.","Distance relay; load encroachment; negative sequence impedance; positive sequence impedance; power swing; voltage stress; Zone 3","Electric surges; Distance relay; Negative sequence; Power swings; Sequence impedances; Voltage stress; Electric relays",,,,,,,,,,,,,,,,"Soman, S., A Web Course on Digital Protection., , NPTEL Accessed Jan 2015; Horowitz, S., Phadke, A., Third zone revisited (2006) IEEE Transactions on Power Delivery, 21 (1), pp. 23-29; (2012) Report or the Enquiry Committee on Grid Disturbance in Northern Region on 30th July 2012 and in Northern, Eastern & Northeastern Region on 31st July, 2012, , http://www.powennin.nie.in/pdl/GRID_ENQ_R1:P_16_8_12.pdf, [Online]. Accessed October 2015; Andersson, G., Donalek, R., Farmer, R., Hatziargyriou, N., Kamwa, L., Kundur, P., Martins, N., Sanchez-Gasca, J., Causes of ine 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance (2005) IEEE Transactions An Power Systems, 20 (4), pp. 1922-1928; Jafari, R., Moaddabi, N., Eskandari-Nasab, M., Gharchpetian, G., Naderi, M., A novel power swing detection scheme independent of the rate of change of power system parameters (2014) IEEE Transactions on Power Delivery, 29 (3), pp. 1192-1202; Gawande, P., Dambhare, S., Protection and fault identification in presence of power swing blocking/unblocking function (2013) 2013 IEEE Power & Energy Society General Meeting, pp. 1-6. , IEEE; Nayak, P.K., Pradhan, A.K., Bajpai, R., A fault detection technique for the series-compensated line during power swing (2013) IEEE Transactions on Power Delivery, 28 (2), pp. 714-722; Rao, J.G., Kumar Pradhan, A., Power-swing detection using moving window averaging of current signals (2015) IEEE Transactions on Power Delivery, 30 (1), pp. 368-376; Gawande, P.N., Dambhare, S.S., A novet algorilhm to detect symmetrical faults during power swing for a double circuit multi-terminal transmission line (2016) 2016 IEEE/PES Transmission and Distribution Conference and Exposition (T&D), pp. 1-7. , IEEE; Ciawandc, P., Dambhare, S., A novel unblocking function for distance relay to detect symmetrical faults during power swing (2016) 2016 IEEE Power & Energy Society General. Meeting IEEE, pp. 1-6; Jin, M., Sidhu, T.S., Adaptive load encroachment prevention scheme for distance protection (2008) Electric Power Systems Research, 78 (10), pp. 1693-1700; Lim, S.-E., Liu, C.-C., Lee, S.-J., Choi, M.-S., Rim, S.-J., Blocking of zone 3 relays to prevent cascaded events (2008) IEEE Transactions on Power Systems, 23 (2), pp. 747-754; Zare, J., Aminifar, F., Sanaye-Pasand, M., Synehrophasor-based wide-area backup protection scheme with data requirement analysis (2015) IEEE Transactions on Power Delivery, 30 (3), pp. 1410-1419; Kim, C.-H., Meo, J.-Y., Aggarwal, R.K., An enhanced zone 3 algorithm of a distance relay using transient components and state diagram (2005) IEEE Transactions on Power Delivery, 20 (1), pp. 39-46; Jonsson, M., Daalder, J.E., An adaptive scheme to prevent undesirable distance protection operation during voltage instability (2003) IEEE Transactions on Power Delivery, 18 (4), pp. 1174-1180; Gawande, P., Bedekar, P., Bagewadi, M., Dambhare, S., An adaptive distance relay protection scheme for enhanced protection security (2016) 2016 IEEE International Conference on Power Systems, pp. 1-6. , IEEE; Anderson, R.M., Fouad, A.A., (2008) Power System Control and Stability, , John Wiley & Sons",,,"CST;et al.;Infineon;MEDs Technologies;Plexim;Rolls-Royce","Institute of Electrical and Electronics Engineers Inc.","2016 IEEE Region 10 Conference, TENCON 2016","22 November 2016 through 25 November 2016",,126432,21593442,9781509025961,85QXA,,"English","IEEE Reg 10 Annu Int Conf Proc TENCON",Conference Paper,"Final","",Scopus,2-s2.0-85015363370
"Nagrale P.P., Patil A.P.","23100800600;57193268455;","Improvement in engineering properties of subgrade soil due to stabilization and its effect on pavement response",2017,"Geomechanics and Engineering","12","2",,"257","267",,10,"10.12989/gae.2017.12.2.257","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85012214849&doi=10.12989%2fgae.2017.12.2.257&partnerID=40&md5=d7bbc1d5d8f7218a99f5dfa411405556","Sardar Patel College of Engineering, Mumbai, India; Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, India","Nagrale, P.P., Sardar Patel College of Engineering, Mumbai, India; Patil, A.P., Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, India","This paper presents laboratory investigation of stabilization of subgrade soil. One type of soil and three types of stabilizers i.e., hydrated lime, class F fly ash and polypropylene fibres are selected in the study. Atterberg limit, compaction, california bearing ratio (CBR), unconfined compressive strength and triaxial shear strength tests are conducted on unstabilized and stabilized soil for varying percentage of stabilizers to analyze the effect of stabilizers on the properties of soil. Vertical compressive strains at the top of unstabilized and stabilized subgrade soil were found out by elasto-plastic finite element analysis using commercial software ANSYS. Strategy for design of optimum pavement section was based on extension in service life (TBR) and reduction in layer thickness (LTR). Extension in service life of stabilized subgrade soil is 6.49, 4.37 and 3.26 times more due to lime, fly ash and fibre stabilization respectively. For a given service life of the pavement, there is considerable reduction in layer thicknesses due to stabilization. It helps in reduction in construction cost of pavement and saving in natural resources as well. © 2017 Techno-Press, Ltd.","California bearing ratio; Layer thickness reduction; Stabilization; Subgrade; Traffic benefit ratio","Breeder reactors; Compressive strength; Finite element method; Fly ash; Hydrated lime; Lime; Pavements; Polypropylenes; Service life; Shear flow; Shear strength; Soil testing; Soils; Strength of materials; California bearing ratio; Elasto-plastic finite element analysis; Engineering properties; Laboratory investigations; Layer thickness; Subgrade; Triaxial shear strength; Unconfined compressive strength; Stabilization",,,,,,,,,,,,,,,,"Amu, O.O., Fajobi, A.B., Oke, B.O., Effect of eggshell powder on the stabilizing potential of lime on an expansive clay soil. (2005) J. Appl. Sci., 5 (8), pp. 1474-1478; Arbani, M., Veis Karmani, M., Geomechanical properties of lime stabilized clayey sands (2007) Arab. J. Sci. Eng., 32 (1), pp. 11-25; Bagui, S.K., Pavement design for rural low volume roads using cement and lime treatment base (2012) Jordan J. Civil Eng., 6 (3), pp. 293-302; Berg, R.R., Christopher, B.R., Perkins, S.W., Geosynthetic reinforcement of the aggregate base/subbase courses of flexible pavement structures-GMA white paper II (2000) Geosynthetic Materials Association, p. 176. , Roseville, MN, USA; Chandra, S., Viladkar, M.N., Nagrale, P.P., Mechanistic approach for fiber- reinforced flexible pavements (2008) J. Transport. Eng. ASCE, 134 (1), pp. 15-23; Chegenizadeh, S.A., Amin, C., Nikraz, H., Laboratory investigation in the effect of lime on compressibility of soil (2012) Proceedings of International Conference on Civil and Architectural Applications, ICCAA, Phuket, pp. 89-93. , Thailand, December; (2001) Guideline for the Design of Flexible Pavaments, , Indian Code of Practice, IRC: 37; New Delhi, India; Mishra, N.K., Rath, S., Cost effectiveness of clayey soil &moorum, treated with fly ash-lime for construction of low volume roads (2011) Int. J. Civil Struct. Eng., 2 (1), pp. 370-381; Moustafa, A.K., El-Shabrawy, M., Hamad, M.A., Procedure for quantification and optimization of stabilized subgrade pavement materials (2011) Int. J. Adv. Eng. Technol., 2 (1), pp. 25-35; Nagrale, P.P., Shrivastava, P., Design of lime stabilized flexible pavement (2009) Indian Highways, pp. 19-25; Perkins, S.W., Edens, M.Q., Finite element and distress models for geosynthetic – reinforced pavements (2002) Int. J. Pav. Eng. (IJPE), 3 (4), pp. 239-350; Santoni, R.L., Webster, L., Airfields and roads construction using fiber stabilization of sands (2001) J. Transport. Eng, 127 (2), pp. 96-104; Rao, S.B., Jayalekshmi, S., Fibre reinforcement of soils sub grade beneath flexible pavement (2010) Proceedings of Indian Geotchnical Conference-2010, pp. 575-578. , Mumbai, India, December; Tingle, S., Santoni, S., Webster, L., Full scale field tests of discrete fiber reinforced sand (2002) J. Transport. Eng., ASCE, 128 (1), pp. 9-16; Yi, C., Bin, S., Tang, C., Wang, B., Pilot study on the mechanical behavior of soil with inclusion of polypropylene fibre and lime (2006) Abstracts of the 10Th IAEG International Congress, pp. 1-6. , Nottingham, UK, September; Youseff, N.A., Omar, N.M., Khaldon, O., Soil stabilization by lime (2012) EJGE, 17, pp. 1747-1757","Patil, A.P.; Department of Civil Engineering, India; email: atulya.patil@yahoo.com",,,"Techno Press",,,,,2005307X,,,,"English","Geomach. Eng.",Article,"Final","",Scopus,2-s2.0-85012214849
"Chikode S., Raykar N.","57190680811;19934528100;","Investigation of Reduction in Buckling Capacity of Cylindrical Shells under External Pressure Due to Partially Cut Ring Stiffeners",2017,"Journal of Pressure Vessel Technology, Transactions of the ASME","139","1","011202","","",,6,"10.1115/1.4033653","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84982276911&doi=10.1115%2f1.4033653&partnerID=40&md5=fca1847c31892a1be005e166b8555bbe","Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India","Chikode, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India; Raykar, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India","Circumferential ring stiffeners are commonly used to improve the buckling strength of cylindrical shells. Under special circumstances, stiffener ring needs to be partially cut in order to avoid interference with vessel attachments or surrounding structures. No clear guideline is available in rule-based method to deal with such case. This paper investigates the extent of reduction in buckling capacity for a range of cylindrical shell geometries with stiffener rings having different cross sections and different extents of circumferential cut. Finite-element (FE)-based analysis as per ASME Section VIII, Division 2, Part 5 has been employed to determine the permissible external pressure in each of the cases. Effects of ring cross section and extent of circumferential cut of stiffening ring on the maximum permissible external pressure have been presented. A total of 63 combinations of shell-stiffening ring configurations of different L/D, D/t ratios, cross section shape, and extent of cut have been investigated. Geometrical parameters for these combinations under study are so chosen that normal working range in industries is covered. The results obtained provide guidelines to design shells with partially cut stiffening rings. © 2016 by ASME.",,"Buckling; Cylinders (shapes); Finite element method; Geometry; ASME Section VIII; Buckling capacity; Buckling strength of cylindrical shell; Cross section shape; Cylindrical shell; External pressures; Rule-based method; Stiffening rings; Shells (structures)",,,,,,,,,,,,,,,,"De Paor, C., Kelliher, D., Cronin, K., Wright, W., McSweeney, S., Prediction of vacuum-induced buckling pressures of thin-walled cylinders (2012) Thin-Walled Struct, 55, pp. 1-10; Gusic, G., Combescure, A., Jullien, J., The influence of circumferential thickness variations on the buckling of cylindrical shells under external pressure (2000) Comput. Struct., 74 (4), pp. 461-477; Sosa, E.M., Computational buckling analysis of shells: Theories and practice (2002) Mec. Comput., 21, pp. 1652-1667; Taeprasartsit, S., Tao, K., Effect of shell geometry and material constants on dynamic buckling load of elastic perfect clamped spherical caps (2005) Asian J. Civ. Eng. (Build. Hous.), 6 (4), pp. 303-315; Aghajari, S., Abedi, K., Showkati, H., Buckling and post-buckling behavior of thin-walled cylindrical steel shells with varying thickness subjected to uniform external pressure (2006) Thin-Walled Struct., 44 (8), pp. 904-909; Hauviller, C., (2007) Design Rules for Vacuum Chambers, pp. 31-42. , CERN Accelerator School Vacuum in Accelerators, Platja d' Aro, Spain, May 16-24; Brar, G.S., Hari, Y., Williams, D.K., (2010) Calculation of Working Pressure for Cylindrical Vessel under External Pressure, , ASME Paper No. PVP2010-25173; Vasilikis, D., Karamanos, S.A., Buckling design of confined steel cylinders under external pressure (2011) ASME J. Pressure Vessel Technol., 133 (1), p. 011205; Nemeth, M.P., (2014) Buckling Analysis for Stiffened Anisotropic Circular Cylinders Based on Sanders' Nonlinear Shell Theory, , NASA Technical Report No. NASA/TM-2014-218176; (2010) Boiler & Pressure Vessel Code, Sec VIII Div 1, , ASME American Society of Mechanical Engineers, New York; (2010) Boiler & Pressure Vessel Code, Sec VIII Div 2, , ASME American Society of Mechanical Engineers, New York; Teng, J.G., Buckling of thin shells: Recent advances and trends (1996) ASME Appl. Mech. Rev., 49 (4), pp. 263-274; (2015) ANSYS 14.5 Help Manuals, , ANSYS Inc; Brownell, L.E., Young, E.H., (1959) Process Equipment Design, , Wiley New York","Raykar, N.; Department of Mechanical Engineering, India; email: nilesh_raykar@spce.ac.in",,,"American Society of Mechanical Engineers (ASME)",,,,,00949930,,JPVTA,,"English","J Pressure Vessel Technol Trans ASME",Article,"Final","",Scopus,2-s2.0-84982276911
"Mavinkurve U., Verma D.","57193362337;57193356440;","EG-Easy: Design and Testing of Blender-Based Tool to Teach Projections in Engineering Drawing",2017,"Proceedings - IEEE 8th International Conference on Technology for Education, T4E 2016",,,"7814839","250","251",,1,"10.1109/T4E.2016.064","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85013230668&doi=10.1109%2fT4E.2016.064&partnerID=40&md5=f99e656daacf36b32c61df1d0cb64f6e","Department of Mechanical Engineering, Sardar Patel College of Engg., Mumbai, India","Mavinkurve, U., Department of Mechanical Engineering, Sardar Patel College of Engg., Mumbai, India; Verma, D., Department of Mechanical Engineering, Sardar Patel College of Engg., Mumbai, India","Engineering Graphics (EG) is an important course for engineering students at first year level and fundamental course for mechanical, civil or other similar branches. Engineering Graphics problems demand application of spatial ability by students. Computer aided visualizations support spatial ability [3]. Blender based visualizations are designed and tested to develop mental rotation ability which help to improve spatial ability [2]. In our study we have designed blender based tool to develop conceptual understanding for topic of point and line projections. We found that students were able to understand and solve graphic problems faster and with more precision. © 2016 IEEE.","Blender; Engineering Graphics; Spatial ability","Blending; Education; Students; Teaching; Visualization; Blender; Computer aided visualization; Conceptual understanding; Engineering drawing; Engineering graphics; First year; Mental rotation; Spatial abilities; Engineering education",,,,,,,,,,,,,,,,"https://www.blender.org/, Blender website; Kadam, K., Iyer, S., Impact of blender based 3D mental rotation ability training on engineering drawing skills Advanced Learning Technologies (ICALT), 2015 IEEE 15th International Conference on, pp. 370-374. , On page(s); Sutton, K.J., Williams, A.P., Spatial cognition and its implications for design (2007) International Association of Societies of Design Research, , Hong Kong, China; Sorby, S.A., Baartmans, B.J., A course for the development of 3-D spatial visualization skills (1996) Engineering Design Graphics Journal, 60 (1), pp. 13-20; Strong, S., Smith, R., Spatial visualization: Fundamentals and trends in engineering graphics (2001) Journal of Industrial Technology, 18 (1), pp. 1-6; Vandenberg, S.G., Kuse, A.R., Mental rotations, a group test of three-dimensional spatial visualization (1978) Perceptual and Motor Skills",,"Kumar V.KinshukMurthy S.","Educational Initiatives Pvt. Ltd. (EI);IEEE Computer Society;Ministry of Human Resources and Development (MHRD) Government of India;Next Education India Pvt. Ltd.","Institute of Electrical and Electronics Engineers Inc.","8th IEEE International Conference on Technology for Education, T4E 2016","2 December 2016 through 4 December 2016",,125986,,9781509061150,,,"English","Proc. - IEEE Int. Conf. Technol. Educ., T4E",Conference Paper,"Final","",Scopus,2-s2.0-85013230668
"Kurhade R.I., Sharma A., Saroj P.C.","57195264257;57199494599;25957744300;","Trigger generator for spark gap switching synchronisation",2017,"2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","2017-January",,,"1","5",,2,"10.1109/IPACT.2017.8245031","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045840584&doi=10.1109%2fIPACT.2017.8245031&partnerID=40&md5=f63b198009ad4b918ac5083c7e30753c","Sardar Patel College of Engineering, Andheri, Mumbai, India; Bhabha Atomic Research Centre, Mumbai, India","Kurhade, R.I., Sardar Patel College of Engineering, Andheri, Mumbai, India; Sharma, A., Bhabha Atomic Research Centre, Mumbai, India; Saroj, P.C., Bhabha Atomic Research Centre, Mumbai, India","A two electrode Trigatron spark gap switch is used as the main discharge switch and triggered by a reliable trigger generator. In this article, a novel synchronization of four parallel spark gap switches with an accuracy of 5-10 ns for high-frequency pulsed power application is discussed. The circuit uses a combination of one master spark gap and set of inductor and capacitors to generate a fast trigger pulse to synchronize four spark gaps and can be controlled via an IGBT switch. Two trigger generator circuits are discussed, based on pulse shaping network and pulse transformer; comprises a parallel combination of capacitor and inductor. A spark gap switch in triggered mode and the self-triggered mode is used to switch the energy from capacitive source to inductive load. Results show nanosecond level of accuracy in synchronization is reported in this paper along with simulations and analysis. © 2017 IEEE.","jitter; pulse power conditioning system; pulse transformer; rise time; trigger generator","Jitter; Pulse transformers; Synchronization; Discharge switches; Generator circuits; High frequency HF; Parallel combination; Pulse power; Pulsed power applications; Risetimes; trigger generator; Pulse shaping",,,,,,,,,,,,,,,,"Saroj, P.C., Kulkarni, M.R., Kumar, S., Sharma, V., Mitra, S., Patade, P., Sharma, A., Mittal, K.C., Synchronization and reliable operation of triggered spark gap switches in 40 kJ, 20 kV EMM System (2014) XXVI Int. Symp. on Discharges and Electrical Insulation in Vacuum-Mumbai, , India; Kumar, R., Mitra, S., Patel, A., Dwivedi, R., Kolge, T., Ranjeet, Sharma, A., Chakravarthy, D.P., Novel Synchronization Technique for Two Parallel Connected Spark Gap Switches; Zhen, L.-E., Multiple-switch Pulsed Power Generation Based on A Transmission Line Transformer, , China; Canacsinh, H., Redondo, L.M., Fernando Silva, J., Borges, B., Voltage droop compensation based on resonant circuit for generalized high voltage solid-state marx modulator (2016) Applied Power Electronics Conference and Exposition (APEC), , IEEE; Rose, M.F., Shotts, Z., Roberts, Z., High efficiency compact high voltage vector inversion generators (2005) IEEE Pulsed Power Conference; Lindblom, A., Isberg, J., Bernho, H., Leijon, M., Inductive high voltage pulse generator based on resonance system (2007) Journal of Electrical Engineering, 58 (1); Young, M., (1989) The Technical Writer's Handbook, , Mill Valley, CA: University Science; Yi, L., Fuchang, L., FengXibo, Q.Z., Heqing, Z., Hua, L., Ling, D., Design and construction of a trigger generator based on pulse transformer for spark gap switch (2011) IEEE Transactions on Plasma Science, 39 (12). , December; Arefjev, A.S., Baranov, A.N., Vereschagin, N.M., (2000) IEEE 19th International Symposium on Discharges and Electrical Insulation in Vacuum, , Xi'an; Mayes, J.R., Carey, W.J., Pulsed Power Conference, Digest of Technical Papers, 12th IEEE International (IEEE, 1999), 2, pp. 1207-1210; Renuka, I., Unpublished, K., Implementation of Fast Trigger Generator for High Coulomb Spark Gap Switching; Sekhar Reddy, C., Sharma, A., Chandra Mittal, K., Experimental investigations into pulse-charged spark gap recovery times and influencing factors (2016) IEEE Transactions on Plasma Science, 44 (3). , March",,,,"Institute of Electrical and Electronics Engineers Inc.","2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","21 April 2017 through 22 April 2017",,134074,,9781509056828,,,"English","Innov. Power Adv. Comput. Technol., i-PACT",Conference Paper,"Final","",Scopus,2-s2.0-85045840584
"Ansari M.S., Kambekar A.R.","57219120497;6504409358;","Urbanization Challenges in Emerging Economies",2017,"Urbanization Challenges in Emerging Economies: Energy and Water Infrastructure; Transportation Infrastructure; and Planning and Financing - Selected Papers from the ASCE India Conference 2017",,,,"417","427",,1,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091335187&partnerID=40&md5=da265d24c2021d6a67f3321a853ee2fa","Civil Engineering Dept., BVB's Sardar Patel College of Engineering, Andheri, Mumbai, Maharashtra, 400 058, India","Ansari, M.S., Civil Engineering Dept., BVB's Sardar Patel College of Engineering, Andheri, Mumbai, Maharashtra, 400 058, India; Kambekar, A.R., Civil Engineering Dept., BVB's Sardar Patel College of Engineering, Andheri, Mumbai, Maharashtra, 400 058, India","Road network, being an integral part of the development of a country must be maintained in functional condition. Generally, maintenance of the road involves prior evaluation of road condition so as to implement appropriate maintenance. Therefore, precise evaluation of road condition should be given due consideration prior to the implementation of maintenance process. This paper demonstrates a methodology that has been developed on the basis of probabilistic approach for evaluating the condition of the road. The proposed study assumes that the condition of road follows a probabilistic behaviour ranging from the best condition to worst and attempt to evaluate the condition of the road using surface distress survey based on probabilistic approach. Surface distress survey was carried out on three samples of a road that can be clearly identified as best, average, and worst condition samples based on the total deduct values for different distresses in each sample. The probabilistic pavement condition index (PCI) is then evaluated using the total deduct values in each sample. Validation for six roads of Jawhar Taluka, Palghar District, Maharashtra State, India, was considered for surface distress condition survey using the proposed method. Twelve pavement distresses were inspected and measured on the field with traditional approaches avoiding expensive and sophisticated instruments. The study concluded that the proposed method can be used where limited fund and less time are available for inspection and maintenance of roads. © 2018 American Society of Civil Engineers.","Flexible pavement; pavement condition index; pavement distress; probabilistic methodology; road maintenance","Maintenance; Pavements; Condition surveys; Emerging economies; Inspection and maintenance; Maintenance process; Pavement condition indices; Pavement distress; Probabilistic approaches; Traditional approaches; Surveys",,,,,,,,,,,,,,,,"Astm, D., (2009) 6433-07 Standard Practice for Roads and Parking Lots Pavement Condition Index Surveys, , ASTM International, West Conshohocken, Pennsylvania; Avinash, N.R., Vinay, H.N., Prasad, D., Dinesh, S.V., Dattatreya, J.K., (2014) Performance Evaluation of Low Volume Flexible Pavements-A Case Study, pp. 69-78. , http://www.nhai.org/roadnetwork.htmhttp://www.omms.nic.in/#, T and DI Congress 2014: Planes, Trains, and Automobiles; Juang, C.H., Amirkhanian, S.N., Unified pavement distress index for managing flexible pavements (1992) Journal of Transportation Engineering, 118 (5), pp. 686-699; Mergi, K.M., Mohamed, E.K.M., Application of Pavement Condition Index (PCI) Methodology in Pavement Distress Evaluation and Maintenance Prioritization (2012) Annual Conference of Postgraduate Studies and Scientific Research; Punmia, B.C., Khandelwal, K.K., (2002) Project Planning and Control with Pert & Cpm, , 4th edition. Firewall Media; Shah, Y.U., Jain, S.S., Tiwari, D., Jain, M.K., Development of overall pavement condition index for urban road network (2013) Procedia-Social and Behavioural Sciences, 104, pp. 332-341; Tawalare, A., Raju, K.V., Pavement Performance Index for Indian rural roads (2016) Perspectives in Science, 8, pp. 447-451; Vishwanath, G., Mahdev, Archana, M.R., Biligiri, K.P., Development of Pavement Management Strategies for Arterial Roads (2013) International Journal of Research in Engineering and Technology, pp. 174-179",,"Singh U.P.Chahar B.R.Yadav H.R.P.Vij S.K.","Indian Institute of Technology Delhi Institution of Engineers","American Society of Civil Engineers (ASCE)","ASCE India Conference 2017 on Urbanization Challenges in Emerging Economies: Energy and Water Infrastructure; Transportation Infrastructure; and Planning and Financing","12 December 2017 through 14 December 2017",,162504,,9780784482025,,,"English","Urban. Challenges Emerg. Econ.: Energy Water Infrastruct.; Transp. Infrastruct.; Plan. Financ. - Sel. Pap. ASCE India Conf.",Conference Paper,"Final","",Scopus,2-s2.0-85091335187
"Amlani S.B., Nagrale P.P.","57219120750;23100800600;","Urbanization Challenges in Emerging Economies",2017,"Urbanization Challenges in Emerging Economies: Energy and Water Infrastructure; Transportation Infrastructure; and Planning and Financing - Selected Papers from the ASCE India Conference 2017",,,,"395","404",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091334454&partnerID=40&md5=96db244dd11a97ee4809eaa7fac2e9dd","Dept. of Civil Engineering, Sardar Patel College of Engineering, Andheri West, Mumbai, Maharashtra, 400058, India","Amlani, S.B., Dept. of Civil Engineering, Sardar Patel College of Engineering, Andheri West, Mumbai, Maharashtra, 400058, India; Nagrale, P.P., Dept. of Civil Engineering, Sardar Patel College of Engineering, Andheri West, Mumbai, Maharashtra, 400058, India","Mumbai, financial capital of India, divided into 24 wards of MCGM covers 437.71 km2, is facing major problem of development because of existing slums. The horizontal topographical growth due to shortage of land and major problem for vertical growth is the present slum area in Mumbai. This study is carried to find out ward wise conceptual undeveloped area in Mumbai and to equally boost vertical growth of Mumbai by providing strategically attractive FSI in relation with population density of respective wards. Another aim is to compare conceptual undeveloped area as per latest revision of DCR 1991 and proposed FSI from this study in each ward of Mumbai. Research summary also includes new strategic FSI policy for undeveloped areas of Mumbai without interrupting in current growth of developed areas, by providing new strategic FSIs for each residential category in each ward of Mumbai will boost the development of slums, clusters, etc. © 2018 American Society of Civil Engineers.",,"Finance; Housing; Emerging economies; Financial capital; Population densities; Undeveloped areas; Vertical growth; Population statistics",,,,,,,,,,,,,,,,"Amlani, S.B., Nagrale, P.P., Strategic Planning for Redevelopment of Residential Projects in Mumbai City (2017) Nicmar Journal of Construction Management, XXXII (III), pp. 16-27. , July-September 2017; Amlani, S.B., Nagrale, P.P., Estimation of Undeveloped & Developed Area in Mumbai City: A Case Study (2016) International Journal of Engineering and Research, 5 (1), pp. 90-94; Andavarapu, D., Edelman, D., Evolution of Slum Redevelopment Policy (2013) Current Urban Studies, 1, pp. 185-192. , DOI: 10.4236/cus.2013.14021; Census Survey of India, , (2011 & 2001), Government of India; Das, P.K., (2003) Slums Improvement and Development Schemes & Policies, , Edited by Sujata Patel & Jim Masselos for 'Bombay to Mumbai. Oxford University Press; Hui, E.C.M., Lam, M.C.M., Ho, V.S.M., Market Disequilibrium and Urban Land Shortages: Analysis of Policy and Patterns in Hong Kong (2006) Journal of Urban Planning and Development. Asce; (2010) Human Development Report 2009, Mumbai, , Government of India. Oxford University Press, New Delhi, India; Jagdale, R.H., (2014) An Overview of Slum Rehabilitation Schemes in Mumbai, India, , Master of Science in Engineering Report. The University of Texas at Austin; Mukhija, V., An Analytical Framework for Urban Upgrading: Property Rights, Property Values and Physical Attributes (2002) Habitat International, 26, pp. 553-570; (1991) Development Control Regulations, , Municipal Corporation of Greater Mumbai; Sheth, A.Z., Velegam, N.R., Andrew, D.F., (2009) Slum Rehabilitation in the Context of Urban Sustainability-A Case Study of Mumbai, India, , International Conference on Whole Life Urban Sustainability and its Assessment. Loughborough, UK; (2015) Guidelines for Implementation of Slum Rehabilitation Schemes for Greater Mumbai, pp. 1-40. , Slum Rehabilitation Authority. Published on June 2015",,"Singh U.P.Chahar B.R.Yadav H.R.P.Vij S.K.","Indian Institute of Technology Delhi Institution of Engineers","American Society of Civil Engineers (ASCE)","ASCE India Conference 2017 on Urbanization Challenges in Emerging Economies: Energy and Water Infrastructure; Transportation Infrastructure; and Planning and Financing","12 December 2017 through 14 December 2017",,162504,,9780784482025,,,"English","Urban. Challenges Emerg. Econ.: Energy Water Infrastruct.; Transp. Infrastruct.; Plan. Financ. - Sel. Pap. ASCE India Conf.",Conference Paper,"Final","",Scopus,2-s2.0-85091334454
"Rao P., Pimple B.B.","57202632432;36976185300;","System modelling and simulation of interconnected wind-PV standalone",2017,"2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","2017-January",,,"1","6",,1,"10.1109/IPACT.2017.8244909","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85046149465&doi=10.1109%2fIPACT.2017.8244909&partnerID=40&md5=ef4792fe852ae94dfc8f127f88695d1d","Department of Electrical Engineering, SPCE, Andheri (W), Mumbai, India","Rao, P., Department of Electrical Engineering, SPCE, Andheri (W), Mumbai, India; Pimple, B.B., Department of Electrical Engineering, SPCE, Andheri (W), Mumbai, India","This manuscript presents the modelling of solar photovoltaic and wind driven permanent magnet generator systems implementing maximum power tracking algorithms using a buck-boost converter. Hill-climbing search algorithm is implemented to extract maximum power from wind turbine system and incremental conductance for a PV system. An effort to interconnect two renewable sources is proposed and implemented as a standalone in MATLAB/SIMULINK. The wind energy and PV systems are interconnected through dc-dc converters feeding an ac load through sine pulse width modulated inverter. © 2017 IEEE.","hill climbing; hybrid; photovoltaic; standalone; wind turbine","Electric inverters; MATLAB; Maximum power point trackers; Permanent magnets; Solar power generation; Wind power; Wind turbines; Buck boost converter; Hill climbing; hybrid; Incremental conductance; Maximum Power tracking algorithm; Permanent magnet generator; Photovoltaic; standalone; DC-DC converters",,,,,,,,,,,,,,,,"Rolan, A., Luna, A., Vazquez, G., Aguilar, D., Azevedo, G., Modelling of a variable speed wind turbine with a permanent magnet synchronous generator (2009) IEEE International Symposium on Industrial Electronics (ISIE, , Seoul Olympic Parktel, Seoul, Korea July 5-8, 2009; Anderson, P.M., Anjan, B., Stability simulation of wind turbine systems (1983) IEEE Transactions on Power Operators and Systems, 102 (12), pp. 3791-3795; Aslam Husain, M., Tariq, A., Modelling of a standalone Wind-PV Hybrid generation system using MATLAB/Simulink and its performance analysis (2013) IJSER, 4 (11). , Nov; Adnan Khan, S., Rajkumar, R.K., Rajkumar, R.K., Aravind, C.V., Performance analysis of 20 pole 1.5 kw three phase permanent magnet synchronous generator for low speed vertical axis wind turbine (2013) Energy and Power Engineering, 5, pp. 423-428; Samanvorakji, S., Kumkratug, P., Modelling and Simulation PMSG based on wind energy conversion in MATLAB/SIMULINK (2013) Proc. of the Second Intl. Conf. on Advances in Electronics and Electrical Engineering, AEEE; Pillay, P., Krishnan, R., Modelling of permanent magnet motor drives (1988) IEEE Transactions on Industrial Electronics, 35 (4). , Nov; Ahmad, S., Rashid, M.T., Ferdowsy, C.S., Islam, S., Mahmood, A.H., A technical comparison among different pv-mppt algorithms to observe the effect of fast changing solar irradiation (2015) IEEE International WIE Conference on Electrical and Computer Engineering (WIECON-ECE), Dhaka 2015, pp. 155-158; NianCHun, W., Zao, S., Yukita, K., Goto, Y., Ichiyanagi, K., Reasearch of pv model and mppt methods in matlab (2010) Power and Energy Engineering Conference; Eshram, T., Chapman, P.L., Comparision of photovoltaic array maximum power point techniques (2007) IEEE Transaction on Energy Conversion, 22 (2), pp. 439-449. , June; Villalva, M.G., Gazoli, J.R., Ruppert F, E., Modelling and circuit-based simulation of photovoltaic arrays (2009) Brazilian Journal Power Electronics, 14 (1), pp. 35-45. , ISSN 1414-8862; Nath Tripathi, R., Singh, A., Badoni, M., A matlab-simulink-based solar photovoltaic array (spva) module with mppt (2013) International Conference on Emerging Trends in Communication, Control, Signal Processing and Computing Applications (C2SPCA), 2013 International Conference, Banglore 2013, pp. 1-6; Singh Thongam, J., Ouhrouche, M., MPpt control methods in wind energy conversion systems (2011) Fundamental and Advanced Topics in Wind Power, pp. 508-512. , Dr. Rupp Carriveau (Ed ISBN: 978-953-307-; Rao, P., Pimple, B.B., Modelling of wind-solar systems with implementation of efficient mppt algorithm using matlab (2016) Global Energy Technological Summit (GETS), NTPC, Noida, p. 268; Koutroulis, E., Kalaitzakis, K., Design of a maximum power tracking system (2006) IEEE TRANSACTIONS on INDUSTRIAL ELECTRONICS, 53 (2), pp. 486-494; Rao, P., Siraswar, V., Pimple, B.B., Efficient implementation of MPPT and comparison of converters for variable load Solar PV system (2017) Second IEEE International Conference on Electrical, Computer and Communication Technologies IEEE ICECCT 2017, , unpublished",,,,"Institute of Electrical and Electronics Engineers Inc.","2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","21 April 2017 through 22 April 2017",,134074,,9781509056828,,,"English","Innov. Power Adv. Comput. Technol., i-PACT",Conference Paper,"Final","",Scopus,2-s2.0-85046149465
"Deshpande N.M., Chavhan R.D., Nikum A.M.","56354292100;57195260526;57201723539;","A single-input dual-output Boost converter with PI controller",2017,"2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","2017-January",,,"1","7",,4,"10.1109/IPACT.2017.8245104","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045873211&doi=10.1109%2fIPACT.2017.8245104&partnerID=40&md5=67098d5ef7176ad9ecb65065f74dc26c","Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India; Department of Projects, Prolific Systems and Technologies Pvt. Ltd., Thane, India","Deshpande, N.M., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India; Chavhan, R.D., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri Mumbai, India; Nikum, A.M., Department of Projects, Prolific Systems and Technologies Pvt. Ltd., Thane, India","In this paper, the proposed SIMO (Single input multiple outputs) DC-DC converter based on coupled inductor. The required controllable high DC voltage and intermediate DC voltage with high voltage gain from low input voltage sources, like renewable energy, can be achieved easily from the proposed converter. The high voltage DC bus can be used as the leading power for a DC load and intermediate voltage DC output terminals can charge supplementary power sources like battery modules. This converter operates simply with one power switch. It incorporates the techniques of voltage clamping (VC) and zero current switching (ZCS). The simulation result in PSIM software shows that the aims of high efficiency, high voltage gain, several output voltages with unlike levels, are achieved. © 2017 IEEE.","coupled inductor; PSIM; Single-input multiple-outputs boost converter; voltage clamping; zero current switching","Computer software; Electric inverters; Gain measurement; HVDC power transmission; Zero current switching; BOOST converter; Coupled inductor; Dual-output boost converters; High voltage DC bus; Input voltage sources; PSIM; Single input multiple outputs; Voltage clamping; DC-DC converters",,,,,,,,,,,,,,,,"Wai, R., Jheng, K., High-Efficiency Single Input Multiple Output DC-DC Converter (2013) IEEE Transactions on Power Electronics, 28 (2). , February; Patra, P., Patra, A., Misra, N., A single-inductor multiple-output switcher with simultaneous buck, boost, and inverted outputs (2012) IEEE Transactions on Power Electron, 27 (4), pp. 1936-1951. , Apr; Nami, A., Zare, F., Ghosh, A., Blaabjerg, F., Multiple-output DC-DC converters based on diode-clamped converters configuration: Topology and control strategy (2010) IET Power Electronics, 3 (2), pp. 197-208; Chen, Y., Kang, Y., Nie, S., Pei, X., The multiple-output DC-DC converter with shared ZCS lagging leg (2011) IEEE Transactions on Power Electronics, 26 (8), pp. 2278-2294. , Aug; Prieto, M.B.F., Litran, S.P., Aranda, E.D., Gomez, J.M.E., New Single-Input, Multiple-Output Converter Topologies (2016) IEEE Industrial Electronics Magazine, 10 (2), pp. 6-20; Wai, R.J., Duan, R.Y., High step-up converter with coupled inductor (2005) IEEE Transactions Power Electronics, 20 (5), pp. 1025-1035. , Sep; Lee, J.J., Kwon, B.H., DC-DC converter using a multiple-coupled inductor for low output voltages (2007) IEEE Transactions on Industrial Electronics, 54 (1), pp. 467-478. , Feb; (2010) PSIM User Guide. Version 9.0, , www.powersimtech.com, Powersim Release 2; Witulski, A.F., Introduction to Modeling of Transformers and Coupled Inductors (1995) IEEE Transactions on Power Electronics, 10 (3), pp. 349-357. , May; Yang, L., Liang, T., Lee, H., Chen, J., Novel High Step-Up DC-DC Converter with Coupled-Inductor and Voltage-Doubler Circuits (2011) IEEE Transactions on Industrial Electronics, 58 (9). , September; Wu, H., Chen, R., Zhang, J., Xing, Y., Hu, H., Ge, H., A family of three port half-bridge converters for a stand-alone renewable power system (2012) IEEE Transaction on Power Electronics, 26 (9), pp. 2697-2706. , Sep; Mohan, N., Undeland, T.M., Robbins, W.P., (1995) Power Electronics: Converters, Applications, and Design, , New York, USA, Wiely; Lee, S., Kim, P., Choi, S., High step-up soft-switched converters using voltage multiplier cells (2013) IEEE Trans. Power Electron, 28 (7), pp. 3379-3387. , Jul; Witulski, A.F., Introduction to modeling of transformers and coupled inductors (1995) IEEE Trans. Power Electron, 10 (3), pp. 349-357. , May; Das, M., Agrawal, V., Design and Analysis of a High-Efficiency DC-DC Converter with Soft Switching Capability for Renewable Energy Applications Requiring High Voltage Gain (2016) IEEE Transactions on Industrial Electronics, 63 (5). , May; Deshpande, N., Chavhan, R.D., Deshpande, N., Coupled Inductor Based Single-Input Multiple-Outputs Boost Converter, , unpublished",,,,"Institute of Electrical and Electronics Engineers Inc.","2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","21 April 2017 through 22 April 2017",,134074,,9781509056828,,,"English","Innov. Power Adv. Comput. Technol., i-PACT",Conference Paper,"Final","",Scopus,2-s2.0-85045873211
"Ushkewar S., Dake V., Shinde V.","57195262149;56453529100;57200275312;","Designing of solid state pulse power modulator by fabrication of pulse transformer",2017,"2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","2017-January",,,"1","5",,4,"10.1109/IPACT.2017.8244942","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85045845633&doi=10.1109%2fIPACT.2017.8244942&partnerID=40&md5=e4a00d8a1c96e08b355ffaa09dd5fa06","Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400052, India","Ushkewar, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400052, India; Dake, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400052, India; Shinde, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400052, India","Solid state pulse power modulator having Pulse forming network (PFN) and pulse transformer. It generates high voltage pulses which are flat-topped dc pulses of few microseconds duration. Hence, Solid state pulse modulator provides spiky pulsed voltage to the load with help of pulse transformer. As pulse transformer are compact as having comparatively less turns and hence they are having low leakage inductance and distributed capacitance. In pulse transformer, the primary winding is excited by pulsated dc supply which set up non time varying magnetic field in the core to produce high secondary voltage. The input power to the primary of pulse transformer is turned on and off using switching devices like SCR, GTO, MOSFET or IGBT at their operating frequency and the pulse duration which delivers required amount of power. This paper gives the idea about selection of various parameters for the fabrication of compact and economical pulse transformer by using split core topology for solid state pulse power modulator. These parameters includes the core of transformer, different insulating materials and selection of solid state switches with appropriate driver circuit. © 2017 IEEE.","ESL of capacitor; Pulse transformer; Solid state pulse power modulator; Split core topology","Capacitance; Fabrication; HVDC power transmission; MOSFET devices; Pulse transformers; Topology; Distributed capacitance; High voltage pulse; Low leakage inductance; Operating frequency; Pulse forming networks; Pulse power; Split-core; Time-varying magnetic fields; DC transformers",,,,,,,,,,,,,,,,"Tillu, A., Pulse Modulator: A brief Introduction (2012) School on Pulsed Power Technology (SPPT), , BARC, Mumbai; Dake, V., Tillu, A., Dixit, K.P., Sarukte, H., Mangalvedekar, H.A., Implementation and initial test result of a prototype solid state modulator for pulsed magnetron (2014) XXVI Int. Symp. on Discharges and Electrical Insulation in Vacuum - Mumbai, , India; Roche, S., Solid State Pulsed Power Systems Industrie Physique, , &, 17 rue de la rente Logerot, 21160 Marsannay la cote, FRANCE; Tillu, A., Yadav, V., Sarukte, H., Chandan, S., Chavan, R., Dixit, K.P., Rajawat, R.K., Dasgupta, K., (2015) High Power Pulse Modulator Klystrons / Magnetrons / Electron Guns for Electron Linac, , BARC Newsletter founder's day special issue; Bhattacharjee, D., Tiwari, R., Jayaprakash, D., Mishra, R.L., Chandan, S., Tillu, A.R., Chavan, R.B., Gantayet, L.M., Design and development of compact elctron gun and its performance with compact linac operation (2013) Proc.InPAC, , Kolkata; Ushkewar, S., Shinde, V., Dake, V., Modeling and analysis of split core pulse transformer for solid state modulator (2017) 2017 Second IEEE International Conference on Electrical, Computer and Communication Technologies at Coimbatore, India, , [Unpublished]; HITACHI Inductor Cores Standard Specification of Amorphous Cut C Cores, , Datasheet of POWERLITE™",,,,"Institute of Electrical and Electronics Engineers Inc.","2017 Innovations in Power and Advanced Computing Technologies, i-PACT 2017","21 April 2017 through 22 April 2017",,134074,,9781509056828,,,"English","Innov. Power Adv. Comput. Technol., i-PACT",Conference Paper,"Final","",Scopus,2-s2.0-85045845633
"Yadav S.P., Shaikh H., Pawade R.S.","57195394787;57195393129;18042420000;","Assessment of optical performance of aspheric germanium lens manufactured using single point diamond turning",2017,"ASME 2017 12th International Manufacturing Science and Engineering Conference, MSEC 2017 collocated with the JSME/ASME 2017 6th International Conference on Materials and Processing","1",,,"","",,1,"10.1115/MSEC20172691","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85027716415&doi=10.1115%2fMSEC20172691&partnerID=40&md5=75fe616c8f37427051a3ee2f255e2dbe","Dr. Babasaheb Ambedkar Technological University, Lonere, Maharashtra, India; Sardar Patel College of Engineering Andheri, Mumbai, Maharashtra, India","Yadav, S.P., Dr. Babasaheb Ambedkar Technological University, Lonere, Maharashtra, India; Shaikh, H., Sardar Patel College of Engineering Andheri, Mumbai, Maharashtra, India; Pawade, R.S., Dr. Babasaheb Ambedkar Technological University, Lonere, Maharashtra, India","Manufacturing of aspheric profile of lens at nanometric level is difficult but the measurement and evaluation of metrology parameters is still a bigger challenge. For successful results of the lens systems, precise and defect free lenses are required. The manufacturing conditions have direct effect on the metrological parameters. For appropriate evaluation of metrology parameters, proper interpretation of aspheric surface parameters must be known. . In this study, the mechanical parameters, such as radius of curvature, slope error, tilt, centre thickness, and sag value of lens, were measured by using contact type form talysurf, non-contact type fizeau interferometers, and other instruments. The experimental results reveal that an increase in the spherical aberration is caused by increasing the lens thickness beyond 4.995mm or by increasing the radius of curvature beyond -13.8396mm or by increasing the aspheric higher order coefficients. Also its dependencies on the diameter of least confusion is studied. ©2017 ASME.","Asphere profile; Coma aberration; Germanium lens spherical aberration; SPDT; Surface integrity; Taguchi OA","Aberrations; Aspherics; Germanium; Manufacture; Parameter estimation; Units of measurement; Aspheres; Higher order coefficients; Manufacturing conditions; Metrological parameters; Single point diamond turning; SPDT; Spherical aberrations; Surface integrity; Lenses",,,,,,,,,,,,,,,,"Pawade, R., Jagtap, K., Experimental investigation on the influence of cutting parameters on surface quality obtained in SPDT of PMMA (2014) International Journal of Advanced Design and Manufacturing Technology, 7 (2), pp. 53-58; Riedl, M., (2001) Optical Design Fundamentals for Infrared Systems, 48 (2), pp. 165-172. , SPIE Press, Washington, USA; Fischer, R.E., Tadic-Galeb, B., Yoder, P.R., (2000) Optical System Design, pp. 115-127. , McGraw-Hill Inc. New York, USA, Chap. 7; Welford, W.T., (1986) Aberrations of Optical Systems, pp. 226-236. , IOP Publishing Ltd. New York, USA, Chap. 12; Fischer, R.E., Tadic-Galeb, B., Yoder, P.R., (2004) Basic Optics and Optical System Specifications, pp. 61-94. , McGraw-Hill Inc. New York, USA, Chap. 5; Weber, M.J., (2003) Handbook of Optical Materials, 4 (2), pp. 234-316. , CRC Press, University of California, Washington, USA; Wyant, J.C., (2003) Basic Wavefront Aberration Theory for Optical Metrology, 11 (2), pp. 234-316. , CRC Press, University of California, Washington, USA; Yan, J., Takahashi, Y., Tamaki, J., Kubo, A., Kuriyagawa, T., Sato, Y., Ultraprecision machining characteristics of polycrystalline germanium (2006) JSME International Journal, Series C, 49 (1), pp. 63-69; Blake, P.N., Scattergood, R.O., Ductile-regime machining of germanium and silicon (1990) J. Am. Ceram. Soc, 73 (4), pp. 949-957; Fang, F.Z., Venkatesh, V.C., Diamond cutting of silicon with nanometric finish (1998) Annals of the CIRP, 47 (1), pp. 45-49; Cheung, C.F., Lee, W.B., A framework of a virtual machining and inspection system for diamond turning of precision optics (2001) Journal of Materials Processing Technology, 119 (1), pp. 27-40; Tauhiduzzaman, M., Veldhuis, S.C., Effect of material microstructure and tool geometry on surface generation in single point diamond turning (2014) Precision Engineering, pp. 1-11. , PRE-6075; Komanduri, R., Chandrasekaran, N., Raft, L.M., Effect of tool geometry in nanometric cutting: A molecular dynamics simulation approach (1998) Elsevier Wear, 219 (1), pp. 84-97; Fan, Y., Zhu, Y., Pan, W., Ultra-precision cutting of fresnel lenses on single crystal germanium and the machining processing analysis (2010) Proc. of SPIE, 7655, pp. 1-5; Venkatesh, V.C., Precision manufacture of spherical and aspheric surfaces on plastics, glass, silicon and germanium (2003) Current Science, 84 (9), pp. 1211-1219; Kouzes, R.T., Zhu, Z., Engelhard, M., (2011) Germanium- 76 Sample Analysis, (3), pp. 1-15. , U.S. Department of Energy, Pacific Northwest National Laboratory, PNNL-20368",,,"Manufacturing Engineering Division","American Society of Mechanical Engineers","ASME 2017 12th International Manufacturing Science and Engineering Conference, MSEC 2017 collocated with the JSME/ASME 2017 6th International Conference on Materials and Processing","4 June 2017 through 8 June 2017",,129265,,9780791850725,,,"English","ASME Int. Manuf. Sci. Eng. Conf., MSEC collocated JSME/ASME Int. Conf. Mater. Process.",Conference Paper,"Final","",Scopus,2-s2.0-85027716415
"Mistr S.R., Pant R.S.","57194680753;23091319400;","Design and fabrication of a quick dismantlable remotely controlled semirigid finless airship",2017,"Lecture Notes in Mechanical Engineering","PartF9",,,"103","116",,2,"10.1007/978-981-10-1771-1_16","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021644387&doi=10.1007%2f978-981-10-1771-1_16&partnerID=40&md5=3053b91860941268f4d5b828cbae03f9","Aerospace Engineering Department, IIT Bombay, Powai, Mumbai, 400076, India; Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; School of Mechanical & Aerospace Engineering, Nanyang Technological University, Singapore, Singapore","Mistr, S.R., Aerospace Engineering Department, IIT Bombay, Powai, Mumbai, 400076, India, Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Pant, R.S., Aerospace Engineering Department, IIT Bombay, Powai, Mumbai, 400076, India, School of Mechanical & Aerospace Engineering, Nanyang Technological University, Singapore, Singapore","Remotely controlled airships are very much suitable for aerial photography, product promotion, and surveillance. This paper describes a methodology for sizing and design of a small semirigid airship that can be quickly assembled or dismantled. The airship is meant for flight demonstrations and as an aerial platform for indoor surveillance. The propulsion system is a novel design where the differential thrust and swiveling motors control the entire flight regime, with no fins or control surfaces. Topics such as all-up weight estimation based on payload weight, envelope sizing calculations, design and fabrication of a quick dismantlable semirigid structure design are covered. © Springer Science+Business Media Singapore 2017.","Lighter-than-air systems; Semirigid airships","Antennas; Fabrication; Propulsion; Aerial platform; Flight demonstration; Flight regime; Indoor surveillance; Lighter than air systems; Motor control; Novel design; Propulsion system; Semirigid airship; Weights estimation; Airships",,,,,,,,,,,,,,,,"Bansal, G., Bhardwaj, U., Jain, N., Mulay, S., Sawardekar, S., Pant, R.S., Design Fabrication and Flight testing of a Non-rigid Indoor Airship (2013) Proceedings of 20Th AIAA LTA Systems Technology Conference, , AIAA-2013-1297, 25–27 March, Daytona Beach, FL, USA; Dusane, C.R., Wani, A., Pant, R.S., Design and Fabrication of an Indoor Remotely Controlled Airship for Autonomous Control (2015) Proceedings of 29Th National Convention of Aerospace Engineers, , November 27 and 28, Chennai, India; Burgess, C.P., (1923) Bending Moment, Envelope & Cable Stresses in Non-Rigid Airships, , NACA-TR-115, Bureau of Aeronautics (Navy); Washington, DC, United States; Kirilin, A.N., Ivchenko, B.A., (2000) Basic Design Parameters of Non-Rigid Airships, , Technical Report, Russian Dirigible Society, Moscow; Narayana, C.L., Srilatha, K.R., (2000) Analysis of Aerostat Configurations by Panel Methods, , NAL PD CF 0010, Technical Report, National Aerospace Laboratories, Bangalore, India; Lutz, T., Schweyher, H., Wagner, S., Shape Optimization of Axi-symmetric Bodies inIncompressible Flow (1985) Journal of Aircraft, 20, pp. 520-526; Rao, G.N.V., (2006) Note on Optimization of the Body of Tethered Aerostat Airship, , Unpublished paper, Indian Institute of Science Bangalore; Cheeseman, I., Chapter 3: Aerodynamics (2012) Airship Technology, 2, pp. 25-58. , Khoury G. A., ed., Cambridge Aerospace Series 10, ISBN978-1-107-01970-6, Cambridge University Press, New York; Joshi, R., Raina, A.A., Pant, R.S., Conceptual Design of an Airship using Knowledge Based Engineering (2009) Proceedings of 18Th AIAA Lighter-Than-Air Systems Technology Conference, , AIAA-2009-2861, Seattle, Washington, USA, 4th–7th; Thiele, J.R., Patterning Techniques for Inflatable LTA Vehicle (1983) AIAA, Proceedings of 16Th Fluid and Plasma Dynamics Conference, , Danvers, MA, USA, July 12–14; Gawale, A.C., Raina, A.A., Pant, R.S., Jahagirdar, Y.P., Design, Fabrication and Operation of Remotely Controlled Airships in India (2008) Proceedings of 26Th Congress of ICAS and 8Th AIAA ATIO, , AIAA-2008-8853, Anchorage, Alaska, Sep. 14–19; Kshirsagar, A., Sharma, V., Pant, R.S., Design and Development of a Semi Rigid Remotely Controlled Airship (2015) Proceedings of the 10Th International Convention of Airship Association, , 17–19 April, Friedrichshafen, Germany; Loharkar, S.A., Kshirsagar, A., Pant, R.S., Design and Fabrication of a Portable Semi-Rigid Airship (2015) Proceedings of 29Th National Convention of Aerospace Engineers, , November 27 and 28, Chennai, India; http://www.emaxmotors.com, Website of YINYAN Model Tech MFT, online store for purchase of Brand EMAX Motors","Mistr, S.R.; Aerospace Engineering Department, India; email: sohrabmistri@hotmail.com",,,"Springer Heidelberg",,,,,21954356,,,,"English","Lect. Notes Mech. Eng.",Article,"Final","",Scopus,2-s2.0-85021644387
"Kirkire M.S., Rane S.B.","57190767311;56149402100;","Evaluation of success factors for medical device development using grey DEMATEL approach",2017,"Journal of Modelling in Management","12","2",,"204","223",,24,"10.1108/JM2-09-2015-0062","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85021327926&doi=10.1108%2fJM2-09-2015-0062&partnerID=40&md5=fd2ac76cfc5ed042d366a8801d8ba6c2","Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India","Kirkire, M.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, India","Purpose: Successful device development brings substantial revenues to medical device manufacturing industries. This paper aims to evaluate factors contributing to the success of medical device development (MDD) using grey DEMATEL (decision-making trial and evaluation laboratory) methodology through an empirical case study. Design/methodology/approach: The factors are identified through literature review and industry experts’ opinions. Grey-based DEMATEL methodology is used to establish the cause-effect relationship among the factors and develop a structured model. Most significant factors contributing to the success of MDD are identified. An empirical case study of an MDD and manufacturing organisation is presented to demonstrate the use of the grey DEMATEL method. Sensitivity analysis is carried out to check robustness of results. Findings: The results of applying the grey DEMATEL methodology to evaluate success factors of MDD show that availability of experts and their experience (SF4) is the most prominent cause factor, and active involvement of stakeholders during all stages of MDD (SF3) and complete elicitation of end-user requirements (SF1) are the most prominent effect factors for successful MDD. A sensitivity analysis confirms the reliability of the initial solution. Practical implications: The findings will greatly help medical device manufacturers to understand the success factors and develop strategies to conduct successful MDD processes. Originality/value: In the past, few success factors to MDD have been identified by some researchers, but complex inter-relationships among factors are not analysed. Finding direct and indirect effects of these factors on the success of MDD can be a good future research proposition. © 2017, © Emerald Publishing Limited.","grey-based DEMATEL; Medical device development; Medical device industry; Prototype; Stakeholders; Success factors",,,,,,,,,,,,,,,,,"Aguwa, C.C., Monplaisir, L., Achuthamenon, P., Muni, S.R.K., Integrated fuzzy-based modular architecture for medical device design and development (2010) Journal of Medical Devices, 4; Aguwa, C.C., Monplaisir, L., Sylajakumari, P.A., Rules modification on a Fuzzy based modular architecture for medical device design and development (2012) IIE Transactions on Healthcare Systems Engineering, 2 (1), pp. 50-61; Aitchison, G.A., Hukins, D.W.L., Parry, J.J., Shepherd, D.E.T., Trotman, S.G., A review of the design process for implantable orthopedic medical devices (2009) The Open Biomedical Engineering Journal, 3, pp. 21-27; Bai, C., Sarkis, J., A grey-based DEMATEL model for evaluating business process management critical success factors (2013) International Journal of Production Economics, 146 (1), pp. 281-292; Brown, A., Dixon, D., Eatock, J., Meenan, B.J., Young, T., (2008) A survey of success factors in new product development in the medical devices industry, pp. 1-5. , Engineering Management Conference, IEMC Europe, IEEE International; Chang, K.H., Chang, Y.C., Tsai, I.T., Enhancing FMEA assessment by integrating grey relational analysis and the decision making trial and evaluation laboratory approach (2013) Engineering Failure Analysis, 31, pp. 211-224; Ciurana, J., Designing, prototyping and manufacturing medical devices: an overview (2014) International Journal of Computer Integrated Manufacturing, 27 (10), pp. 901-918; Deng, J.L., Control problems of grey systems (1982) System Control Letters, 1 (5), pp. 288-294; Deng, J., Introduction to grey system theory (1989) The Journal of Gery System, 1 (1), pp. 1-24; Eatock, J., Dixon, D., Young, T., An exploratory survey of current practice in the medical device industry (2009) Journal of Manufacturing Technology Management, 20 (2), pp. 218-234; 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(2016) Quality management for medical devices; (2012) Risk management of medical devices; Krishnan, K.V., (2011) Bright prospects for medical devices industry, , www.pharmabiz.com/PrintArticle.aspx?aid=63097&sid=9; Li, Y., Hu, Y., Zhang, X., Deng, Y., Mahadevan, S., An evidential DEMATEL method to identify critical success factors in emergency management (2014) Applied Soft Computing, 22 (1), pp. 504-510; Liu, J., Qiao, J., A grey rough set model for evaluation and selection of software cost estimation methods (2014) Grey Systems: Theory and Application, 4 (1), pp. 3-12; Lucke, L.E., Mickelson, A., Anderson, D., (2009) Proving experience speeds medical device time to market, pp. 7057-7060. , September, 31st Annual International Conference of the IEEE Engineering in Medicine and Bio Society (EMBS), Minneapolis, MN: Institute of Electrical and Electronics Engineers, Piscataway, NJ; Malkin, R.A., Barriers for medical devices for the developing world (2007) Expert review medical devices, 4 (6), pp. 759-763; 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Mol, B.A.D., Regulation of risk management of medical devices and the role of litigation (2014) Journal of Risk Research, 17 (6), pp. 735-748; Money, A.G., Barnett, J., Kuljis, A., Craven, M.P., Martin, J.L., Young, T., The role of the user within the medical device design and development process: medical device manufacturers’ perspectives (2011) BMC Medical Information and Decision Making, 11 (15), pp. 1-12; Patil, S.K., Kant, R., Knowledge management adoption in supply chain (2014) Journal of Modelling in Management, 9 (2), pp. 160-178; Pietzsch, J.B., Shluzas, L.A., Paté-Cornell, M.E., Yock, P.G., Linehan, J.H., Stage-gate process for the development of medical devices (2009) Journal of Medical Devices, 3 (2); Pitchipoo, P., Venkumar, P., Rajakarunakaran, S., Modeling and development of a decision support system for supplier selection in the process industry (2013) Journal of Industrial Engineering International, 9 (23), pp. 1-15; Rahimnia, F., Moghadasian, M., Mashreghi, E., Application of grey theory approach to evaluation of organizational vision (2011) Grey Systems: Theory and Applications, 1 (1), pp. 33-46; 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Shieh, J.I., Wu, H.H., Huang, K.K., A DEMATEL method in identifying key success factors of hospital service quality (2010) Knowledge Based Systems, 23 (3), pp. 277-282; Shivade, A.S., Shinde, V.D., Multi-objective optimization in WEDM of D3 tool steel using integrated approach of Taguchi method & Grey relational analysis (2014) Journal of Industrial Engineering International, 10, pp. 149-162; Tsai, S.B., Chien, M.F., Xue, Y., Li, L., Jiang, X., Chen, Q., Zhou, J., Wang, L., Using the fuzzy DEMATEL to determine environmental performance: a case of printed circuit board industry in Taiwan (2015) PLoS ONE, 10 (6), p. e0129153; Tseng, M.L., A causal and effect decision making model of service quality expectation using grey-fuzzy DEMATEL approach (2009) Expert Systems with Applications, 36 (4), pp. 7738-7748; Walters, A., Thomas, N., Brown, R., (2001) Barriers to effective product development within SMEs in the medical manufacturing sector, pp. 113-119. , May, Manufacturing Information Systems- Proceedings of The Fourth SMESME International Conference, Alborg University, Alborg; Wei, G.W., GRA method for multiple attribute decision making with incomplete weight information in intuitionistic fuzzy setting (2010) Knowledge Based Systems, 23 (3), pp. 243-247; (2010) Barriers to innovation in the field of medical devices, , http://apps.who.int/iris/bitstream/10665/70457/1/WHO_HSS_EHT_DIM_10.6_eng.pdf; Wu, H.H., Chang, S.Y., A case study of using DEMATEL method to identify critical factors in green supply chain management (2015) Appiled Mathematics and Computation, 256 (3), pp. 394-403; Wu, W.W., Segmenting critical factors for successful knowledge management implementation using the fuzzy DEMATEL method (2012) Applied Soft Computing, 12 (1), pp. 527-535; Xia, X., Govindan, K., Zhu, Q., Analyzing internal barriers for automotive parts remanufacturers in China using grey-DEMATEL approach (2015) Journal of Cleaner Production, 87 (1), pp. 811-825; Zhou, Q., Huang, W., Zhang, Y., Identifying critical success factors in emergency management using a fuzzy DEMATEL method (2011) Safety Science, 49 (2), pp. 243-252; Zhu, Q., Sarkis, J., Geng, Y., Barriers to environmentally-friendly clothing production among Chinese apparel companies (2011) Asian Business Management, 10 (3), pp. 425-452; Datta, P., Mukhopadhyay, L., Selvaraj, S., (2013) Medical devices manufacturing industry in India: market structure, import intensity and regulatory mechanisms, , Working Paper Series 02, Institute for Studies in Industrial Development (ISID) – Public Health Foundation of India (PHFI) Collaborative Research Programme","Kirkire, M.S.; Department of Mechanical Engineering, India; email: milind.kirkire@gmail.com",,,"Emerald Group Publishing Ltd.",,,,,17465664,,,,"English","J. Model. Manage.",Article,"Final","",Scopus,2-s2.0-85021327926
"Rane S.B., Kirkire M.S.","56149402100;57190767311;","Interpretive structural modelling of risk sources in medical device development process",2017,"International Journal of System Assurance Engineering and Management","8",,,"451","464",,29,"10.1007/s13198-015-0399-6","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85011630025&doi=10.1007%2fs13198-015-0399-6&partnerID=40&md5=d666052a98f4478642dddd3e8fce22ac","Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India; Kirkire, M.S., Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India","Development of new devices is known to bring substantial amount of revenues to medical device manufacturing companies, but is often a risky endeavour. The risks are stemmed from number of sources which have catastrophic effects on medical device development (MDD) process. This paper explores risk sources in MDD process. A model of interaction among these sources is developed based on contextual mutual relationships among them. The risk sources which can jeopardize the MDD processes in terms of cost, time of development and quality of device are identified primarily through experts’ opinions and literature review. The mutual relationship among them is established using interpretive structural modelling methodology. They are further classified based on the mutual influence and dependence using MICMAC analysis. The results show that the risk sources have mainly two groups; one has high dependence and low driving power representing the resulting actions. Another group has high driving power and low dependence indicating the need for systematic attention. Third group is of autonomous risk sources which are relatively disconnected from the system but are important when considered separately. This research is a unique effort and will be a lighthouse for the developers, decision makers and researchers to focus and deal with the risk sources which can impede the processes and may even result in harmful events related to devices. This study is focused on risk sources in MDD process but can be applied to product development in other areas to improve the development processes. © 2015, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Interpretive structural modelling (ISM); Medical device development; Process; Risk sources","Decision making; Processing; Catastrophic effects; Development process; Interpretive structural modelling (ISM); Literature reviews; Medical device development; Medical device manufacturing; Risk sources; Structural modelling; Risk assessment",,,,,"All India Council for Technical Education, अभातशिप: 20/AICTE/RIFD/RPS (POLICY-1) 61/2013-14","This work was supported by All India Council for Technical Education (AICTE) under Grant Ref No. 20/AICTE/RIFD/RPS (POLICY-1) 61/2013-14. The authors are grateful to the concerned authorities and the MDD experts who contributed to this study. The authors express sincere thanks to the anonymous reviewers for their valuable suggestions to improve quality of this paper. The authors also express thanks to the editor and his team for the continuous guidance and support for this work.",,,,,,,,,,"Aguwa, C.C., Monplaisire, L., Sylajakumari, P.A., Rules modification on a fuzzy based modular architecture for medical device design and development (2012) IIE Trans Healthc Syst Eng, 2 (1), pp. 50-61; Alawamleh, M., Popplewell, K., Interpretive structural modelling of risk sources in a virtual organisation (2011) Int J Prod Res, 49 (20), pp. 6041-6063; Attri, R., Grover, S., Dev, N., Kumar, D., An ISM approach for modelling the enablers in the implementation of total productive maintenance (TPM) (2013) Int J Syst Assur Eng Manag, 4 (4), pp. 313-326; Attri, R., Grover, S., Dev, N., Kumar, D., Analysis of barriers of total productive maintenance (TPM) (2013) Int J Syst Assur Eng Manag, 4 (4), pp. 365-377; Borade, A., Bansod, S., Interpretive structural modelling-based framework for VMI adoption in Indian industries (2012) Int J Adv Manuf Technol, 58 (9-12), pp. 1227-1242; Borcherding, B., Exposing risk throughout your product development lifecycle: best practices for medical device development (2013) Free white paper; Braceras, I., Ipinazar, E., Maeztu, M.A., Alava, J.I., Risk analysis and implants (2008) Med Eng Phys, 30 (9), pp. 1201-1204; Chan, S.L., Ip, W.H., Zhang, W.J., Integrating failure analysis and risk analysis with quality assurance in the design phase of medical device development (2012) Int J Prod Res, 50 (8), pp. 2190-2203; Chang, A.Y., Hu, K.J., Hong, Y.L., An ISM–ANP approach to identifying key agile factors in launching a new product into mass production (2013) Int J Prod Res, 51 (2), pp. 582-597; Cheng, S., Das, D., Pecht, M., Using failure modes, mechanisms, and effects analysis in medical device adverse event investigations (2011) In: Paper presented at international conference on biomedical ontology Buffalo, , NY, USA; Ciurana, J., Designing, prototyping and manufacturing medical devices: an overview (2014) Int J Comput Integr Manuf, 27 (10), pp. 901-918; Dankelman, J., Increasing complexity of medical technology and consequences for training and outcome of care (2010) World Health Organisation Background Paper, 4, pp. 1-20; Diabat, A., Govindan, K., Panicker, V.V., Supply chain risk management and its mitigation in a food industry (2012) Int J Prod Res, 50 (11), pp. 3039-3050; Dubey, R., Gunasekaran, A., Chakrabarty, A., Ubiquitous manufacturing: overview, framework and further research directions. Int J Comput Integr Manuf (2015) doi:10.1080/0951192X.2014.1003411; Faisal, M.N., Banwet, D.K., Shankar, R., Supply chain risk mitigation: modelling the enablers (2006) Bus Process Manag J, 12 (4), pp. 535-552; Faisal, M.N., Banwet, D.K., Shankar, R., Information risks management in supply chains: an assessment and mitigation framework (2007) J Enterp Inf Manag, 20 (6), pp. 677-699; An introduction to human factors in medical devices; Design control guidance for medical device manufacturers; Quality system regulation labelling requirements. Accessed; Hachicha, W., Elmsalmi, M., An integrated approach based structural modelling for risk prioritization in supply network management (2014) J Risk Res, 17 (10), pp. 1301-1324; Application of risk management to medical devices; Jadhav, J.R., Mantha, S.S., Rane, S.B., Development of framework for sustainable Lean implementation: an ISM approach (2014) J Ind Eng Int, 10, p. 72; Kumar, S., Luthra, S., Haleem, A., Customer involvement in greening the supply chain: an interpretive structural modelling methodology (2013) J Ind Eng Int, 9 (6), pp. 1-13; Lang, A.R., Martin, J.L., Sharples, S., Crowe, J., Murphy, E., Not a minor problem: involving adolescents in medical device design research (2014) Theor Issues Ergon Sci, 15 (2), pp. 181-192; Lee, C.K.M., Lv, Y., Hong, Z., Risk modelling and assessment for distributed manufacturing system (2013) Int J Prod Res, 51 (9), pp. 2652-2666; Lin, Q.L., Wang, D.J., Lin, W.G., Liu, H.C., Human reliability assessment for medical devices based on failure mode and effect analysis and fuzzy linguistic theory (2014) Saf Sci, 62, pp. 248-256; Lindholm, C., Host, M., Risk identification by physicians and developers—differences investigated in a controlled experiment (2009) Paper presented at SEHC’09, , Vancouver, Canada; Malhotra, M.K., Grover, V., An assessment of survey research in POM: from constructs to theory (1998) J Oper Manag, 16 (4), pp. 407-425; Mandal, A., Deshmukh, S.G., Vendor selection using interpretive structural modeling (ISM) (1994) Int J Oper Prod Manag, 14 (6), pp. 52-59; Martin, J.L., Barnett, J., Integrating the results of user research into medical device development: insights from a case study (2012) BMC Med Inform Decis Mak, 12 (74), pp. 1-10; Martin, J.L., Murphy, E., Crowe, J.A., Norris, B.J., Capturing user requirements in medical device development: the role of ergonomics (2006) Psychol Meas, 27 (8), pp. 49-62; Martin, J.L., Clark, D.J., Morgan, S.P., Crowe, J.A., Murphy, E., A user centred approach to requirements elicitation in medical device development: a case study from an industry perspective (2012) Appl Ergon, 43 (1), pp. 184-190; Medina, L.A., Kremer, G.E., Wysk, R.A., Supporting medical device development: a standard product design process model (2012) J Eng Des, 24 (2), pp. 1-37; Mishra, S., Datta, S., Mahapatra, S.S., Interrelationship of drivers for agile manufacturing: an Indian experience (2012) Int J Serv Oper Manag, 11 (1), pp. 35-48; Mol, B.A.D., Regulation of risk management of medical devices and the role of litigation (2014) J Risk Res, 17 (6), pp. 735-748; Panahifar, F., Byrne, P.J., Heavey, C., ISM analysis of CPRF implementation barriers (2014) Int J Prod Res, 52 (18), pp. 5255-5272; Pietzsch, J.B., Shluzas, L.A., Paté-Cornell, M.E., Yock, P.G., Linehan, J.H., Stage-gate process for the development of medical devices (2009) J Med Devices, 3 (2), pp. 021004-021015; Risk analysis into the product development process; Racine, J., Orthopedic medical devices: ethical questions, implant recalls and responsibility (2013) Rhode Isl Med J, 96 (6), pp. 16-19; Raj, T., Shankar, R., Suhaib, M., An ISM approach for modelling the enablers of flexible manufacturing system: the case for India (2008) Int J Prod Res, 46 (24), pp. 6883-6912; Ravi, V., Shankar, R., Analysis of interactions among the barriers of reverse logistics (2005) Technol Forecast Soc Change, 72 (8), pp. 1011-1029; Sastry, C., Gordon, M., Musso, C., Ramaswamy, S., (2010) Design to value in medical devices, , Mckinsey & Company, New York; Schmland, C., Value-added medical-device risk management (2005) Dev Mater Reliab IEEE Trans, 5 (3), pp. 488-493; Shah, S.G.S., Robinson, I., Benefits and barriers to involving users in medical device technology development and evaluation (2007) Int J Tech Assess Health Care, 23 (1), pp. 131-137; Shah, S.G.S., Robinson, I., AlShawi, S., Developing medical device technologies from users’ perspectives: a theoretical framework for involving users in the development process (2009) Int J Technol Assess Health Care, 25 (4), pp. 514-521","Kirkire, M.S.; Department of Mechanical Engineering, Bhavan’s Campus, Andheri (W), India; email: milind.kirkire@gmail.com",,,"Springer",,,,,09756809,,,,"English","Intl. J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-85011630025
"Raul A., Bhasme B.N., Maurya R.S.","57192575476;57192574936;57225420052;","A Numerical Investigation of Fluid Flow Maldistribution in Inlet Header Configuration of Plate Fin Heat Exchanger",2016,"Energy Procedia","90",,,"267","275",,26,"10.1016/j.egypro.2016.11.194","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006854981&doi=10.1016%2fj.egypro.2016.11.194&partnerID=40&md5=3c52b0eb2399b9f7de308258d21e180f","Sardar Patel College of Engineering, Mumbai, India","Raul, A., Sardar Patel College of Engineering, Mumbai, India; Bhasme, B.N., Sardar Patel College of Engineering, Mumbai, India; Maurya, R.S., Sardar Patel College of Engineering, Mumbai, India","The common assumption made for the design of heat exchangers is that the fluid flow in the header and core part is uniform. It is found that the flow maldistribution is very significant in the direction normal to the flow direction in inlet header of the plate fin heat exchanger. In the present work numerical analysis of a plate fin heat exchanger accounting for the effect of fluid flow maldistribution in inlet header configuration of the heat exchanger is investigated. Various inlet configuration has been studied for various Reynolds Number. A modified header configuration with double baffle plate having two arrangements are proposed and simulated. The two dimensional parameters are used to evaluate the flow non-uniformity in header, gross flow maldistribution parameter (Sg), velocity ratio (θ). A validation of numerical work is done by comparing results of numerical analysis for conventional header with the experimental results from the literature. A series of velocity vectors and streamline graphs at different cross-section. The numerical results indicate that the flow maldistribution is serious in conventional header, while in the improved configuration less maldistribution occurs. The flow maldistribution parameter (Sg) and velocity ratio (θ) is less in improved configuration as compared with conventional header. The improved header can effectively enhance the efficiency of plate fin heat exchanger and uniformity of flow distribution.","flow maldistribution; inet header; plate fin heat exchanger; velocity ratio","Fins (heat exchange); Numerical analysis; Reynolds number; Velocity; Flow maldistribution; Gross flow maldistribution; Header configuration; inet header; Inlet configuration; Numerical investigations; Plate-fin heat exchanger; Velocity ratio; Flow of fluids",,,,,,,,,,,,,,,,"Shah, R.K., (2003) Fundamentals of Heat Exchanger Design, , John Wiley & Sons Publication; Kays, W.M., London, A.L., (1998) Compact Heat Exchangers, , reprint 3rd ed., Krieger Publishing, Malabar, FL; Wen, J., Li, Y., Experimental investigation of header configuration improvement in plate-fin heat exchanger (2007) Applied Thermal Engineering, 27, pp. 1761-1770; Zhe, Z., Yanzhong, L., Experimental Research on flow maldistribution in plate-fin heat exchanger (2004) Chinese J. Chem. Eng., 12 (1), pp. 7-13; Ranganayakulu, C.H., Seetharamu, K.N., The combined effects of wall longitudinal heat conduction and inlet fluid flow maldistribution in crossflow plate-fin heat exchangers (2000) Heat and Mass Transfer, 36, pp. 247-256; Jiao, A., Zhang, R., Jeong, S., Experimental investigation of header configuration on flow maldistribution in plate-fin heat exchanger (2003) Applied Thermal Engineering, 23, pp. 1235-1246; Zhang, Z., Li, Y., CFD simulation on inlet configuration of plate-fin heat exchangers (2003) Cryogenics, 43, pp. 673-678; Sheik Ismail, L., Ranganayakulu, C., Ramesh Shah, K., Numerical study of flow patterns of compact plate-fin heat exchangers and generation of design data for offset and wavy fins (2009) International Journal of Heat and Mass Transfer, 52, pp. 3972-3983; Habib, M.A., Ben-Mansour, R., Said, S.A.M., Correlations of flow maldistribution parameters in an air cooled heat exchanger (2008) Int. J. Numer. Meth. Fluids, 56, pp. 143-165; Zhang, L., Flow maldistribution and thermal performance deterioration in a cross-flow air to air heat exchanger with plate-fin cores (2009) International Journal of Heat and Mass Transfer, 52, pp. 4500-4509; Jiao, A., Baek, S., Effects of Distributor Configuration on Flow Maldistribution in Plate-Fin heat exchanger (2005) Heat Transfer Engineering, 26 (4), pp. 19-25; Baek, S., Lee, C., Jeong, S., Effect of flow maldistribution and axial conduction on compact microchannel heat exchanger (2014) Cryogenics, 60, pp. 49-61; Manikanda Kumaran, R., Kumaraguruparan, G., Sornakumar, T., Experimental and numerical studies of header design and inlet/outlet configurations on flow mal-distribution in parallel micro-channels (2013) Applied Thermal Engineering, 58, p. 205e216; Habib, M.A., Ben-Mansour, R., Said, S.A.M., Al-Qahtani, M.S., Evaluation of flow maldistribution in air-cooled heat exchangers (2009) Computers & Fluids, 38, pp. 677-690; Mao, J.N., Chen, H.X., Jia, H., Wang, Y.Z., Hu, H.M., Effect of air-side flow maldistribution on thermal-hydraulic performance of the multi-louvered fin and tube heat exchanger (2013) International Journal of Thermal Sciences, 73, p. 46e57; Aganda, A.A., Coney, J.E.R., Sheppard, C.G.W., Air flow maldistribution and the performance of a packaged air conditioning unit evaporator (2000) Applied Thermal Engineering, 20, pp. 515-528","Bhasme, B.N.; Sardar Patel College of EngineeringIndia; email: b_bhasme@spce.ac.in","Banerjee R.Bandyopadhyay S.Kavaipatti B.Mitra S.","Bio Logic;MAGEEP et al.;Ministry of New and Renewable Energy,Goverment of India;SEMYUNG;ZEISS","Elsevier Ltd","5th International Conference on Advances in Energy Research, ICAER 2015","15 December 2015 through 17 December 2015",,114914,18766102,,,,"English","Energy Procedia",Conference Paper,"Final","All Open Access, Gold",Scopus,2-s2.0-85006854981
"Rane S.B., Narvel Y.A.M.","56149402100;57192108846;","Reliability assessment and improvement of air circuit breaker (ACB) mechanism by identifying and eliminating the root causes",2016,"International Journal of System Assurance Engineering and Management","7",,,"305","321",,8,"10.1007/s13198-015-0405-z","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84997543001&doi=10.1007%2fs13198-015-0405-z&partnerID=40&md5=1c7aa9d925605586847f1a7e1183945d","Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri –West, Mumbai, 400058, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri –West, Mumbai, 400058, India; Narvel, Y.A.M., Department of Mechanical Engineering, Sardar Patel College of Engineering, Munshi Nagar, Andheri –West, Mumbai, 400058, India","Air circuit breakers (ACBs) are widely used as electro-mechanical devices to protect an electrical circuit from damage caused by overload or short circuit. Its basic function is to isolate a fault condition by interrupting current flow and if it fails to function, then it may cause a major accident. The major functions in ACB relies on mechanical drives and linkages, hence assessing the reliability of these drives and links is of key importance. This paper demonstrates the process of assessment as well as improvement of Reliability of ACB by exploring and eliminating the root causes of failures based on various relevant tools. Reliability assessment of existing and improved ACB mechanism was carried out by using Lifetime distribution. Root causes were analyzed using FTA, Ishikawa diagram, CE Matrix, and Pareto chart. After analyzing various causes, the root cause of failures in ACB was malfunctioning of unidirectional bearing. Elimination of root cause increased the reliability from 17.61 to 87.82 % for 20,000 operations. The drastic increase in reliability of ACB after eliminating the root cause of failure served its purpose effectively and helped in securing a strong position in market. This research deals with reliability improvement of ACB that can cut-off/supply electricity from the substation. Improving reliability of such product reduces these possible risks and indirectly helps the society particularly in critical areas like Hospitals, Airports, Process industries, etc. © 2015, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Air circuit breaker; Fault tree analysis (FTA); Ishikawa diagram; Lifetime distributions; Reliability assessment","Aircraft accidents; Electric circuit breakers; Electric network analysis; Electromechanical devices; Fault tree analysis; Timing circuits; Air circuit breakers; Fault tree analyses (FTA); Ishikawa diagram; Life-time distribution; Reliability assessments; Reliability analysis",,,,,,,,,,,,,,,,"Ahmadzadeh, F., Lundberg, J., Remaining useful life estimation: review (2014) Int J Syst Assur Eng Manag, 5 (4), pp. 461-474; Ammerman, M., (1998) The root cause analysis handbook, , Productivity Press, New York; Anderson, B., Fagerhaug, T., (2006) Root cause analysis: simplified tools and techniques, , Quality Press, Wisconsin; 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(1985) Qual Reliab Eng Int, 1 (4), pp. 249-255; Lougha, K.G., Stonea, R., Tumer, I.Y., The risk in early design method (2009) J Eng Des, 20 (2), pp. 155-173; Mahmood, Y.A., Ahmadi, A., Verma, A.K., Srividya, A., Kumar, U., Fuzzy fault tree analysis: a review of concept and application (2013) Int J Syst Assur Eng Manag, 4 (1), pp. 19-32; Marković, D., Jukic, D., On nonlinear weighted total least squares parameter estimation problem for the three-parameter Weibull density (2010) Appl Math Model, 34, pp. 1839-1848; Mazza, G., Michaca, R., The first international enquiry on circuit breaker failures and defects in service (1985) ELECTRA, 79, pp. 21-91; Moeini, A., Jenab, K., Mohammadi, M., Foumani, M., Fitting the three-parameter Weibull distribution with cross entropy (2013) Appl Math Model, 37, pp. 6354-6363; Mohammadian, S.H., Ait-Kadi, D., Design stage confirmation of life time improvement for newly modified products through accelerated life testing (2010) Reliab Eng Syst Saf, 95, pp. 897-905; Morello, M.G., Cavalca, K.L., Silveira, Z.C., Development and reduction of a fault tree for gearboxes of heavy commercial vehicles based on identification of critical components (2008) Qual Reliab Eng Int, 24 (2), pp. 183-198; Munro, A.H., Wixley, R.A.J., Estimators based on order statistics of small samples from a three-parameter lognormal distribution (1970) J Am Stat Assoc, 65 (212), p. 225; Nagatsuka, H., Kamakurab, T., Balakrishnan, N., A consistent method of estimation for the three-parameter Weibull distribution (2013) Comput Stat Data Anal, 58, pp. 210-226; Nichols, K., Designing for quality and reliability (1992) J Eng Des, 3 (2), pp. 139-148; Pal, A., Franciosa, P., Ceglarek, D., Root cause analysis of product service failures in design a closed-loop lifecycle modelling approach (2014) Proc CIRP, 21, pp. 165-170; Pang, W., Leung, P., Huang, W., Liu, W., On interval estimation of the coefficient of variation for the three-parameter Weibull, lognormal and gamma distribution: a simulation-based approach (2005) Eur J Oper Res, 164, pp. 367-377; Panja, S.C., Ray, P.K., Reliability analysis of a ‘point-and-point machine’ of the Indian railway signaling system (2007) Qual Reliab Eng Int, 23 (7), pp. 833-848; Peng, Z., Lu, Y., Miller, A., Johnson, C., Zhao, T., Risk assessment of railway transportation systems using timed fault trees (2014) Qual Reliab Eng Int; Reid, I., Smyth-Renshaw, J., Exploring the fundamentals of root cause analysis: Are we asking the right questions in defining the problem? (2012) Qual Reliab Eng Int, 28 (5), pp. 535-545. , Special Issue: ENBIS 11; Remenyte-Prescott, R., Andrews, J.D., Chung, P.W.H., An efficient phased mission reliability analysis for autonomous vehicles (2010) Reliab Eng Syst Saf, 95, pp. 226-235; Robitaille, D., (2004) Root cause analysis: basic tools and techniques, , Paton Press LLC, Chico; Rooney, J.J., Heuvel, L.N.V., Root cause analysis for beginners (2004) Qual Prog, 37 (7), pp. 45-53; Rukhin, A.L., Improved estimation in lognormal models. Technical Report No. 84–38, Department of Statistics (1984) Purdue University, , West Lafayette, Indiana; Shrouti, C., Franciosa, P., Ceglarek, D., Root cause analysis of product service failure using computer experimentation technique (2013) Proc CIRP, 11, pp. 44-49; Sinha, R.S., Mukhopadhyay, A.K., Reliability centered maintenance of cone crusher: a case study (2015) Int J Syst Assur Eng Manag, 6 (1), pp. 32-35; Smitha, J., Clarkson, P.J., Design concept modelling to improve reliability (2005) J Eng Des, 16 (5), pp. 473-492; Stapleberg, R.F., (2009) Handbook of reliability, availability, maintainability and safety in engineering design, pp. 45-55. , Springer, Berlin; Stapleberg, R.F., (2009) Handbook of reliability, availability, maintainability and safety in engineering design, p. 636. , Springer, Berlin; Surhone, L., Timpledon, M., Marseken, S., Pareto analysis: statistics, decision making, Pareto principle, fault tree analysis, failure mode and effects analysis, Pareto distribution (2010) Wikipedia Betascript Publishing; Sutton, I.S., Use root cause analysis to understand and improve process safety culture (2008) Process Saf Prog, 27 (4), pp. 274-279; Tang, J., Mechanical system reliability analysis using a combination of graph theory and Boolean function (2001) Reliab Eng Syst Saf, 72, pp. 21-30; Venu, V.V., Verma, A.K., Reliability of electric power systems: challenges in the deregulated environment—a research perspective (2010) Int J Syst Assur Eng Manag, 1, pp. 24-31; Vera, J.F., Díaz-García, J.A., A global simulated annealing heuristic for the three-parameter lognormal maximum likelihood estimation (2008) Comput Stat Data Anal, 52, pp. 5055-5065; Vesely, W.E., Goldberg, F.F., Roberts, N.H., Haasi, D.F., (1981) The fault tree handbook, pp. VII_1-VII_8. , US Nuclear Regulatory Commission, NUREG 0492, Commission Headquarters, Rockville; Wang, Y., Wu, X., Zhou, Z., Li, Y., Investigation of reliability and lifetime distribution of the gas sensors based on C2H5OH (2003) Solid State Electron, 47, pp. 107-110; Wang, Y., Wu, X., Zhou, Z., Li, Y., The reliability and lifetime distribution of SnO2- and CdSnO3-gas sensors for butane (2003) Sens Actuators, B, 92, pp. 186-190; Wee, Y.Y., Cheah, W.P., Tan, S.C., Wee, K., A method for root cause analysis with a Bayesian belief network and fuzzy cognitive map (2015) Expert Syst Appl, 42, pp. 468-487; Wilson, P., Dell, L., Anderson, G., (1993) Root cause analysis: a tool for total quality management, , Quality Press, Wisconsin; Yadav, O.P., Singh, N., Goel, P.S., Reliability demonstration test planning: a three dimensional consideration (2006) Reliab Eng Syst Saf, 91, pp. 882-893; Yadav, O.P., Choudhary, N., Bilen, C., Complex system reliability estimation methodology in the absence of failure data (2008) Qual Reliab Eng Int, 24 (7), pp. 745-764; Zhang, T., Dwight, R., Choosing an optimal model for failure data analysis by graphical approach (2013) Reliab Eng Syst Saf, 115, pp. 111-123; Zhang, X., Gockenbach, E., Age-dependent maintenance strategies of medium-voltage circuit-breakers and transformers (2011) Electr Power Syst Res, 81, pp. 1709-1714; Zhang, X., Gockenbacha, E., Liub, Z., Chenc, H., Yangc, L., Reliability estimation of high voltage SF6 circuit breakers by statistical analysis on the basis of the field data (2013) Electr Power Syst Res, 103, pp. 105-113","Narvel, Y.A.M.; Department of Mechanical Engineering, Munshi Nagar, Andheri –West, India; email: yahyanarvel@gmail.com",,,"Springer",,,,,09756809,,,,"English","Intl. J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-84997543001
"Maurya R.S., Ansari Z.A.J.","57225420052;57192575826;","Effect of flow and geometry parameters on performance of solar air heater",2016,"THERMINIC 2016 - 22nd International Workshop on Thermal Investigations of ICs and Systems",,,"7749075","319","322",,1,"10.1109/THERMINIC.2016.7749075","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006893173&doi=10.1109%2fTHERMINIC.2016.7749075&partnerID=40&md5=4a52556aaf0db832407725f24b9ac023","Sardar Patel College of Engineering, Mumbai, India","Maurya, R.S., Sardar Patel College of Engineering, Mumbai, India; Ansari, Z.A.J., Sardar Patel College of Engineering, Mumbai, India","Present paper deals with numerical investigation of solar air heater of a specific configuration where different geometrical parameters influencing its performance, is varied and its impact is assessed. The climatic conditions of Jeddah (lat. 21° 42' N, 39° 11' E), Saudi Arabia is considered for investigation. The numerical investigation is carried out using commercial CFD software i.e. ANSYS Fluent, as a tool of analysis. The effect of air mass flow rate, various selective coatings on the absorber plate, number of covers, spacing between the covers on the flowing air outlet temperature (Tfo) and the heater instantaneous efficiency (νinst) are studied. The study also includes the effect of fins kept in the flow passage of heater. Investigation concludes that a better performance is expected using cobalt oxide (Co-O) as a selective coating material with a daily average of the instantaneous efficiency of about 56%. To ensure the correctness of numerical model the simulated result is validated with the analytical result that had been performed for the heater with a black painted absorber plate under the same climatic conditions. © IEEE / Therminic 2016.",,"Air preheaters; Coatings; Computational fluid dynamics; Efficiency; Geometry; Heating equipment; Integrated circuits; Solar equipment; Air mass flow rate; Analytical results; Climatic conditions; Geometry parameter; Instantaneous efficiencies; Numerical investigations; Outlet temperature; Selective coatings; Solar heating",,,,,,,,,,,,,,,,"Goldstein, L., Sparrow, E.M., Experiments on the transfer characteristics of a corrugated fin and tube heat exchanger configuration (1976) Transaction of the ASME Journal of Heat Transfer, 98, pp. 26-34; Lansing, F.L., Clarke, V., Reynolds, R., A high performance porous flat-plate solar collector (1979) Energy, 4, pp. 685-694; Lin, W., Gao, W., Liu, T., A parametric study on the thermal performance of cross-corrugated solar air collectors (2006) Applied Thermal Engineering, 26, pp. 1043-1053; Yeh, H.M., Lin, T.T., Efficiency improvement of flat-plate solar air heaters (1996) Energy, 21 (7), pp. 435-443; El-Sawi, A.M., Wifi A, S., Younan, M.Y., Elsayed, E.A., Basily, B.B., Application of folded sheet metal in flat bed solar air collectors (2010) Applied Thermal Engineering, 30, pp. 864-871; Alok, C., Sahoo, P.K., Solanki, S.C., Analysis of heat transfer augmentation and flow characteristics due to rib roughness over absorber plate of a solar air heater (2006) Renewable Energy, 31 (331), p. 317; Saini, R.P., Verma, J., Heat transfer and friction factor correlations for a duct having dimple-shape artificial roughness for solar air heaters (2008) Energy, 33, pp. 77-87; Martin, S.R.L., Fjeld, G.J., Experimental performance of three solar collectors (1975) Energy, 17, pp. 345-349; El-Sebaii, A.A., Al-Snani, H., Effect of selective coating on thermal performance of flat plate solar air heaters (2010) Energyvol, 3, pp. l820-1828","Maurya, R.S.; Sardar Patel College of EngineeringIndia; email: r-maurya@spce.ac.in","Poppe A.","Huawei;IEEE;IEEE Components, Packaging and Manufacturing Technology Society (CPMT);Mentor Graphics - Mechanical Analysis","Institute of Electrical and Electronics Engineers Inc.","22nd International Workshop on Thermal Investigations of ICs and Systems, THERMINIC 2016","21 September 2016 through 23 September 2016",,124915,,9781509054503,,,"English","THERMINIC - Int. Workshop Therm. Investig. Ics Syst.",Conference Paper,"Final","",Scopus,2-s2.0-85006893173
"Sonandkar V., Bhati A., Gupta D., Chouhan S., Kinhekar N., Padhy N.P.","57191838576;57191848109;57191850947;57191843349;55920860800;35517075500;","Power measurement using arduino for effective demand response",2016,"2016 IEEE 6th International Conference on Power Systems, ICPS 2016",,,"7584140","","",,2,"10.1109/ICPES.2016.7584140","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84994121559&doi=10.1109%2fICPES.2016.7584140&partnerID=40&md5=7d58623f6641e18b2939ffce1e81e249","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engineering, Indian Institute of Technology Roorkee, India","Sonandkar, V., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Bhati, A., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Gupta, D., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Chouhan, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kinhekar, N., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Padhy, N.P., Department of Electrical Engineering, Indian Institute of Technology Roorkee, India","The power demand has increased drastically over the last few years. One of the way by which we can solve this energy problems is by reducing usage of energy in households during peak demand. For this, demand response by real time pricing is implemented in the project. There is need for accurate and economic methods of power measurement. The main objective of this project is Power Measurement to reduce peak on generation by providing customers with their instantaneous power consumption. The aim of providing such data to the user is, to encourage them to shift their load during non-peak hour and reduce their power usage and electricity bill. Hardware, Software and the theory involved in the project is briefly described. The current and voltage signals from the load are stepped down and conditioned before they are given to the Atmega328. Load circuit, Signal conditioning circuit and their construction and functionality in the project are discussed. © 2016 IEEE.","Arduino; ATmega328; Demand Response; Real Time Pricing; Visual basic","Electric power utilization; Reconfigurable hardware; Visual BASIC; Arduino; ATmega328; Demand response; Effective demands; Electricity bill; Instantaneous power; Real time pricing; Voltage signals; Signal conditioning circuits",,,,,,,,,,,,,,,,"Holmberg, D., Demand response and standards BAC Net Today &the Smart Grid-A Supplement to Ashrae Journal; Conejo, A., Morales, J., Baringo, L., Real time demand response model (2010) IEEE Trans. on Smart Grid, 1 (3), pp. 236-242. , Oct; Liu, M., Quilumba, F., Weigen, L., A collaborative design of aggregated residential appliances and renewable energy for demand response participation (2015) IEEE Trans. on Industry Applications, 51 (5), pp. 3561-3569. , April; Alexander, B., Smart meters, real time pricing, and demand response programs: Implications for low income electric customers (2007) Oak Ridge Natl. Lab, , Tech. Rep., Feb; Borenstein, S., The long-run efficiency of real-time electricity pricing (2005) The Energy Journal, 26 (3), pp. 93-116; Arduino An Open-source Electronics Prototyping Platform, , https://www.arduino.cc; Blum, J., Exploring Arduino: Tools and Techniques for Engineering Wizardry, , John Wiley &Sons, Inc; http://meettechniek.info/diy-instruments/arduinowattmeter.html; Sawhney, A.K., Electrical and Electronic Instruments and Measurements, , Danpat Rai &Co",,,"BSES Yamuna Power Limited;Department of Science and Technology Govt. of India;DynaFusion;et al.;IEEE;Semikron","Institute of Electrical and Electronics Engineers Inc.","6th IEEE International Conference on Power Systems, ICPS 2016","4 March 2016 through 6 March 2016",,124202,,9781509001286,,,"English","IEEE Int. Conf. Power Syst., ICPS",Conference Paper,"Final","",Scopus,2-s2.0-84994121559
"Gawande P., Bedekar P., Bagewadi M., Dambhare S.","57189234642;57205019484;6507656162;6504756036;","An adaptive distance relay protection scheme for enhanced protection security",2016,"2016 IEEE 6th International Conference on Power Systems, ICPS 2016",,,"7584119","","",,10,"10.1109/ICPES.2016.7584119","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84994102219&doi=10.1109%2fICPES.2016.7584119&partnerID=40&md5=d48b0866583b3d33e3e84ae82ab74644","Department of Electrical Engineering, College of Engineering, Pune, 411005, India; Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India","Gawande, P., Department of Electrical Engineering, College of Engineering, Pune, 411005, India; Bedekar, P., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Bagewadi, M., Department of Electrical Engineering, College of Engineering, Pune, 411005, India; Dambhare, S., Department of Electrical Engineering, College of Engineering, Pune, 411005, India","The advantage of distance relay to provide remote backup protection is a matter of concern to power system security under system stressed conditions. The zone 3 of the distance relay is prone to mal-operate under well known system stresses such as power swing, load encroachment and voltage stress; causing undesired relay operation which may further lead to system collapse. This paper proposes an adaptive distance protection scheme based on the decomposition of the current and voltage signals into carrier signals and modulating signals using the amplitude demodulation technique. The magnitudes of the carrier signals are controlled adaptively by a magnitude monitoring function based on the information content in the modulating signal. During power system stressed conditions, the positive sequence impedance trajectory is restrained from entering the distance relay trip zones until a fault occurs on the system. The proposed algorithm is tested on a two area - 4 generator - 10 bus system modeled in ATP-EMTP environment and the simulation results show the reliability of the scheme. © 2016 IEEE.","Amplitude demodulation; Distance relay; Load encroachment; Power swing; Voltage stress; Zone 3","Amplitude modulation; Demodulation; Electric equipment protection; Electric relays; Electric surges; Optical variables measurement; Adaptive distance protection scheme; Adaptive distance relays; Amplitude demodulation; Distance relay; Monitoring functions; Power swings; Power system security; Voltage stress; Electric power system protection",,,,,,,,,,,,,,,,"Soman, S., (2015) A Web Course on Digital Protection, , NPTEL Accessed Jan; (2004) Blackout: NERC Actions to Prevent and Mitigate the Impacts of Future Cascading Blackouts, , http://www.nerc.com/comm/PC/SystemProtectionandControlSubcommitteeSPCSDL/NERCRecommendations2-10-04.pdf, August 14, 2003 Accessed October 2015; (2012) Report of the Enquiry Committee on Grid Disturbance in Northern Region on 30th July 2012 and in Northern, Eastern &Northeastern Region on 31st July, 2012, , http://www.powermin.nic.in/pdf/GRIDENQREP16812.pdf, Accessed October 2015; Andersson, G., Donalek, P., Farmer, R., Hatziargyriou, N., Kamwa, I., Kundur, P., Martins, N., Sanchez-Gasca, J., Causes of the 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance (2005) IEEE Transactions on Power Systems, 20 (4), pp. 1922-1928; Horowitz, S., Phadke, A., Third zone revisited (2006) IEEE Transactions on Power Delivery, 21 (1), pp. 23-29; Lotfifard, S., Faiz, J., Kezunovic, M., Detection of symmetrical faults by distance relays during power swings (2010) IEEE Transactions on Power Delivery, 25 (1), pp. 81-87; Pang, C., Kezunovic, M., Fast distance relay scheme for detecting symmetrical fault during power swing (2010) IEEE Transactions on Power Delivery, 25 (4), pp. 2205-2212; Gawande, P., Dambhare, S., Protection and fault identification in presence of power swing blocking/unblocking function (2013) Power and Energy Society General Meeting (PES), 2013 IEEE. IEEE, pp. 1-6; Rao, J.G., Pradhan, A.K., Differential power-based symmetrical fault detection during power swing (2012) IEEE Transactions on Power Delivery, 27 (3), pp. 1557-1564; Nayak, P.K., Pradhan, A.K., Bajpai, P., A fault detection technique for the series-compensated line during power swing (2013) IEEE Transactions on Power Delivery, 28 (2), pp. 714-722; Gawande, P., Dambhare, S., A novel algorithm to detect symmetrical faults during power swing for a double circuit multi-terminal transmission line (2016) 2016 IEEE/PES Transmission and Distribution Conference and Exposition (T and D). IEEE, pp. 1-7; Jin, M., Sidhu, T.S., Adaptive load encroachment prevention scheme for distance protection (2008) Electric Power Systems Research, 78 (10), pp. 1693-1700; Lim, S.-I., Liu, C.-C., Lee, S.-J., Choi, M.-S., Rim, S.-J., Blocking of zone 3 relays to prevent cascaded events (2008) IEEE Transactions on Power Systems, 23 (2), pp. 747-754; Kim, C.-H., Heo, J.-Y., Aggarwal, R.K., An enhanced zone 3 algorithm of a distance relay using transient components and state diagram (2005) IEEE Transactions on Power Delivery, 20 (1), pp. 39-46; Jonsson, M., Daalder, J.E., An adaptive scheme to prevent undesirable distance protection operation during voltage instability (2003) IEEE Transactions on Power Delivery, 18 (4), pp. 1174-1180; Kundu, P., Pradhan, A.K., Synchrophasor-assisted zone 3 operation (2014) IEEE Transactions on Power Delivery, 29 (2), pp. 660-667; Nayak, P.K., Pradhan, A.K., Bajpai, P., Secured zone 3 protection during stressed condition (2015) IEEE Transactions on Power Delivery, 30 (1), pp. 89-96; Padiyar, K., (2008) Power System Dynamics, , BS publications; Dambhare, S., Soman, S., Chandorkar, M., Adaptive current differential protection schemes for transmission-line protection (2009) IEEE Transactions on Power Delivery, 24 (4), pp. 1832-1841; EMTP reference models for transmission line relay testing (2015) IEEE Power System Relaying Committee WG D10 Report, 2004, , http://www.pespsrc.org/Reports/Apublicationsnewformat.htm, Accessed Jan; Ziegler, G., (2011) Numerical Distance Protection: Principles and Applications, , John Wiley &Sons",,,"BSES Yamuna Power Limited;Department of Science and Technology Govt. of India;DynaFusion;et al.;IEEE;Semikron","Institute of Electrical and Electronics Engineers Inc.","6th IEEE International Conference on Power Systems, ICPS 2016","4 March 2016 through 6 March 2016",,124202,,9781509001286,,,"English","IEEE Int. Conf. Power Syst., ICPS",Conference Paper,"Final","",Scopus,2-s2.0-84994102219
"Lahoti G., Shah U., Kadam P.","57191592255;57191594042;57191596798;","Robust control of boost converter for flexible operation in PV based systems",2016,"2016 International Conference on Energy Efficient Technologies for Sustainability, ICEETS 2016",,,"7583778","345","349",,5,"10.1109/ICEETS.2016.7583778","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84994155238&doi=10.1109%2fICEETS.2016.7583778&partnerID=40&md5=e2eb7a7c9f7015d7558cff4a1733fc8b","Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India; Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Lahoti, G., Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India; Shah, U., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kadam, P., Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India","Solar PV being one of the most promising renewable energy sources has a wide range of applications. Thus a system is proposed employing a DC-DC converter which can be further used either for standalone or grid connected applications by proper power conditioning as required. Maximum Power Point Tracking (MPPT) is employed for tracking the maximum available power. Along with it proposed system also facilitates Desired Power Tracking (DPT) from the PV source according to prevailing load/irradiance conditions adding the extra power control functionality. It also obviates the use of difficult to manage dump loads reducing system complexity and control thus enhancing efficiency when used in the off grid mode. The power quality of systems in which the PV power penetration is higher is also improved during the conditions of rapidly changing irradiance. Detailed modeling of PV-fed converter is presented which provides robust control for both the MPPT and desired power tracking algorithm. The analytically developed controller is evaluated for dynamic and steady state characteristics in MATLAB/Simulink platform. © 2016 IEEE.","Boost converter; Desired power tracking; k-factor approach; Maximum power point tracking","Electric inverters; Energy efficiency; Maximum power point trackers; Power control; Renewable energy resources; Robust control; Sustainable development; BOOST converter; K factor; Maximum available power; Maximum Power Point Tracking; Power conditioning; Power tracking; Renewable energy source; Steady state characteristics; DC-DC converters",,,,,,,,,,,,,,,,"Blaabjerg, F., Iov, F., Teodorescu, R., Chen, Z., (2006) Power Electronics in Renewable Energy Systems Power Electronics and Motion Control Conference, , Date Aug. 30 2006-Sept. 1 2006; Esram, T., Chapman, P., Comparison of photovoltaic array maximum power point tracking techniques (2007) IEEE Transactions on Energy Conversion, 22 (2), pp. 439-449. , June; Kjaer, S., Evaluation of the Hill Climbing and the Incremental Conductance Maximum Power Point Trackers for Photovoltaic Power Systems (2012) IEEE Transactions on Energy Conversion, 27 (4), pp. 922-929. , Dec; Al-Atrash, H., Batarseh, I., Rustom, K., Effect of measurement noise and bias on hill-climbing MPPT algorithms (2010) IEEE Transactions on Aerospace and Electronic Systems, 46 (2), pp. 745-760. , April; Zahawi, B., Atkinson, D.J., Assessment of the Incremental Conductance Maximum Power Point Tracking Algorithm (2013) IEEE Transaction on Sustainable Energy, 4 (1). , Elgendy M.A.; Sch. of Electr. & Electron. Eng., Newcastle Univ., Newcastle upon Tyne, UK Jan; Erickson, R., Maksimovic, D., (2004) Fundamentals of Power Electronics, , 2nd ed., Kluwer Academic Publishers; Wandhare, R.G., Agarwal, V., A photovoltaic power control algorithm covering complete range (2013) Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th, pp. 2965-2970. , 16-21 June; Gazoli, J.R., Filho, E.R., Comprehensive Approach to Modeling and Simulation of Photovoltaic Arrays (2009) IEEE Transactions On, Power Electronics, 24 (5). , Villalva M. G; Sch. of Electr. & Comput. Eng., Univ. of Campinas, Campinas, May",,,"","Institute of Electrical and Electronics Engineers Inc.","2016 International Conference on Energy Efficient Technologies for Sustainability, ICEETS 2016","7 April 2016 through 8 April 2016",,124164,,9781509015344,,,"English","Int. Conf. Energy Effic. Technol. Sustain., ICEETS",Conference Paper,"Final","",Scopus,2-s2.0-84994155238
"Tiwari A.K., Bhattacharya A.","7101772352;57190424634;","Optimisation of ultrafine additives for durable high strength concrete",2016,"Indian Concrete Journal","90","10",,"44","51",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84991737456&partnerID=40&md5=fe58f9fc36a08a151e08db13d24e4a6e","UltraTech Cement Limited, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India","Tiwari, A.K., UltraTech Cement Limited, Mumbai, India; Bhattacharya, A., Sardar Patel College of Engineering, Mumbai, India","High Strength Concrete (HSC) has been in vogue in construction and concrete industry across the world for various applications before the concept of High Performance Concrete (HPC) took over. The performance criterion for HPC has been achieved mainly with the addition of mineral admixtures/additives and use of chemical admixtures. Various ultrafine mineral additives like silica fume, ultrafine fly ash, metakaolin, ultrafine Slag etc. are being used to achieve performance parameters of HPC. Recent studies on different ultrafine materials indicated poor performance of ultrafine slag to chloride ion penetration in high strength cement mortar mix. This study is an extension of the above work to determine threshold limits for ultrafine additives to meet durability parameters and reports the effect of some unconventional ultrafine additives like ultrafine slag and ultrafine fly ash as additive in high strength concrete, on the durability properties of concrete. At lower dosages, ultrafine fly ash and slag do not contribute to durability, as confirmed by RCPT and RCMT, though they affect the mechanical properties. However at higher dosages of 20% and above ultrafine slag and fly ash indicate similar durability results as compared to silica fume at 7.5% dosage.","Fly ash; High performance concrete; High strength concrete; Rapid chloride migration test; Rapid chloride permeability test; Ultrafine slag; Water permeability","Additives; Chlorine compounds; Concrete additives; Concrete industry; Concretes; Durability; Fly ash; Silica; Silica fume; Slags; Chloride migration tests; High strength concretes; Rapid Chloride Permeability Test (RCPT); Ultrafine; Water permeability; High performance concrete",,,,,,,,,,,,,,,,"Obla, K.H., Hill, R.L., Thomas, M.D.A., Shashiprakash, S.G., Perebatova, O., Properties of concrete containing ultra-fine flyash (2003) ACI Material Journal September/October; (2003) Norwegian Proposal (Tolpannen & Syrjanen; Wong, H.H.C., Kwan, A.K.H., Department of Civil Engineering, , The University of Hong Kong, Hong Kong, Packing Density: A Key Concept for Mix Design of High Performance Concrete; Bhattacharya, A., Tiwari, A.K., Acharya, B., Effect of ultrafine additives on chloride resistance of cement concrete (2015) UKIERI Concrete Congress, Dr B R Amdekar National Institute of Technology Jalandhar, , Punjab, 2nd - 5th November; Pathik, A., Vyasa Rao, A.N., Dordi, C., Microtechnology for high performance concrete (2011) Indian Concrete Journal, 85 (10). , October; ASTM-C1202, Standard Test Method for Electrical Indication of Concrete's Ability to Resist Chloride Ion Penetration; NTBUILD-492, NORDTEST METHOD: Concrete, Mortar and Cement-based Repair Materials: Chloride Migration Coefficient from Non-steady-state Migration Experiments",,,,"Associated Cement Companies Ltd.",,,,,00194565,,ICJOA,,"English","Indian Concr J",Conference Paper,"Final","",Scopus,2-s2.0-84991737456
"Shah U., Kadam P., Lahoti G.","57191594042;57191596798;57191592255;","Control of standalone solar PV system in varying operating conditions for DC loads",2016,"Proceedings of 2nd IEEE International Conference on Engineering and Technology, ICETECH 2016",,,"7569437","1181","1186",,5,"10.1109/ICETECH.2016.7569437","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84991818165&doi=10.1109%2fICETECH.2016.7569437&partnerID=40&md5=441a9c0fe49addb5415f5b8058b24d52","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India","Shah, U., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Kadam, P., Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India; Lahoti, G., Department of Electrical Engineering, Veermata Jijabai Technological Institute, Mumbai, India","With exhausting fossil fuels and concerns relating environment degradation the use of renewable sources has become statutory. Solar PV being easily and freely available is propitious for various applications. Thus a standalone PV system with novel control is proposed for dc applications. It consists of DC-DC converters in forward power stage, one for boosting PV voltage and bidirectional interface for the battery. The system control is such that it allows the Desired Power Control (DPC) of PV power whenever needed along with MPPT according to the existing irradiance and load requirements. This also offer advantage of elimination of dump loads reducing system control and complexity. More over the DPC also maintains Battery State Of Charge (SOC) and prevents the battery overcharge or deep discharge increasing battery life and efficiency. The control of converters is done analytically. The performance of the controllers and system algorithms with changing conditions is evaluated and the results are presented using MATLAB/Simulink. © 2016 IEEE.","Battery Energy Storage System (BESS); Bidirectional Converter; Boost Converter; Desired Power Control (DPC); Maximum Power Point Tracking (MPPT); State Of Charge (SOC)","Charging (batteries); DC-DC converters; Electric batteries; Electric inverters; Fossil fuels; Maximum power point trackers; Power control; Secondary batteries; Battery energy storage systems; Bidirectional converter (BDC); BOOST converter; Desired Power Control (DPC); Maximum Power Point Tracking; State of charge; Battery management systems",,,,,,,,,,,,,,,,"Blaabjerg, F., Iov, F., Teodorescu, R., Chen, Z., (2006) Power Electronics in Renewable Energy Systems Power Electronics and Motion Control Conference, , 2006, Date Aug. 30 2006-Sept. 1; Fuente, D., Rodrguez, C.L.T., Garcer, G., Figueres, E., Gonzalez, R.O., Photovoltaic power system with battery backupwith grid-connection and islanded operation capabilities (2013) IEEE Transactions on Industrial Electronics, 60 (4), pp. 1571-1581. , April; Lpez, R.D., Rojas, J.M.L., Agustn, J.L.B., Comparison of different leadacid battery lifetime prediction models for use in simulation of standalone photovoltaic systems (2004) Applied Energy, 115, pp. 242-253; Nehrir, M.H., LaMeres, B.J., Venkataramanan, G., Gerez, V., Alvarado, L.A., An approach to evaluate the general performance of standalone wind/photovoltaic generating systems (2000) IEEE Transactions on Energy Conversion, 15 (4), pp. 433-439. , Dec; Elgendy, M.A., Sch. of Electr. & Electron. Eng., , Newcastle Univ., Newcastle upon Tyne, UK; Zahawi, B., Atkinson, D.J., (2013) Assessment of the incremental conductance maximum power point tracking algorithm, 4 (1). , IEEE Transaction on Sustainable Energy Jan; Velasco De La Fuente, D., Rodriguez, C.L.T., Garcera, G., Figueres, E., Photovoltaic power system with battery backup with grid-connection and islanded operation capabilities (2013) IEEE Transactions on Industrial Electronics, 60 (4), p. 2012. , April; Das, M., Agarwal, V., Novel high-performance stand-alone solar PV system with high-gain high-efficiency DCDC converter power stages (2015) In Industry Applications IEEE Transactions on, 51 (6), pp. 4718-4728. , Nov.-Dec; Villalva, M.G., Sch. of Electr. & Comput. Eng., , Univ. of Campinas, Campinas; Gazoli, J.R., Filho, E.R., Comprehensive approach to modeling and simulation of photovoltaic arrays (2009) IEEE Transactions On, Power Electronics, 24 (5). , May; Dean, V.H., Venable, I., Braker, L.W., (2012), pp. 1-10. , Suite M Reference Reading # 4 THE K FACTOR : A NEW MATHEMATICAL TOOL FOR STABILITY ANALYSIS AND SYNTHESIS; Xuhui, Z., Wen, X., Feng, Z., Xinhua, G., A new control strategy for bi-directional DC-DC converter in electric vehicle (2011) In ElectricalMachines and Systems (ICEMS) 2011 International Conference on, pp. 1-4. , 20-23 Aug",,,"Ramani Group of Companies;Volkswagen","Institute of Electrical and Electronics Engineers Inc.","2nd IEEE International Conference on Engineering and Technology, ICETECH 2016","17 March 2016 through 18 March 2016",,123892,,9781467399166,,,"English","Proc. IEEE Int. Conf. Eng. Technol., ICETECH",Conference Paper,"Final","",Scopus,2-s2.0-84991818165
"Rane S.B., Kirkire M.S.","56149402100;57190767311;","Analysis of barriers to medical device development in India: an interpretive structural modelling approach",2016,"International Journal of System Assurance Engineering and Management","7","3",,"356","369",,22,"10.1007/s13198-016-0497-0","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84983050253&doi=10.1007%2fs13198-016-0497-0&partnerID=40&md5=377b7b9a86ab0c4bfd8e2e6fad03614a","Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India; Department of Mechanical Engineering, Finolex Academy of Management and Technology (University of Mumbai), Ratnagiri, Maharashtra  415639, India","Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India; Kirkire, M.S., Department of Mechanical Engineering, Sardar Patel College of Engineering (University of Mumbai), Bhavan’s Campus, Andheri (W), Mumbai, Maharashtra  400058, India, Department of Mechanical Engineering, Finolex Academy of Management and Technology (University of Mumbai), Ratnagiri, Maharashtra  415639, India","Efficacious product development is a critical issue faced by medical device manufacturing industries. Indian medical device industry is in nascent stage constituting of 75 % imports indicating diminutive device development activities unlike other sectors of manufacturing which are vigorously making forays through indigenous product development. The objective of this paper is to identify barriers to medical device development (MDD) and develop a structural model of it. 11 most significant barriers are identified using opinions of MDD experts and the literature review. They are further ranked by 33 experts through questionnaire survey. The mutual relationships among the barriers are established based on opinions of one group of experts using interpretive structural modelling (ISM) approach. The barriers are quantified using reachability matrix and further categorised as: autonomous, dependent, linkage and driver barriers using MICMAC analysis based on the mutual influence and dependence. The model is further validated by another group of MDD experts. Combination of ISM and MICMAC analysis gives a high level contextual relationship among the barriers identified. The barriers have compounding effect. Dependent barriers have higher dependence and present resulting actions. The driver barriers have high driving power and low dependence indicating need for systematic plan of action. Identification of barriers to MDD and developing the contextual relationships among them is a unique effort. It will provide an aid to the top management, developers and policy makers to develop strategies for MDD. Moreover, it will assist to accelerate indigenous contribution towards MDD which will ultimately deepen the penetration of low cost and better quality medical care for larger part of the population. This paper develops a model of barriers to MDD in India; which can be customised for other sectors and contexts. © 2016, The Society for Reliability Engineering, Quality and Operations Management (SREQOM), India and The Division of Operation and Maintenance, Lulea University of Technology, Sweden.","Barriers; Indian manufacturing industries; Interpretive structural modelling (ISM); Medical device development","Manufacture; Product development; Surveys; Barriers; Contextual relationships; Interpretive structural modelling (ISM); Manufacturing industries; Medical device development; Medical device industry; Medical device manufacturing; Questionnaire surveys; Structural analysis",,,,,"All India Council for Technical Education, अभातशिप: 20/AICTE/RIFD/RPS (POLICY-1) 61/2013–14","This work was supported by All India Council for Technical Education (AICTE) under grant Ref No. 20/AICTE/RIFD/RPS (POLICY-1) 61/2013–14. The authors are grateful to the concerned authorities and the MDD experts who contributed to this study. Authors are sincerely thankful to the reviewers for their valuable suggestions which helped to improve quality of this paper.",,,,,,,,,,"Aguwa, C.C., Monplaisir, L., Achuthamenon, P., Muni, S.R.K., Integrated fuzzy-based modular architecture for medical device design and development (2010) J Med Dev, 4, p. 031007; Aguwa, C.C., Monplaisire, L., Sylajakumari, P.A., Rules modification on a fuzzy based modular architecture for medical device design and development (2012) IIE Trans Healthcare Syst Eng, 2 (1), pp. 50-61; Alawamleh, M., Popplewell, K., Interpretive structural modelling of risk sources in a virtual organisation (2011) Int J Prod Res, 49 (20), pp. 6041-6063; Attri, R., Grover, S., Modelling the quality enabled factors of facility layout design stage of production system life cycle (2015) Int J Syst Assur Eng Manag; Attri, R., Grover, S., Dev, N., Kumar, D., An ISM approach for modelling the enablers in the implementation of total productive maintenance (TPM) (2013) Int J Syst Assur Eng Manag, 4 (4), pp. 313-326; Attri, R., Grover, S., Dev, N., Kumar, D., Analysis of barriers of total productive maintenance (TPM) (2013) Int J Syst Assur Eng Manag, 4 (4), pp. 365-377; Attri, R., Grover, S., Dev, N., A graph theoretic approach to evaluate the intensity of barriers in the implementation of total productive maintenance (TPM) (2014) Int J Prod Res, 52 (10), pp. 3032-3051; Borade, A., Bansod, S., Interpretive structural modelling—based framework for VMI adoption in Indian industries (2012) Int J Adv Manuf Technol, 58 (9-12), pp. 1227-1242; Chang, A.Y., Hu, K.J., Hong, Y.L., An ISM-ANP approach to identifying key agile factors in launching a new product into mass production (2013) Int J Prod Res, 51 (2), pp. 582-597; Chilukuri, S., Gordon, M., Musso, C., Ramaswamy, S., (2010) Design to value in medical devices, , Mckinsey and Company, NewYork; CII (Confederation of Indian Industry)—Deloitte (2010) Medical technology industry in India: riding the growth curve; Ciurana, J., Designing, prototyping and manufacturing medical devices: an overview (2014) Int J Comput Integr Manuf, 27 (10), pp. 901-918; Datta, P., Mukhopadhyay, L., Selvaraj, S., Medical devices manufacturing industry in India: market structure, import intensity and regulatory mechanisms. Institute for Studies in Industrial Development (ISID)—Public Health Foundation of India (PHFI) Collaborative Research Programme (2013) Working Paper Series, p. 02; Davey, S.M., Brennan, M., Meenan, B.J., McAdam, R., Innovation in the medical device sector: an open business model approach for high-tech small firms (2011) Technol Anal Strateg Manag, 23 (8), pp. 807-824; Diabat, A., Govindan, K., Panicker, V.V., Supply chain risk management and its mitigation in a food industry (2012) Int J Prod Res, 50 (11), pp. 3039-3050; Digalwar, A.K., Giridhar, G., Interpretive structural modeling approach for development of electric vehicle market in India (2015) Proc CIRP, 26, pp. 40-45; Eatock, J., Dixon, D., Young, T., An exploratory survey of current practice in the medical device industry (2009) J Manuf Tech Manag, 20 (2), pp. 218-234; Faisal, M.N., Banwet, D.K., Shankar, R., Supply chain risk mitigation: modelling the enablers (2006) Bus Process Manag J, 12 (4), pp. 535-552; Faisal, M.N., Banwet, D.K., Shankar, R., Information risks management in supply chains: an assessment andmitigation framework (2007) J Enterp Inf Manag, 20 (6), pp. 677-699; FDA (United States Food and Drugs Association) (2011) Understanding barriers to medical device quality; Fennelly, D., Cormican, K., Value chain migration from production to product centered operations: an analysis of the Irish medical device industry (2006) Technovation, 26 (1), pp. 86-94; FICCI (Federation on Indian chamber of commerce and industries): Medical device and equipments sector profile document. TOI: The Times of India (Indian daily), , http://www.ficci.com/sector/76/Project_docs/Medical_Devices_and_Equipment_Sector_profile.pdfAbbrevation; Gothwal, S., Raj, T., (2015) Analyzing the factors affecting the flexibility in FMS using weighted interpretive structural modeling (WISM) approach, , Int J Syst Assur Eng Manag; IICII (Indo_ Italian chamber of commerce and industries) Short market overviews (2008) The healthcare industry in India; Jadhav, J.R., Mantha, S.S., Rane, S.B., Development of framework for sustainable Lean implementation: an ISM approach (2014) J Ind Eng Int, 10, p. 72; Jain, V., Raj, T., Modeling and analysis of FMS flexibility factors by TISM and fuzzy MICMAC (2015) Int J Syst Assur Eng Manag, 6 (3), pp. 350-371; Jarosławski, S., Saberwal, G., Case studies of innovative medical device companies from India: barriers and enablers to development (2013) BMC Health Serv Res, 13 (199), pp. 1-8; Kamal, R., (2013) Kurihara C, , http://lifesciences.ieee.org/publications/newsletter/january-2013/258-barriers-to-commercialization-of-novel-medical-technologies-in-india, Mairal A: Barriers to commercialization of novel medical technologies in India. IEEE LifeSci Newslett; Kannan, G., Haq, N.A., Analysis of interactions of criteria and sub-criteria for the selection of supplier in the built-in-order supply chain environment (2007) Int J Prod Res, 45 (17), pp. 3831-3852; Krishnan KV (2011) Bright prospects for medical devices industry, , http://www.pharmabiz.com/PrintArticle.aspx?aid=63097&sid=9; Kumar, S., Sharma, R.K., An ISM based framework for structural relationship among various manufacturing flexibility dimensions (2015) Int J Syst Assur Eng Manag, 6 (4), pp. 511-521; Kumar, P., Singh, R.K., Kumar, R., An integrated framework of interpretive structural modeling and graph theory matrix approach to fix the agility index of an automobile manufacturing organization (2015) Int J Syst Assur Eng Manag; Kuo, T.C., Ma, H.Y., Huang, S.H., Hu, A.H., Huang, C.S., Barrier analysis for product service system using interpretive structural model (2010) Int J Adv Manuf Technol, 49, pp. 407-417; Linehan, J.H., Chaney, A., Academic/industry challenges for medical device development (2010) Sci Transl Med, 2 (63), p. 63mr6; Lucke, L.E., Mickelson, A., Anderson, D., Proving experience speeds medical device time to market. 31st annual international conference of the IEEE EMBS, Minneapolis, Minnesota, USA (2009) September, pp. 2-6; Malhotra, M.K., Grover, V., An assessment of survey research in POM: from constructs to theory (1998) J Oper Manag, 16 (4), pp. 407-425; Malkin, R.A., Barriers for medical devices for the developing world (2007) Expert Rev Med Dev, 4 (6), pp. 759-763; Mandal, A., Deshmukh, S.G., Vendor selection using interpretive structural modeling (ISM) (1994) Int J Oper Prod Manag, 14 (6), pp. 52-59; Martin, J.L., Clark, D.J., Morgan, S.P., Crowe, J.A., Murphy, E., A user centred approach to requirements elicitation in medical device development: a case study from an industry perspective (2012) Appl Ergon, 43 (1), pp. 184-190; Mathiyazhagan, K., Govindan, K., NoorulHaq, A., Geng, Y., An ISM approach for the barrier analysis in implementing green supply chain management (2013) J Clean Prod, 47, pp. 283-297; MDI2 (Medical Devices Innovation Institute) in consultation with national stakeholders (2011) medical devices challenges and opportunities for enhancing the health and wealth of Canadians., , http://www.medec.org/webfm_send/1419; Mol, B.A.D., Regulation of risk management of medical devices and the role of litigation (2014) J Risk Res, 17 (6), pp. 735-748; Numata, S., Oguchi, S., Yamamoto, Y., Imura, H., Kawakami, K., Medical device development in crisis: a movement for technology innovation in health and medicine in Japan (2010) Innov Manag Policy Pract, 12 (3), pp. 330-336; Panahifar, F., Byrne, P.J., Heavey, C., ISM analysis of CPRF implementation barriers (2014) Int J Prod Res, 52 (18), pp. 5255-5272; Rabas, P.L., Djanatliev, K.A., Wahlster, P., Technology foresight for medical device development through hybrid simulation: the Pro HTA project (2015) Technol Forecast Soc Chang, 97, pp. 105-114; Rao, G.S.U., Made in India: How’s that for an indigenous medical device? (2013) Indian J Neurosurg, 2 (2), pp. 151-153; Ravi, V., Shankar, R., Analysis of interactions among the barriers of reverse logistics (2005) Technol Forecast Soc Change, 72 (8), pp. 1011-1029; Rochford, L., Rudelius, W., New product development process: stages and successes in the medical products industry (1997) Ind Market Manag, 26, pp. 67-84; Sindhwani, R., Malhotra, V., Modelling and analysis of agile manufacturing system by ISM and MICMAC analysis (2016) Int J Syst Assur Eng Manag; Singh, S., Kumar, R., Kumar, U., Modelling factors affecting human operator failure probability in railway maintenance tasks: an ISM-based analysis (2015) Int J Syst Assur Eng Manag, 6 (2), pp. 129-138; Speer, J.D., Report: medical device barriers to entry for start-Ups, entrepreneurs (2007) and suppliers, , http://www.creoquality.com/wp-content/uploads/2007/08/medical-device-barriers-to-entry-report-070820.pdf, Creo Quality: LLC; Talib, F., Rahman, Z., Qureshi, M.N., Analysis of interaction among the barriers to total quality management implementation using interpretive structural modelling approach (2011) Benchmark Int J, 18 (4), pp. 563-587; Walters, A., Thomas, N., Brown, R., Barriers to effective product development within SMEs in the medical manufacturing sector. Manufacturing information systems. In: Proceedings of the fourth SMESME international conference, Alborg University, Denmark, 14th–16th May, ISBN 87-89867-81 (2001) 113–119; Warfield, J.W., Developing interconnected matrices in structural modelling (1974) IEEE Trans Syst Manag Cyber, 4 (1), pp. 51-81","Kirkire, M.S.; Department of Mechanical Engineering, India; email: milind.kirkire@gmail.com",,,"Springer",,,,,09756809,,,,"English","Intl. J. Syst. Assur. Eng. Manage.",Article,"Final","",Scopus,2-s2.0-84983050253
"Shaler H., Wajpe A.","57191746846;57191746982;","Spark gap synchronization using subnanosecond pulsur based on avalanche transistor",2016,"2016 International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2016",,,"7557276","455","458",,,"10.1109/ICCPEIC.2016.7557276","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84992677653&doi=10.1109%2fICCPEIC.2016.7557276&partnerID=40&md5=4c884a09f854384f0b162b67763d7d36","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Shaler, H., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Wajpe, A., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Design and implementation of a 20kV subnanosecond pulse generator using Avalanche transistor as a switch. The circuit with avalanche transistor as a switch and connected in a form of string could generate a very short pulse with high peak voltage. The avalanche effect of the transistor is responsible for the ultra-fast falling edge of the output pulse. The pulse hence generated can be used for synchronization of two or more spark gap. Because of the fast rise time and the high output voltage the reliability of the synchronization is increased. The Experimental output waveforms are shown. © 2016 IEEE.","Avalanche Transistor; Spark gap synchronization; Subnanosecond Pulse; ultra-fast pulse","Synchronization; Avalanche effects; Avalanche transistors; Design and implementations; High output voltage; Output waveform; Spark-gaps; Sub-nanosecond pulse; Ultra-fast; Transistors",,,,,,,,,,,,,,,,"Persico, R., Soldovieri, F., A microwave tomography approach for a differential configuration in GPR prospecting [J] (2000) IEEE Transactions on Antennas and Propagation, 11, p. 35413548. , July; Wang, Q., Tian, X., Liu, Y., Li, B., Gao, B., Design of An Ultra-wideband Pulse Generator Based on Avalanche Transistor, , College of Electronic Science and Engineering of Jilin University Changchun, Jilin, Chin; Stephen Fulkerson, E., Booth, R., Design of Reliable High Voltage Avalanche Transistor Pulsers' Lawrence Livermore National Laboratory, , P.D. Box 808, MIS L-54, Livermore, CA 9455i; Guo, Y.-L., Yan, N.-N., Guo, S.-H., Zeng, G., 500 ps/1 KV Pulse Generator Based on Avalanche Transistor Marx Circuit, , institute of Physical Electronics of University of Electronic Science and Technology of China; Taihua Wang, I.A., Zhang, Y., Design and Simulation of the Avalanche Transistor Pulse Generator, , School of Electrical Engineering and Automation, Jiaozuo 454000, China; Kumar, R., Mitra, S., Dwivedi, R., Patel, A., Ranjeet, T.K., Sharma, A., Development of Synchronization System of Two Spark Gaps",,,"","Institute of Electrical and Electronics Engineers Inc.","5th International Conference on Computation of Power, Energy Information and Communication, ICCPEIC 2016","20 April 2016 through 21 April 2016",,123533,,9781509009015,,,"English","Int. Conf. Comput. Power, Energy Inf. Commun, ICCPEIC",Conference Paper,"Final","",Scopus,2-s2.0-84992677653
"Ghatak S., Kulkarni R.D., Bhitre N.","57191724495;7201509749;53983666600;","Comparative Analysis of Parallel Operation of Two Three Phase Systems with and without Interphase Transformer",2016,"2016 International Conference on Computation of Power, Energy, Information and Communication, ICCPEIC 2016",,,"7557314","713","718",,3,"10.1109/ICCPEIC.2016.7557314","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84992669649&doi=10.1109%2fICCPEIC.2016.7557314&partnerID=40&md5=067673a06ebe33cfcf57d514224a0e30","Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Reactor Engineering Division, BARC, Mumbai, India","Ghatak, S., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Kulkarni, R.D., Reactor Engineering Division, BARC, Mumbai, India; Bhitre, N., Electrical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","In this paper, we have discussed about the changes in the system parameters due to the presence of the Interphase transformer (IPT). Two or more rectifier systems with displaced ripple voltages can be paralled with the help of IPT. The parallel operation of two three-pulse controlled converters with IPT is simulated and the difference of with and without the IPT is analyzed. An IPT absorbs voltage difference between DC voltages of the two converters at any instant. The independent operation of the two systems is obtained without any circulating current with the help of IPT. Six-pulse output voltage is obtained by parallel operation of two three phase half bridge controlled converters, similarly twelve pulse output is obtained by connecting two three phase full bridge controlled converters. This results in reduced total harmonic distortions with the use of IPT. This has been verified using MATLAB2014 (a). © 2016 IEEE.","Converter Parallelization; Interphase transformer (IPT); Six Pulse Converter; Twelve Pulse Converter","Energy management; Energy resources; Circulating current; Comparative analysis; Interphase transformer; nocv1; Parallel operations; Parallelizations; Six-pulse converters; Total harmonic distortion (THD); Twelve-pulse converter; Power converters",,,,,,,,,,,,,,,,"Schaeffer, J., (1965) Rectifier Circuits: Theory and Design, , New York: Wiley-Interscience; Singh, B., Gairola, S., Singh, B.N., Chandra, A., Al-Haddad, K., Multipulse AC-DC converters for improving power quality: A review (2008) IEEE Trans. Power Electron., 23 (1), pp. 260-281. , Jan; Paice, D.A., Power electronic converter harmonics: Multipulse methods (1996) For Clean Power, , New York: IEEE Press; Le Roux, A.D., Mouton, H., Akagi, H., DFT-based repetitive controlof a series active filter integrated with a 12-pulse diode rectifier (2009) IEEE Trans. Power Electron., 24 (6), pp. 1515-1521. , Jun; Miyairi, S., Lida, S., Nakata, K., Masukawa, S., New method for reducing harmonics involved in input and output of rectifier with inter-phase transformer (1986) IEEE Trans. Ind. Appl., IA-22 (5), pp. 790-797. , Sep./Oct; Choi, S., Enjeti, P., Lee, B., New 24-pulse diode rectifier systems for utility interface of high-power AC motor drives (1997) IEEE Trans. Ind. Appl., 33 (2), pp. 531-541. , Mar./Apr; Fangang, M., Shiyan, Y., Wei, Y., Modeling for a multitap interphase reactor in a multipulse diode bridge rectifier (2009) IEEE Trans. Power Electron., 24 (9), pp. 2171-2177. , Sep; Acosta, O.N., Interphase transformer for multiple connected power rectifiers (1965) IEEE Trans. Ind. General Applicat, IGA-L, pp. 423-428; Bennell, F.T., Current equalising transformer for current balance in parallel-connected 12-pulse converter (1988) Proc. Inst. Elec. Eng., 135 (2), pp. 85-90; Hall, J.K., Kettleborough, J.G., Razak, A.B.M.J., Parallel operation of bridge rectifiers without an interbridge reactor (1990) Proc. Inst. Elec. Eng., 137 (2), pp. 125-140; Kulkarni, S.V., Khaparde, S.A., (2004) Transformer Engineering: DesignandPractice, , New York: Marcel Dekker; Perreault, D.J., Kassakian, J.G., Effects of ring angle imbalance on 12 pulse rectiers with interphase transformer (1995) IEEE Trans. Magn., 10 (3), pp. 257-262. , May",,,"","Institute of Electrical and Electronics Engineers Inc.","5th International Conference on Computation of Power, Energy Information and Communication, ICCPEIC 2016","20 April 2016 through 21 April 2016",,123533,,9781509009015,,,"English","Int. Conf. Comput. Power, Energy Inf. Commun, ICCPEIC",Conference Paper,"Final","",Scopus,2-s2.0-84992669649
"Shelke N.L., Gadve S.","55632879700;23977989900;","Prediction of compressive strength of concrete based on accelerated strength",2016,"Structural Engineering and Mechanics","58","6",,"989","999",,3,"10.12989/sem.2016.58.6.989","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84975297334&doi=10.12989%2fsem.2016.58.6.989&partnerID=40&md5=fc474afa7fbd4262fe2e6c66b4313bbd","Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Department of Applied Mechanics, Visvesvaraya National Institute of Technology (VNIT), Nagpur, 440010, India","Shelke, N.L., Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, 400058, India; Gadve, S., Department of Applied Mechanics, Visvesvaraya National Institute of Technology (VNIT), Nagpur, 440010, India","Moist curing of concrete is a time consuming procedure. It takes minimum 28 days of curing to obtain the characteristic strength of concrete. However, under certain situations such as shortage of time, weather conditions, on the spot changes in project and speedy construction, waiting for entire curing period becomes unaffordable. This situation demands early strength of concrete which can be met using accelerated curing methods. It becomes necessary to obtain early strength of concrete rather than waiting for entire period of curing which proves to be uneconomical. In India, accelerated curing methods are used to arrive upon the actual strength by resorting to the equations suggested by Bureau of Indian Standards' (BIS). However, it has been observed that the results obtained using above equations are exaggerated. In the present experimental investigations, the results of the accelerated compressive strength of the concrete are used to develop the regression models for predicting the short term and long term compressive strength of concrete. The proposed regression models show better agreement with the actual compressive strength than the existing model suggested by BIS specification. Copyright © 2016 Techno-Press, Ltd.","Accelerated compressive strength; Accelerated curing; Compressive strength; Concrete; Normal curing; Ordinary portland cement","Compressive strength; Curing; Portland cement; Regression analysis; Compressive strength of concrete; Early strength; Experimental investigations; Indian standards; Ordinary Portland cement; Regression model; Strength of concrete; Time-consuming procedure; Concretes",,,,,,,,,,,,,,,,"Use of Accelerated Strength Testing (1987) ACI Manual of Concrete Practice, , ACI 214.1R American Concrete Institute; Almukhtar, M.I.A., (2001) How Can You Estimate 28 Day Compressive Strength for Concrete in 28 Hours, , Ege University, Izmir; Altan, E., Erdogan, S.T., Alkali activation of a slag at ambient and elevated temperatures (2012) Cement Concrete Compos., 34 (2), pp. 131-139; (1995) Standard Method of Making, Accelerated Curing and Testing of Concrete Compression Test Specimens, , ASTM C- 684 American Society for Testing of Materials; Bakharev, T., Sanjayan, G., Cheng, Y.B., Effect of elevated temperature curing on properties of alkali-activated slag concrete (1999) Cement Concrete Res., 29, pp. 1619-1625; (1983) Methods of Accelerated Curing of Test Cubes, , BS: 1881- Part 112 British Standards, UK; Gerend, M.S., Steam cured cylinders give 28-day concrete strength in 48 hours (1927) Eng. New. Rec., 98, p. 282; Ho, D.W.S., Chua, C.W., Tam, C.T., Steam-cured concrete incorporating mineral admixtures (2003) Cement Concrete Res., 33, pp. 595-601; (2004) Methods of Making, Curing and Determining Compressive Strength of Accelerated-Cured Concrete Test Specimens, , IS: 9013 Bureau of Indian Standards, New Delhi; Kaszynska, M., Early age properties of high-strength/high-performance concrete (2002) Cement Concrete Compos., 24, pp. 253-261; Kheder, G.F., Al Gabban, A.M., Abid, S.M., Mathematical model for the prediction of cement compressive strength at the ages of 7 and 28 days within 24 hours (2003) Mater. Struct., 36, pp. 693-701; Malhotra, V.M., (1973) Accelerated Strength Testing of Concrete Specimens, , Medical and Technological Publishing Co. Ltd., London; Maltaisand, Y., Marchand, J., Influence of curing temperature on cement hydration and mechanical strength development of fly ash mortars (1997) Cement Concrete Res., 27 (7), pp. 1009-1020; Neville, A.M., (1973) Properties of Concrete, , Halstead Press, New York; Ozkul, M.H., Efficiency of accelerated curing in concrete (2001) Cement Concrete Res., 31, pp. 1351-1357; Paya, J., Monzo, J., Borrachero, M.V., Peris-Mora, E., Amahjour, F., Mechanical treatment of fly ashes Part IV. Strength development of ground fly ash-cement mortars cured at different temperatures (1999) Cement Concrete Res., 30, pp. 543-551; Pheeraphana, T., Cayliani, L., Dumangas, M.I., Jr., Nimityongskul, P., Prediction of later-age compressive strength of normal concrete based on the accelerated strength of concrete cured with microwave energy (2002) Cement Concrete Res., 32, pp. 521-527; Ramakrishnan, V., Accelerated strength testing-Annotated bibliography (1978) Am. Concrete Inst. J., 56, p. 285; Rao, M.V.K., Kumar, P.R., Khan, A.M., A study on the influence of curing on the strength of a standard grade concrete mix (2010) Facta Univ. Series: Arch. Civil Eng., 8 (1), pp. 23-34; Resheidat, M.R., Ghanmat, M.S., Accelerated strength and testing of concrete using blended cement (1996) Advncem Bas Mat, 5, pp. 49-56; Sajedi, F., Razak, H.A., Effects of curing regimes and cement fineness on the compressive strength of ordinary Portland cement mortars (2011) Const. Build. Mater., 25, pp. 2036-2045; Siddique, R., Kaur, D., Properties of concrete containing ground granulated blast furnace slag (GGBFS) at elevated temperatures (2012) J. Adv. Res., 3 (1), pp. 45-51; Singh, M., Singh, K., Takshi, K.S., Prediction of compressive strength through accelerated curing (2014) The Fourth FIB Int. Congress and Exhibition for Improving Performance of Concrete Structures, , Mumbai; Tan, K., Gjorv, O.E., Performance of concrete under different curing conditions (1996) Cement Concrete Res., 26 (3), pp. 355-361; Tantawi, H.M., Gharaibeh, E.S., Early estimation of hardened concrete strength (2006) J. Appl. Sci., 6 (3), pp. 543-547; Tanyildizi, H., Coskun, A., The effect of high temperature on compressive strength and splitting tensile strength of structural lightweight concrete containing fly ash (2008) Const. Build. Mat., 22, pp. 2269-2275; Tokyay, M., Strength prediction of fly ash concretes by accelerated testing (1999) Cement Concrete Res., 29, pp. 1737-1741; Topcu, I.B., Toprak, M.U., Fine aggregate and curing temperature effect on concrete maturity (2005) Cement Concrete Res., 35, pp. 758-762; Udoeyo, F.F., Brooks, R., Udo-Inyang, P., Nsan, R.O., Early prediction of laterized concrete strength by accelerated testing (2010) Int. J. Res. Rev. Appl. Sci., 5 (1), pp. 1-6; Yazic, H., Aydin, S., Yigiter, H., Baradan, B., Effect of steam curing on class - C high-volume fly ash concrete mixtures (2005) Cement Concrete Res., 35, pp. 1122-1127; Zain, M.F.M., Abd, S.M., Sopian, K., Jamil, M., Che-Ani, A.I., Mathematical regression model for the prediction of concrete strength (2008) Proc. 10th WSEAS Int. Conf. on Math. Methods, Comp. Techniques and Intelligent Syst., pp. 396-402","Shelke, N.L.; Department of Structural Engineering, India; email: nlshelke@rediffmail.com",,,"Techno-Press",,,,,12254568,,SEGME,,"English","Struct Eng Mech",Article,"Final","",Scopus,2-s2.0-84975297334
"Agarwal N.H., Pimple B.B.","57190389115;36976185300;","Solar photovoltaic array based brushless DC motor for fans in Indian railways using maximum power point tracking algorithm",2016,"Proceedings of the 2015 39th National Systems Conference, NSC 2015",,,"7489122","","",,2,"10.1109/NATSYS.2015.7489122","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84979713211&doi=10.1109%2fNATSYS.2015.7489122&partnerID=40&md5=819d530a0a228b9c40ad44799dbad886","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Agarwal, N.H., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Pimple, B.B., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Nonconventional sources of energy are gaining attention on account of dwindling fossil fuels. Using solar energy in coordination with conventional sources of energy will be more promising. Solar power can be used to supply brushless DC (BLDC) fans in coaches of Indian railways traction system. These solar panels are installed on the rooftop of the coaches. These fans are supplied from 110V DC and their operating voltage is from 90V to 140V. There are 27 BLDC motor fans installed in each coach. To supply this amount of fans in aforementioned voltage range, a system is designed using solar energy and 25kV AC traction supply. From solar energy, this proposed system extracts maximum power possible and supplies fans at 110V under average solar irradiation of 5.21kWh/m2/day. When solar irradiation falls below a limit and surrounding temperature rises above a limit then system starts getting power from 25kV AC traction supply and feeds the fans through voltage source inverter after converting it to 110V DC. As power output from solar panels reach required value in defined voltage range, system switches back to solar energy. An algorithm named select-input is devised in this paper which decides the input of the BLDC fans. To obtain the required voltage and power from solar panels, maximum power point tracking (MPPT) algorithm is used with buck-boost DC-DC converter. Proposed system has two modes of operation. In one case motor is supplied by solar energy and in other one motor is supplied by 25kV AC supply. This method can save average of 7.78kWh of energy everyday from each coach of each train which shows the immense potential of proposed system. The proposed system is simulated in Matlab/Simulink and results are presented. © 2015 IEEE.","BLDC motor; buck boost; MPPT; solar photovoltaic array; traction; Voltage source inverter","AC motors; Algorithms; DC motors; DC-DC converters; Electric inverters; Electric motors; Electric traction; Fossil fuels; Irradiation; Maximum power point trackers; Photovoltaic cells; Railroads; Solar cell arrays; Solar concentrators; Solar energy; Solar power generation; Solar radiation; Supervisory personnel; Traction motors; BLDC motors; Buck-boost; Buck-boost DC-DC converter; Maximum Power Point Tracking; Maximum Power Point Tracking algorithms; Non-conventional sources of energies; Solar photovoltaics; Voltage source inverter; Brushless DC motors",,,,,,,,,,,,,,,,"Kumar, R., Singh, B., Buck boost converter fed BLDC motor drive for PV array based water pumping (2014) IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES), pp. 1-6. , 16-19 Dec; Xuesong, Z., Daichun, S., Youjie, M., Deshu, C., The simulation and design for MPPT of PV system based on Incremental Conductance method (2010) 2010 WASE International Conference on Information Engineering (ICIE), pp. 314-317. , 14-15 Aug; Elgendy, M.A., Zahawi, B., Atkinson, D.J., Assessment of Incremental Conductance maximum power point tracking algorithm (2013) IEEE Transactions on Sustainable Energy, 4 (1). , Jan; Esram, T., Chapman, P.L., Comparison of photovotaic array maximum power point tracking techniques (2007) IEEE Transactions on Energy Conversion, 22 (2). , Jun; Tibor, B., Fedak, V., Durovsky, F., Modeling and simulation of BLDC motor in Matlab GUI (2011) IEEE International Symposium on Industrail Electronics, pp. 1403-1407. , 27-30 Jun; Veeraraghavan, S., Kumaravel, M., Vasudevan, K., Jhunjhunwala, A., Experimental studies and performance evaluation of Solar PV powered BLDC motor drive with an integrated MPPT in fan applications (2014) 40th IEEE Photovoltaic Specialist Conference (PVSC), pp. 3713-3718. , 8-13 Jun; Dash, S.K., Verma, D., Nema, S., Nema, R.K., Comparative analysis of maximum power point(MPP) tracking techniques for solar PV applications using Matlab simulink (2014) IEEE International Conference on Recent Advances and Innovations in Engineering (ICRAIE), pp. 1-7. , 9-11 May; Ramki, T., Tripathy, L.N., Comparison of different DC-DC converters for MPPT application of photovoltaic system (2015) International Conference on Electrical, Electronics, Signals, Communication and Optimization (EESCO), pp. 1-6. , 24-25 Jan; Coelho, R.F., Concer, F., Martins, D.C., A study of the basic DC-DC converter applied in maximum power point tracking (2009) Power Electronics Conference, 1, pp. 673-678. , Sep. 27 2009 Oct",,,"","Institute of Electrical and Electronics Engineers Inc.","39th National Systems Conference, NSC 2015","14 December 2015 through 16 December 2015",,122282,,9781467368285,,,"English","Proc. Natl. Syst. Conf., NSC",Conference Paper,"Final","",Scopus,2-s2.0-84979713211
"Sayed S.S.M., Sawant P.H.","57189381362;55861694500;","Financial feasibility analysis of water conservation components in mass housing projects: Suburban indian case review",2016,"Journal of Architectural Engineering","22","2","04016001","","",,2,"10.1061/(ASCE)AE.1943-5568.0000200","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84969961292&doi=10.1061%2f%28ASCE%29AE.1943-5568.0000200&partnerID=40&md5=8cd507117370584c0f25bc587a63a542","Civil Engineering Dept., MHSSCE, Univ. of Mumbai, Mumbai, 400 008, India; SPCE, Univ. of Mumbai, Mumbai, 400 008, India; SPCE, Munshi Nagar, Andheri West, Mumbai, 400 058, India","Sayed, S.S.M., Civil Engineering Dept., MHSSCE, Univ. of Mumbai, Mumbai, 400 008, India, SPCE, Univ. of Mumbai, Mumbai, 400 008, India; Sawant, P.H., SPCE, Munshi Nagar, Andheri West, Mumbai, 400 058, India","The green building concept has recently gained momentum, and the success of green projects to a large extent depends on the lifecycle cost. Water conservation components contribute almost 12%-15% to the capital cost of a conventional residential building. This paper aims to analyze the financial feasibility of using water conservation components by evaluating their lifecycle costs and operational savings in large mass housing projects. Four components have been evaluated for a case project located in a metropolitan suburban location in India. To analyze the benefits, two different water tariffs are considered: local corporation combined with mineralized water and well water. Lifecycle cost analysis (LCCA) suggests that, excluding the rainwater harvesting component, the significant share of cost for all other components is related to maintenance, repair, and replacement activities. Results of the analysis suggest that water components do not pay a return when a local corporation water tariff is considered at an 8% discount rate. The results of this study are expected to benefit project stakeholders in mass housing projects for their financial and budgetary decisions, thus making implementation of these component-based designs feasible. © 2016 American Society of Civil Engineers.","Lifecycle saving; Market fluctuations; Water component; Wholesale price",,,,,,,,,,,,,,,,,"Alshehhi, A.M.H., Khan, I.A., Al Said, F., Deadman, M.L., Alkanjari, S., Ahmad, T., Evaluation of warm season turfgrass under different irrigation regimes in arid region (2010) Notulae Sci. Biol., 2 (3), pp. 30-38; Angueletou-Marteau, A., Informal water suppliers meeting water needs in the peri-urban territories of Mumbai, an Indian perspective (2008) Global Changes and Water Resources: Confronting the Expanding and Diversifying Pressures: XIIIth World Water Congress, , LEPII, Montpellier, France; Arpke, A., Hutzler, N., Operational life cycle assessment and life cycle cost analysis for water use in multi occupant buildings (2005) J. Archit. Eng., pp. 99-109; Baliga, L., (2013) Middle Vaitarna Ready, New Buildings to Get More Water, , http://timesofindia.indiatimes.com/city/mumbai/Middle-Vaitarna-ready-new-buildings-to-get-more-water/articleshow/23189315.cms, Sep. 12; Batchelor, C., Fonseca, C., Smits, S., Life-cycle costs of rainwater harvesting systems (2011) Occasional Paper Series, 46. , IRC, The Hague, the Netherlands; (2013) Bell Approach, , http://www.bellsanitary.com/aboutus.php, Sep. 14, 2013; Chandramouli, C., (2011) Rural Urban Distribution of Population, , http://censusindia.gov.in/2011-prov-results/paper2/data_files/india/Rural_Urban_2011.pdf, Dec. 20; (2007) Economic Indices: Construction Cost Indices (CCI), New Series (Oct 2007 Onwards), , http://www.cidc.in/new/cci-new.html, Dec. 27; CRC for Water Quality and Treatment (Cooperative Research Centre for Water Quality and Treatment), (2005) Public Health Aspects of Rainwater Tanks in Urban Australia, , http://www.waterra.com.au/publications/document-search/?download=41, Sep. 8; Crettaz, P., Jolliet, O., Cuanillon, J.M., Orlando, S., Life cycle assessment of drinking water and rain water for toilets flushing (1999) J. Water Supply Res. Technol. AQUA, 48 (3), pp. 73-83; Dharmadhikary, S., Thakkar, H., (2011) Report on the Working Group on Urban and Industrial Water Supply and Sanitation for the Twelfth Five-year-plan (2012-2017), , http://stevesmallman.com/wp-content/uploads/2013/05/NAHB-Lifetimes.pdf, June 11; Bank of America Home Equity, (2007) A Study of Life Expectancy of Home Components, , http://stevesmallman.com/wp-content/uploads/2013/05/NAHB-Lifetimes.pdf, Aug. 8; Filion, Y.R., MacLean, H.L., Karney, B.W., Life-cycle energy analysis of a water distribution system (2004) J. Infrastruct. Syst., pp. 120-130; (2015) IGBC Score Card, , https://igbc.in/igbc/, Apr. 3, 2015; (2013) Experience Bathing, , https://www.jaquar.com/products/jaquar-faucets, Sep. 14, 2013; Keoleian, G.A., Blanchard, S., Reppe, P., Life-cycle energy, costs, and strategies for improving a single-family house (2000) J. Ind. Ecol., 4 (2), pp. 135-156; (2013) Water Conservation, Innovation, , http://www.kohlerthai.com/upload/WCI/file_16032011165407.pdf, Sep. 14, 2013; Kumar, N., (2006) Research Report on Analysis of Marketing Strategy of Mineral Water Industry - A Case Study of Bisleri, , Masters of Business Administration, Indraprastha Univ., Delhi, India; Kumar, M.D., Ghosh, S., Patel, A., Singh, O.P., Ravindranath, R., Rainwater harvesting in India: Some critical issues for basin planning and research (2006) Land Use Water Resour. Res., 6 (1), pp. 1-17; LC (Thane Municipal Corporation), (2014) Mr. K. D. Lala, (City Engineer), Water Supply Department, , http://www.thanecity.gov.in/department_details.php?id=28/, Sep. 10, 2014; Mehta, K.P., Patel, A.S., Reuse of domestic waste water for industrial purpose (2013) J. Environ. Res. Dev., 7 (3), pp. 1174-1182; Mekala, G.D., Davidson, B., Samad, M., Boland, A.M., (2007) Wastewater Reuse and Recycling Systems: A Perspective into India and Australia, , http://www.irrigationfutures.org.au/imagesDB/news/Mekala-Working-Paper-128.pdf, Sep. 12; Memon, F.A., Life cycle impact assessment of greywater recycling technologies for new developments (2007) Environ. Monit. Assess., 129 (1-3), pp. 27-35; Ministry of Coal, (2011) Report of the Working Group on Coal & Lignite for Formulation of Twelfth Five Year Plan (2012-2017), , http://planningcommission.gov.in/aboutus/committee/wrkgrp12/wg_Coal1406.pdf, June 11; Ministry of Commerce and Industry, (2013) Copy of Complete-WPI-Data-Monthly-Base-2004-05.xls, , https://data.gov.in/resources/wholesale-price-index-base-2004-05-upto-may-2013/download, Dec. 27, 2013; (2010) Sewage Treatment in Class I Towns: Recommendations and Guidelines, pp. 9-11. , http://www.moef.nic.in/sites/default/files/ngrba/003_EQP_S&R_02.pdf, Ganga Basin Plan., Report code 003, Dec. 30; Ministry of Labour and Employment, (2009) Report on the Working of the Minimum Wages Act, 1948, , http://labourbureaunew.gov.in/UserContent/Report_MinWages_2009.pdf, Labour Bureau, Chandigarh/Shimla. Apr. 3; Ministry of Labour and Employment, (2015) Revised Rates of Minimum Wages for Various Scheduled Employment in Central Sphere Established, , http://innov.in/notifications/Apr14/Minimum%20Wages%20Revision%20-%20Central%20-Wef%201st%20Apr%2014.pdf, Apr. 3, 2015; Ministry of Power, (2012) Report on the Working Group on Power for Twelfth Plan (2012-2017), , http://planningcommission.gov.in/aboutus/committee/wrkgrp12/wg_power1904.pdf, Apr. 3; Ochoa, L., Hendrickson, C., Matthews, H.S., Economic input-output life-cycle assessment of U.S. residential buildings (2002) J. Infrastruct. Syst., pp. 132-138; Patil, I.P., Wagh, H.D., Dwivedi, A.K., Water recycle and reuse - A case study of NMIMS University campus (2013) Int. J. Eng. Sci. Invent., 2 (9), pp. 10-17; Public Works Department, (2012) District Schedule Rates 2012-2013, , Mumbai, India; Rahman, A., Dbais, J., Imteaz, M., Sustainability of rainwater harvesting systems in multistory residential buildings (2010) Am. J. Eng. Appl. Sci., 3 (1), pp. 73-82; Saxon, I., Goldenberg, N., Kawai, D., (2006) Report on An Economic Feasibility Study of Green Buildings in Vancouver, , http://www.iansaxon.com/academic/Green_Economics.pdf, Sep. 10; Shirgaonkar, M., (2012) Research Report on the Rapid Rise of Middle-class Vehicle Ownership in Mumbai, pp. 1-154. , Ph.D. dissertation, City and Regional Planning, Univ. of California, Berkeley, CA; Shivadekar, S., (2014) Poll Heat Cools Water Rate Hike Plan for Now, , http://timesofindia.indiatimes.com/city/thane/Poll-heat-cools-water-rate-hike-plan-for-now/articleshow/37534035.cms, Sep. 10, 2014; Stokes, J.R., Horvath, A., Energy and air emission effects of water supply (2009) Environ. Sci. Technol., 43 (8), pp. 2680-2687; Indian Institute of Job Training, (2009) India Labour Report on the Geographic Mismatch and a Ranking of Indian States by their Labour Ecosystem. (Labour Demand, Labour Supply, Labour Laws), , http://www.teamlease.com/media/1149/teamlease_labourreport2009.pdf, June 11; TNN, (2004) Thirsty Summer with Costly Water, , http://timesofindia.indiatimes.com/business/india-business/Thirsty-summer-with-costly-water/articleshow/569038.cms, Sep. 10; Victorian Government Department of Human Services, (2009) Making Sure Your Private Water Supply is Safe: Rainwater, pp. 1-12. , Food Safety and Regulation Activities, Melbourne, Victoria, Australia","Sayed, S.S.M.; Civil Engineering Dept., India; email: shagufta_saher@yahoo.co.in",,,"American Society of Civil Engineers (ASCE)",,,,,10760431,,JAEIE,,"English","J Archit Eng",Article,"Final","",Scopus,2-s2.0-84969961292
"Meshram S., Valvi S., Raykar N.","57211294217;57205520286;19934528100;","A cost-effective microcontroller based sensor for dual axis solar tracking",2016,"Renewable Energy and Power Quality Journal","1","14",,"650","656",,,"10.24084/repqj14.420","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073319626&doi=10.24084%2frepqj14.420&partnerID=40&md5=d9f53ca06003920d59fd01fa1071ce19","Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India","Meshram, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India; Valvi, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India; Raykar, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, University of Mumbai, Mumbai, 400058, India","Energy crisis is one of the most important issues in today’s world. Conventional energy resources are limited and are one of the primary reasons for pollution and global warming. The use of renewable energy is becoming increasingly popular. Solar energy is rapidly gaining ground as an important mean of expanding renewable energy use. Solar tracking is employed in order to maximize solar radiation collection by a photovoltaic panel. In this paper we present the design, fabrication, and testing of an active dual axis closed loop solar tracking sensor. The compactness of the design facilitates its easy mounting on any surface or place exposed to solar irradiance. The solar irradiance is detected by an Organic Photovoltaic Cell (OPV) which scans the sky for the maximum power point. Different modes of operation have been accommodated in a single generic mode which stops operation at night and facilitates night return of the panel(s) the sensor is connected to. This system is independent with respect to geographical location of the solar panel and diurnal as well as seasonal variations. This sensor can be effectively employed in efficient solar energy extraction for systems of any scale. The operation of the system is also independent with respect to the initial configuration and the starting conditions. The experimental testing shows agreement with true sun coordinates with a satisfactory degree of accuracy. This work can be extended to reduce the scan time of the sensor. © 2016, European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). All rights reserved.","Closed-loop tracking; Cost effective; Dual axis; Microprocessor based; Organic PV; Solar sensor",,,,,,"Delhi Technological University, DTU; Sardar Patel University; Danmarks Tekniske Universitet, DTU","The authors acknowledge reception of free OPV sample from Technical University of Denmark (DTU) and the funding provided by Sardar Patel College of Engineering (SPCE), Mumbai in fulfilment of this work.",,,,,,,,,,"Key World Energy Statistics 2014, , http://www.iea.org/statistics/, Online, Accessed Oct. 25, 2015; http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_5.pdf; Lawrence, S., (2015) Some Interesting Facts about the Sun, , http://www-istp.gsfc.nasa.gov/istp/outreach/workshop/thompson/facts.html; Wohrle, D., Meissner, D., Organic Solar Cells (1991) Adv. Mater., 3 (3), pp. 129-138. , Mar; Luque, A., Hegedus, S., (2003) Handbook of Photovoltaic Science and Engineering, , Hoboken (NJ): Wiley; Green, M., Emery, K., Hishikawa, Y., Warta, W., Dunlop, E., Solar cell efficiency tables (Version 48) (2016) Prog. Photovolt: Res. Appl, 24, pp. 905-913. , May; Clifford, M.J., Eastwood, D., Design of a novel passive solar tracker (2004) Sol. Energy, 77 (3), pp. 269-280. , Sep; Mousazadeh, H., Keyhani, A., Javadi, A., Mobli, H., Abrinia, K., Sharifi, A., A review of principle and sun-tracking methods for maximizing solar systems output (2009) Renew. Sustain. Energy Rev, 13 (8), pp. 1800-1818. , Oct; Lorenzo, E., Pérez, M., Ezpeleta, A., Acedo, J., Design of tracking photovoltaic systems with a single vertical axis (2002) Prog. Photovoltaics Res. Appl., 10 (8), pp. 533-543; Argeseanu, A., Ritchie, E., Leban, K., New low cost structure for dual axis mount solar tracking system using adaptive solar sensor (2010) 2010 12Th International Conference on Optimization of Electrical and Electronic Equipment, pp. 1109-1114; Zerlaut, G.A., Heiskell, R.F., ""Solar tracking device."" U.S. Patent No (1977), 385 (21), p. 031. , Jun; Haywood, G.L., Haywood, W.J., (1978) ""Solar Collector and Drive Circuitry Control Means, 947 (4), p. 082. , U.S. Patent No, Apr; Rubio, F.R., Ortega, M.G., Gordillo, F., López-Martínez, M., Application of new control strategy for sun tracking (2007) Energy Convers. Manag, 48 (7), pp. 2174-2184. , Jul; Roth, P., Georgiev, A., Boudinov, H., Cheap two axis sun following device (2005) Energy Convers. Manag, 46 (7-8), pp. 1179-1192; Minor, G.P.A., Arturo, M., (2010) High–Precision Solar Tracking System, , http://www.iaeng.org/publication/WCE2010/WCE2010_pp844-846.pdf; Poulek, V., Libra, M., A very simple solar tracker for space and terrestrial applications (2000) Sol. Energy Mater. Sol. Cells, 60 (2), pp. 99-103. , Jan; Poulek, V., Libra, M., New solar tracker (1998) Sol. Energy Mater. Sol. Cells, 51 (2), pp. 113-120. , Feb; Roth, P., Georgiev, A., Boudinov, H., Design and construction of a system for sun-tracking (2004) Renew. Energy, 29 (3), pp. 393-402; Rizk, J., Chaiko, Y., Solar Tracking System: More Efficient Use of Solar Panels (2008) World Acad. Sci. Eng. Technol, 41, pp. 313-315; Bentaher, H., Kaich, H., Ayadi, N., Ben Hmouda, M., Maalej, A., Lemmer, U., A simple tracking system to monitor solar PV panels (2014) Energy Convers. Manag, 78, pp. 872-875; No (1979) 4275712, , Oct; Alexander, B., (1998) Sun Tracker System for a Solar Assembly, 798, p. 517. , U.S. Patent No. 5, Aug; Comsit, M., Visa, I., Design of the linkages type tracking mechanisms of the solar energy conversion systems by using Multi Body Systems Method Transilvania University of Brasov Transilvania University of Brasov (2007) 12Th Iftomm World Congress, (12), pp. 1-6. , Besançon (France); Alippi, C., Galperti, C., An Adaptive System for Optimal Solar Energy Harvesting in Wireless Sensor Network Nodes (2008) IEEE Trans. Circuits Syst. I Regul. Pap, 55 (6), pp. 1742-1750. , Jul; Al-Mohamad, A., Efficiency improvements of photo-voltaic panels using a Sun-tracking system (2004) Appl. Energy, 79 (3), pp. 345-354; Arbab, H., Jazi, B., Rezagholizadeh, M., A computer tracking system of solar dish with two-axis degree freedoms based on picture processing of bar shadow (2009) Renew. Energy, 34 (4), pp. 1114-1118; Beltran, J., A., J. L. Gonzalez Rubio S., and C. D. Garcia-Beltran, “Design, Manufacturing and Performance Test of a Solar Tracker Made by a Embedded Control,” in Electronics (2007) Robotics and Automotive Mechanics Conference (CERMA, 2007, pp. 129-134; Chin, C.S., Babu, A., McBride, W., Design, modeling and testing of a standalone single axis active solar tracker using MATLAB/Simulink (2011) Renew. Energy, 36 (11), pp. 3075-3090. , Nov; Das, P.K., Habib, M.A., Mynuddin, M., (2015) Microcontroller Based Automatic Solar Tracking System with Mirror Booster,”, 4 (4), pp. 125-136; Dasgupta, N., Pandey, A., Mukerjee, A., Voltage-sensing-based photovoltaic MPPT with improved tracking and drift avoidance capabilities (2008) Sol. Energy Mater. Sol. Cells, 92 (12), pp. 1552-1558. , Dec; Kassem, A., Hamad, M., A microcontroller-based multi-function solar tracking system (2011) 2011 IEEE International Systems Conference, pp. 13-16; Khan, M.T.A., Tanzil, S.M.S., Rahman, R., Alam, S.M.S., Design and construction of an automatic solar tracking system (2010) International Conference on Electrical & Computer Engineering (ICECE 2010), pp. 326-329; Yazidi, F.B., Notton, G., Capolino, G., Low cost two-axis solar tracker with high precision positioning (2006) 2006 1St Int. Symp. Environ. Identities Mediterr. Area, ISEIM, pp. 211-216; Loschi, H.J., Iano, Y., León, J., Moretti, A., Conte, F.D., Braga, H., A Review on Photovoltaic Systems: Mechanisms and Methods for Irradiation Tracking and Prediction (2015) Smart Grid Renew. Energy, 6 (7), pp. 187-208; Krebs, F.C., Hösel, M., Corazza, M., Roth, B., Madsen, M.V., Gevorgyan, S.A., Søndergaard, R.R., Jørgensen, M., Freely available OPV-The fast way to progress (2013) Energy Technol, 1 (7), pp. 378-381; ""Sun Position Calculator"", , http://www.pveducation.org/pvcdrom/properties-of-sunlight/sun-position-calculator, Accessed Oct. 25, 2015; http://www.usc.edu/dept-00/dept/architecture/mbs/tools/thermal/sun_calc.html","Meshram, S.; Department of Mechanical Engineering, India; email: meshramsd@gmail.com",,,"European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ)",,,,,2172038X,,,,"English","Renewable Energy and Power Qual. J.",Article,"Final","",Scopus,2-s2.0-85073319626
"Patil R., Wadekar N., Palekar S.","57188807815;57188821677;57188804716;","Economical design of Intze type elevated service reservoirs",2016,"Indian Concrete Journal","90","4",,"78","84",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84963624976&partnerID=40&md5=13a26d77636f83aee2fe11ccb21a5cd6","Tata Consulting Engineers Ltd, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India; Discipline Head - Civil in Tata Consulting Engineers Ltd., Mumbai, India","Patil, R., Tata Consulting Engineers Ltd, Mumbai, India; Wadekar, N., Sardar Patel College of Engineering, Mumbai, India; Palekar, S., Discipline Head - Civil in Tata Consulting Engineers Ltd., Mumbai, India","The elevated service reservoirs form an essential part of the water supply schemes in the various part of the country. Intze type of water tank has a logical shape leading to economical design. In this paper, designs of Intze tank for a given capacity are presented for three ratios of height to diameter, viz. H = 1/3 D, H = 2/3 D and H = D. The design of tank with staging and the pile foundation is presented here briefly. Cost of construction as well as operating cost for pumping water into the tank are worked out and presented. It is observed that considering the cost of construction together with operating cost, the shallower tank with H=1/3D is most economical among the three cases considered.","Conical shell; Cost of intze tank; Cylindrical tank; Elevated service reservoirs; Intze tank; Over head water tank; Pile foundation for intze tank; Power consumption cost; Spherical dome; Staging for intze tank; Water tank","Costs; Design; Operating costs; Pile foundations; Piles; Reservoirs (water); Water supply; Water tanks; Conical shell; Cylindrical tanks; Head waters; Intze tank; Service reservoirs; Spherical domes; Staging for intze tank; Tanks (containers)",,,,,,,,,,,,,,,,"(2007) IITK-GSDMA Guidelines for Seismic Design of Liquid Storage Tanks, Coordinator, pp. 1-93. , Indian Institute of Technology Kanpur; (2014) Criteria for Earthquake Resistant Design of Structures, Part-2 : Liquid Retaining Tanks, IS: 1893, , Bureau of Indian Standards, New Delhi",,,,"Associated Cement Companies Ltd.",,,,,00194565,,ICJOA,,"English","Indian Concr J",Article,"Final","",Scopus,2-s2.0-84963624976
"Kolkur S., Kalbande D.R.","39861549600;36600660500;","Review of machine learning algorithms in R software for diagnosis of ESD diseases",2016,"ACM International Conference Proceeding Series","21-22-March-2016",,,"20","25",,,"10.1145/2909067.2909101","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84986594036&doi=10.1145%2f2909067.2909101&partnerID=40&md5=97f67572a3974539c863abe2d50d63a7","Department of Computer Engineering, Thadomal Shahani Engineering College, Bandra, Mumbai, India; Department of Computer Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","Kolkur, S., Department of Computer Engineering, Thadomal Shahani Engineering College, Bandra, Mumbai, India; Kalbande, D.R., Department of Computer Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","ESD is an acronym for Erythemato-Squamous Diseases, which is a set of six skin diseases [6]. The Erythemato-Squamous Diseases (ESDs) require huge computational efforts to predict the diseases because all the six diseases studied in this group have more than 90% common features. The main focus of this paper is to study the use of machine learning algorithms in R software for prediction of ESD Diseases. In this paper, different algorithms are studied and implemented in R. Accuracy of these algorithms is compared. © 2016 ACM.","ESD; Machine learning; R-software","Algorithms; Artificial intelligence; Diagnosis; Electrostatic devices; Electrostatic discharge; Learning systems; Common features; Computational effort; Erythemato-squamous disease; R softwares; Skin disease; Learning algorithms",,,,,,,,,,,,,,,,"Verma, S., Nonclinical challenges of Indian dermatology-cities vs villages, poverty, and lack of awareness (2007) International Journal of Dermatology, 46, pp. 42-45R; http://www.telegraphindia.com/external/display.jsp?mode=details&id=39109#.VuBJnfl97IU; Kabari, L.G., Bakpo, F.S., Diagnosing skin diseases using an artificial neural network (2009) 2nd International Conference on Adaptive Science & Technology, ICAST, pp. 187-191; Jensen, P.B., Jensen, L.J., Brunak, S., Mining electronic health records: Towards better research applications and clinical care (2012) Nature Reviews Genetics, 13, pp. 395-405; Güvenir, H., Demirz, G., Ilter, N., Learning differential diagnosis of erythemato-squamous diseases using voting feature intervals (1998) Artificial Intelligence in Medicine, 13 (3), pp. 147-165; https://archive.ics.uci.edu/ml/datasets/Dermatology; https://www.r-project.org/about.html; http://whatis.techtarget.com/definition/machine-learning; Rambhajani, M., Deepanker, W., Pathak, N., A survey on implementation of machine learning techniques for dermatology diseases classification (2015) International Journal of Advances in Engineering & Technology IJAET; Fang, W., Chang, X., Su, X., Xu, J., Zhang, D., Ning, K., A machine learning framework of functional biomarker discovery for different microbial communities based on metagenomic data (2012) IEEE 6th International Conference on Systems Biology (ISB), pp. 106-112; https://cran.rproject.org/web/packages/class/class.pdf; Loh, W.-Y., (2011) Classification and Regression Trees, Article in Wiley Interdisciplinary Reviews Data Mining and Knowledge Discovery, , Jan14 23; https://cran.r-project.org/web/packages/tree/tree.pdf; https://www.stat.berkeley.edu/-breiman/RandomForests/cc_home.htm; http://gutenberg.us/articles/linear_discriminant_analysis; James, G., Witten, D., Hastie, T., Tibshirani, R., (2013) An Introduction to Statistical Learning: With Applications in R, , (Springer Texts in Statistics); https://spark.apache.org/docs/1.5.0/ml-ann.html; http://wwwold.ece.utep.edu/research/webfuzzy/docs/kkthesis/kk-thesis-html/node22.html; Louise Westerlund, M., (2005) Classification with Kohonen Self-Organizing Maps, , Soft Computing, Haskoli Islands; https://cran.rproject.org/web/packages/kohonen/kohonen.pdf; https://documents.software.dell.com/statistics/textbook/support-vector-machines-svm; http://broom2.revolvy.com/main/index.php?s=Naive%20Bayes%20classifier; Sugiyama, M., Local Fisher discriminant analysis for supervised dimensionality reduction (2006) 23rd International Conference on Machine Learning, pp. 905-912",,"Sheikh R.Jain S.Mishra D.K.","Sri Aurobindo Institute of Technology","Association for Computing Machinery","2016 ACM Symposium on Women in Research, ACM-WIR 2016","21 March 2016 through 22 March 2016",,123222,,9781450342780,,,"English","ACM Int. Conf. Proc. Ser.",Conference Paper,"Final","",Scopus,2-s2.0-84986594036
"Kinhekar N., Padhy N.P., Li F., Gupta H.O.","55920860800;35517075500;8942170500;24530497600;","Utility Oriented Demand Side Management Using Smart AC and Micro DC Grid Cooperative",2016,"IEEE Transactions on Power Systems","31","2","7066986","1151","1160",,64,"10.1109/TPWRS.2015.2409894","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84925868820&doi=10.1109%2fTPWRS.2015.2409894&partnerID=40&md5=875c7a78b56a547f33594da24b034763","Department of Electrical Engineering, Indian Institute of Technology, Roorkee, Uttarakhand, 247667, India; Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Mumbai, Maharashtra, 400058, India; Department of Electronic and Electrical Engineering, University of Bath, Claverton Down, BA2 7AY, United Kingdom; Jaypee Institute of Information Technology, Noida, India","Kinhekar, N., Department of Electrical Engineering, Indian Institute of Technology, Roorkee, Uttarakhand, 247667, India, Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, Mumbai, Maharashtra, 400058, India; Padhy, N.P., Department of Electrical Engineering, Indian Institute of Technology, Roorkee, Uttarakhand, 247667, India; Li, F., Department of Electronic and Electrical Engineering, University of Bath, Claverton Down, BA2 7AY, United Kingdom; Gupta, H.O., Jaypee Institute of Information Technology, Noida, India","DC microgrid provides a viable and more efficient option to cater for DC loads in the building space and, in particular, data centers. This paper investigates the opportunities associated for utilities to optimize industrial demand response for smart AC and DC microgrid environment thus facilitating distribution utility to reduce peak energy on the existing AC distribution system. A load shifting demand side management (DSM) technique is used to shift AC industrial loads in response to time of day (TOD) tariff. Hence, an attempt has been made to study the impact of DSM strategies with optimal shifting of AC devices in the presence of DC microgrid. Simulations are carried out on a practical distribution system having large industrial loads but it has been assumed that the AC distribution system has DC microgrid with renewables and battery storage systems (BSSs). DSM results for AC distribution grid are compared and analyzed with differing DC microgrid set ups, for example with and without battery storage. It has been observed that the DSM strategy with DC microgrid in the presence of solar renewables and battery storage can substantially reduce average energy cost for demand to response and peak load burden on AC distribution utilities. © 1969-2012 IEEE.","AC/DC loads; battery storage; DC microgrid; demand side management; renewable generations","Digital storage; Electric batteries; Electric utilities; Ac distribution grids; Ac distributions; Battery storage system; Demand side managements; Distribution systems; Distribution utilities; Industrial demands; Industrial loads; Electric power distribution",,,,,"Engineering and Physical Sciences Research Council, EPSRC: EP/K036211/1; Department of Science and Technology, Ministry of Science and Technology, India, डीएसटी; All India Council for Technical Education, अभातशिप: TPWRS-01120-2014","This work was supported in part by EPSRC (U.K.), in part by DST (India) HEAPD Project Grant under Smart Grid Initiatives, and in part by the Quality Improvement Programme (QIP) scheme of the All India Council for Technical Education (AICTE), Government of India. Paper no. TPWRS-01120-2014.",,,,,,,,,,"Gellings, C.W., (1988) Demand-Side Management: Concepts and Methods, , Liburn, GA, USA: Fairmont; Palensky, P., Dietrich, D., Demand side management: Demand response, intelligent energy systems, and smart loads (2011) IEEE Trans. Ind. Informat, 7 (3), pp. 381-388. , Aug; Rahimi, F., Ipakchi, A., Demand response as a market resource under the smart grid paradigm (2010) IEEE Trans. Smart Grid, 1 (1), pp. 82-88. , Jun; Medina, J., Muller, N., Roytelman, I., Demand response and distribution grid operations: Opportunities and challenges (2010) IEEE Trans. Smart Grid, 1 (2), pp. 193-198. , Sep; Saele, H., Grande, O.S., Demand response from household customers-Experiences from a pilot study in Norway (2011) IEEE Trans. Smart Grid, 2 (1), pp. 102-109. , Mar; Mathieu, J.L., Price, P.N., Kiliccote, S., Piette, M.A., Quantifying changes in building electricity use, with the application to demand response (2011) IEEE Trans. Smart Grid, 2 (3), pp. 507-518. , Sep; Cecati, C., Citro, C., Siano, P., Combined operations of renewable energy systems and responsive demand in a smart grid (2011) IEEE Trans. Sustain. Energy, 2 (4), pp. 468-476. , Oct; Conejo, A.J., Morales, J.M., Baringo, L., Real-time demand response model (2010) IEEE Trans. Smart Grid, 1 (3), pp. 236-242. , Dec; Mohsenian-Rad, A., Wong, V.W.S., Jatskevich, J., Schober, R., Leon-Garcia, A., Autonomous demand-side management based on gametheoretic energy consumption scheduling for the future smart grid (2010) IEEE Trans. Smart Grid, 1 (3), pp. 320-331. , Dec; Siano, P., Demand response and smart grids-A survey (2013) Int. J. Renew. Sustain. Energy Rev., 30, pp. 461-478. , Oct; Chen, J., Lee, F.N., Breipohl, A.M., Adapa, R., Scheduling direct load control to minimize system operational cost (1995) IEEE Trans. Power Syst., 10 (4), pp. 1994-2001. , Nov; Ng, K.H., Sheble, G.B., Direct load control-a profit-based load management using linear programming (1998) IEEE Trans. Power Syst., 13 (2), pp. 688-694. , May; Tang, Y., Zheng, G., Zhang, S., Optimal control approaches of pumping stations to achieve energy efficiency and load shifting (2014) Int. J. Elect. Power Energy Syst., 55, pp. 572-580; Patterson, B.T., DC, come home: Dc microgrids and the birth of the enernet (2012) IEEE Power Energy Mag., 10 (6), pp. 60-69. , Nov; Liu, X., Wang, P., Loh, P.C., A hybrid ac/dc microgrid and its coordination control (2011) IEEE Trans. Smart Grid, 2 (2), pp. 278-286. , Jun; Sechilariu, M., Wang, B.C., Locment, F., Supervision control for optimal energy cost management in DC microgrid: Design and simulation (2014) Int. J. Elect. Power Energy Syst., 58, pp. 140-149; Adika, C.O., Wang, L., Smart charging and appliance scheduling approaches to demand side management (2014) Int. J. Elect. Power Energy Syst., 57, pp. 232-240; Anderson, M.D., Carr, D.S., Battery energy storage technologies (1993) Proc. IEEE, 81 (3), pp. 475-479. , Mar; Bragard, M., Soltau, N., Thomas, S., De Doncker, R.W., The balance of renewable sources and user demands in grids: Power electronics for modular battery energy storage systems (2010) IEEE Trans. Power Electron, 25 (12), pp. 3049-3056. , Dec; Hill, C.A., Such, M.C., Chen, D., Gonzalez, J., Grady, W.M., Battery energy storage for enabling integration of distributed solar power generation (2012) IEEE Trans. Smart Grid, 3 (2), pp. 850-857. , Jun; Teng, J.-H., Luan, S.-W., Lee, D.-J., Huang, Y.-Q., Optimal charging/discharging scheduling of battery storage systems for distribution systems interconnected with sizeable PV generation systems (2013) IEEE Trans. Power Syst., 28 (2), pp. 1425-1433. , May; Huang, D., Billinton, R., Effects of load sector demand side management applications in generating capacity adequacy assessment (2012) IEEE Trans. Power Syst., 27 (1), pp. 335-343. , Feb; Logenthiran, T., Srinivasan, D., Shun, T.Z., Demand side management in smart grid using heuristic optimization (2012) IEEE Trans. Smart Grid, 3 (3), pp. 1244-1252. , Sep; Kinhekar, N., Padhy, N.P., Gupta, H.O., Multiobjective demand side management solutions for utilities with peak demand deficit (2014) Int. J. Elect. Power Energy Syst., 55, pp. 612-619. , Feb; Soliman, H.M., Garcia, A.L., Game-theoretic demand-side management with storage devices for the future smart grid (2014) IEEE Trans. Smart Grid, 5 (3), pp. 1475-1485. , May; Malysz, P., Sirouspour, S., Emadi, A., An optimal energy storage control for grid-connected microgrids (2014) IEEE Trans. Smart Grid, 5 (4), pp. 1785-1796. , Jul; Zakariazadeh, A., Jadid, S., Siano, P., Stochastic operational scheduling of smart distribution system considering wind generation and demand response programs (2014) Int. J. Elect. Power Energy Syst., 63, pp. 218-225. , Jun; Zakariazadeh, A., Jadid, S., Siano, P., Smart microgrid energy and reserve scheduling with demand response using stochastic optimization (2014) Int. J. Elect. Power Energy Syst., 63, pp. 523-533. , Jul; Mazidi, M., Zakariazadeh, A., Jadid, S., Siano, P., Integrated scheduling of renewable generation and demand response programs in a microgrid (2014) Int. J. Energy Convers. Manage, 86, pp. 1118-1127. , Jul; Zakariazadeh, A., Jadid, S., Siano, P., Stochastic multi-objective operational planning of smart distribution systems considering demand response programs (2014) Int. J. Elect. Power Energy Syst., 111, pp. 156-168. , Mar; Zakariazadeh, A., Jadid, S., Siano, P., Economic-environmental energy and reserve scheduling of smart distribution systems: A multiobjective mathematical programming approach (2013) Int. J. Energy Convers. 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Appl, 44 (6), pp. 1910-1917. , Nov; Becker, D.J., Sonnenberg, B.J., DC microgrids in buildings and data centers (2011) Proc. IEEE Int. Tele. Energy Conf. (INTELEC), pp. 1-7. , Oct; Chen, S.X., Gooi, H.B., Wang, M.Q., Sizing of energy storage for microgrids (2012) IEEE Trans. Smart Grid, 3 (1), pp. 142-151. , Mar; Hsu, Y.Y., Su, C.C., Dispatch of direct load control using dynamic programming (1991) IEEE Trans. Power Syst., 6 (3), pp. 1056-1061. , Aug; Ng, K.-H., Sheble, G.B., Direct load control-A profit based load management using linear programming (1998) IEEE Trans. Power Syst., 13 (2), pp. 688-694. , May; Kurucz, C.N., Brandt, D., Sim, S., A linear programming model for reducing system peak through customer load control programs (1996) IEEE Trans. Power Syst., 11 (4), pp. 1817-1824. , Nov; Back, T., Fogel, D., Michalewicz, Z., (1997) Handbook of Evolutionary Computation, , New York, NY, USA: IOP Publ. and Oxford Univ. Press; Lee, K.Y., El-Sharkawi, M.A., (2008) Modern Heuristic Optimization Techniques: Theory and Applications to Power Systems, 39. , New York, NY, USA: Wiley.com; Haupt, R.L., Haupt, S.E., (2004) PracticalGenetic Algorithms, , Hoboken, NJ, USA: Wiley; Reddy, Y.J., Kumar, Y.V.P., Raju, K.P., Ramesh, A.K., Retrofitted hybrid power system design with renewable energy sources for buildings (2012) IEEE Trans. Smart Grid, 3 (4), pp. 2174-2187. , Dec; Eghtedarpour, N., Farjah, E., Power control and management in a hybrid AC/DC microgrid (2014) IEEE Trans. Smart Grid, 5 (3), pp. 1494-1505. , May; Nejabatkhah, F., Li, Y.W., Overview of power management strategies of hybrid AC/DC microgrid IEEE Trans. Power Electron, , to be published; Divya, K., Ostergaard, J., Battery energy storage technology for power systems-An overview (2009) Elect. Power Syst. Res., 79 (4), pp. 511-520. , Mar; Maharashtra electricity regulatory commission regulations (2010) Renewable Purchase Obligation, It's Compliance and Implementation of REC Framework, , http//www.mercindia.org.in/Regulations.htm; Government of India Ministry of New and Renewable Energy: Solar Energy Overview, , http//www.energyaccess.in/renewable-energy; Government of India Ministry of New and Renewable Energy: JNN Solar Mission, , http//www.mnre.gov.in/solar-mission/jnnsm/introduction-2/",,,,"Institute of Electrical and Electronics Engineers Inc.",,,,,08858950,,ITPSE,,"English","IEEE Trans Power Syst",Article,"Final","All Open Access, Green",Scopus,2-s2.0-84925868820
"Phule R.R., Kurangale P., Alone R., Gabhale V., Pawar N., Birajdar K.","56578640500;57193616475;55604226700;57193605556;6701811888;57193611850;","Estimating the cyclic softening of clays of five different sites at Matsyapuri, Willingdon Island, Kochin, Kerala, India",2016,"Proceedings of the 5th International Conference on Geotechnical and Geophysical Site Characterisation, ISC 2016","1",,,"621","626",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85015246468&partnerID=40&md5=45380e744cd98775199d56eea4077b8e","Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","Phule, R.R., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Kurangale, P., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Alone, R., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Gabhale, V., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Pawar, N., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Birajdar, K., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India","This paper discusses the cyclic softening potential evaluation of clayey soils at five borehole locations at the site at Matsyapuri on Willingdon Island, in the city of Kochi, in the state of Kerala, India. The site consists loose to medium dense clayey sand overfills followed by of clayey soils at all five locations having thickness ranging from 5 to 9m. Clay behaves differently under monotonic and cyclic loading. The pore pressures produced during an earthquake reduces the effective stress of the clay thereby reducing the un-drained shear strength similar to unloading. However, after the earthquake, the pore pressure dissipates and the soil strength increases due to consolidation. This phenomenon of temporary strength loss in soft soils dur-ing an earthquake is termed as 'cyclic softening'. This paper provides a brief review of the developing new procedures for evaluating cyclic softening of clayey soils in terms of factor of safety (FoS). Established corre-lations based on in-situ testing such as Standard penetration test (SPT) and laboratory testing are adopted to estimate the undrained shear strength of the clays and to estimate the cyclic resistance ratio. It is observed that the clay deposits at all the five sites are prone to moderate cyclic softening for earthquake magnitude (Mw) of 6.5 and 7.5 at peak ground acceleration (amax) of 0.3g. For practical purposes, these FoS value can be considered by the geotechnical engineers for design purpose. © 2016 Australian Geomechanics Society.",,"Clay deposits; Geophysics; Pore pressure; Safety factor; Soils; Unloading; Cyclic resistance; Earthquake magnitudes; Laboratory testing; Monotonic and cyclic loading; Peak ground acceleration; Potential evaluation; Standard penetration test; Undrained shear strength; Earthquakes",,,,,,,,,,,,,,,,"Ajayi, L.A., Balogum, L.A., Penetration testing in tropical lateritic and residual soils - Nigerian experience (1988) Penetration Testing, , ISOPT-1:315-328. Rotterdam: Balkema; Boulanger, R.W., Idriss, I.M., (2004) Evaluating the Liquefaction or Cyclic Failure of Silts and Clays, , Technical Report Center for Geotechnical Modeling, University of California, Davis: California; Decourt, L., The Standard Penetration Test. State of the Art Report (1990) Norwegian Geotechnical Institute Publication, 179, pp. 1-12. , Oslo: Norway; Hara, A., Ohta, T., Niwa, M., Tanaka, S., Banno, T., Shear modulus and shear strength of cohesive soils (1974) Soils and Foundation, 14 (3), pp. 1-12; Hettiarachchi, H., Brown, T., Use of SPT Blow Counts to Estimate Shear Strength Properties of Soils: Energy Balance Approach (2009) Journal of Geotechnical and Geoenvironmental Engineering, 135 (6), pp. 25-32; Idriss, I.M., Boulanger, R.W., SPT- and CPT-based relationships for the residual shear strength of liquefied soils, Earthquake Geotechnical Engineering (2007) Proc., 4th Intl. Conf. on Earthq. Geotech. Engrg., , Invited Lectures, K. D. Pitilakis, (ed); Springer: The Netherlands; Idriss, I.M., Boulanger, R.W., (2008) Soil Liquefaction during Earthquakes, , MNO-12, Earthquake Engineering Research Institute, Oakland: CA; Kramer, S.L., (1996) Geotechnical Earthquake Engineering, , Upper Saddle River, NJ: Prentice Hall; Nixon, I.K., Standard penetration test: State of the art report (1982) Proceedings of The2nd European Symposium on Penetration Testing, , Amsterdam; Sanglerat, G., (1972) The Penetration and Soil Exploration; Interpretation of Penetration Diagrams - Theory and Practice, , Amsterdam: Elsevier Publishing Co; Seed, H.B., Idriss, I.M., Simplified procedure for evaluating soil liquefaction potential (1971) Journal of Soil Mechanics and Foundation Division, 97, pp. 1249-1273; Sirvikaya, O., Comparison of artificial neural networks models with correlative works on undrained shear strength (2009) Eurasian Soil Science, 42 (13), pp. 1487-1496; Sivrikaya, O., Togrol, E., Relations between SPT-N and qu (2002) Proceedings of 5th International Congress on Advances in Civil Engineering, pp. 943-952. , Istanbul, Turkey; Sowers, G.F., (1979) Introductory Soil Mechanics and Foundations, , New York: Macmillan; Stroud, M.A., The standard penetration test in insensitive clays and soft rock (1974) Proceedings of the 1st European Symposium on Penetration Testing, , Stockholm: Sweden; Terzaghi, K., Peck, R.B., (1967) Soil Mechanics in Engineering Practice, , NewYork: John Wiley; Tsaia, C.C., Mejia, L.H., Meymand, M.P., A strain-based procedure to estimate strength softening in saturated clays during earthquake (2014) Soil Dynamics and Earthquake Engineering, 66, pp. 191-198; Youd, T.L., Idriss, I.M., (1997) Proc., NCEER Workshop on Evaluation of Liquefaction Resistance of Soils, , Nat. Ctr. for Earthquake Engrg. Res., State Univ. of New York: Buffalo",,"Acosta-Martinez H.E.Lehane B.M.Kelly R.","","Australian Geomechanics Society","5th International Conference on Geotechnical and Geophysical Site Characterisation, ISC 2016","5 September 2016 through 9 September 2016",,126265,,9780994626110,,,"English","Proc. Int. Conf. Geotech. Geophys. Site Charact., ISC",Conference Paper,"Final","",Scopus,2-s2.0-85015246468
"Gaikwad L., Sunnapwar V., Teli S.N.","56198941700;6504099005;56198415800;","Adaption of TRIZ method for problem solving: A case study",2016,"International Journal of Six Sigma and Competitive Advantage","10","2",,"146","155",,,"10.1504/IJSSCA.2016.080804","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006106501&doi=10.1504%2fIJSSCA.2016.080804&partnerID=40&md5=d947cd4246b8c80e7546e30281485627","Mechanical Engineering Department, SPCE, Andheri, Mumbai, 400058, India; Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, 400709, India; Mechanical Engineering Department, SCOE, Navi Mumbai, 410210, India","Gaikwad, L., Mechanical Engineering Department, SPCE, Andheri, Mumbai, 400058, India; Sunnapwar, V., Department of Mechanical Engineering, Lokmanya Tilak College of Engineering, Navi Mumbai, 400709, India; Teli, S.N., Mechanical Engineering Department, SCOE, Navi Mumbai, 410210, India","TRIZ (Theory of Inventive Problem Solving) is one of the wellknown tools, based on analytical methods for creative problem solving. With the latest advances in technology along with the human advancements, a tough competition exists between various organisations and the top management. At this stage, the Research and Development (R&D) and Marketing of products are more important. As a result, the multinational enterprises should rely on both the innovations and marketing strategies of products for higher competency. TRIZ is a premier disruptive technology for innovation that can be used throughout many industries and sciences. Elements of TRIZ can be effectively used by a wide range of people from children to adults. This paper suggests adapted version of contradiction matrix, a powerful tool of TRIZ and few principles based on concept of original TRIZ. Copyright © 2016 Inderscience Enterprises Ltd.","Automotive industry; Contradiction matrix; CPI; CPS; Innovation; Inventive; Productivity; Six sigma; TRIZ",,,,,,,,,,,,,,,,,"Amabile, T.M., Conti, R., Coon, H., Lazenby, J., Herron, M., Assessing the work environment for creativity (1996) Academy of Management Journal, 39 (5), pp. 1154-1184; De Bono, E., (1990) Lateral Thinking: A Textbook of Creativity, , Penguin Books, London; Proctor, T., (2009) Creative Problem Solving for Managers: Developing Skills for Decision Making and Innovation, , Routledge; Savransky, S.D., (2000) Engineering of Creativity: Introduction to TRIZ Methodology of Inventive Problem Solving, , CRC Press, Boca Raton, FL; VanGundy, A.B., (1988) Stalking the Wild Solution: A Problem Finding Approach to Creative Problem Solving, , Bearly Limited","Gaikwad, L.; Mechanical Engineering Department, India; email: lokpriya2004@yahoo.co.in",,,"Inderscience Publishers",,,,,14792494,,,,"English","Int. J. Six Sigma Compet. Advantage",Article,"Final","",Scopus,2-s2.0-85006106501
"Rane A.B., Sunnapwar V.K., Rane S.","56539427300;6504099005;56149402100;","Strategies to overcome the HR barriers in successful lean implementation",2016,"International Journal of Procurement Management","9","2",,"223","247",,24,"10.1504/IJPM.2016.075266","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84962579142&doi=10.1504%2fIJPM.2016.075266&partnerID=40&md5=0b23244c308fb2e16dda013382cef234","Department of Production Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandstand, Bandra (W), Mumbai  400 050, India; Lokmanya Tilak College of Engineering, Koparkhairane, Navi Mumbai  400 709, India; Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai  400 058, India","Rane, A.B., Department of Production Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandstand, Bandra (W), Mumbai  400 050, India; Sunnapwar, V.K., Lokmanya Tilak College of Engineering, Koparkhairane, Navi Mumbai  400 709, India; Rane, S., Sardar Patel College of Engineering, Munshi Nagar, Andheri (W), Mumbai  400 058, India","This paper presents an analysis of research on human resource (HR) barriers in lean implementation (LI) and also suggests a new model for successful LI. The objective of this paper is to discuss role of HR management, various threats and challenges in LI pertaining to HR. A literature survey of peer reviewed journal articles, notes, books are used in research methodology. It is also based on interaction with managers, engineers, supervisors and workers. The evaluation of literature survey has led to the identification of HR barriers in LI. This paper also considers impact of retirement programmes, career paths, health insurance which has received less attention. The unique contribution of this paper is development of relationship among barriers and performance measures. We also suggest a framework to overcome each barrier. It gives new opportunities for relevant research which will contribute to more knowledge in successful LI. Copyright © 2016 Inderscience Enterprises Ltd.","Challenges; Driver; Enablers; Factors; Guidelines; HR issues; Human resources challenges; Human side of lean; Lean manufacturing; Lean resources; LM; Organisational behaviour; Procurement management; Strategy; Threat; Training and job security",,,,,,,,,,,,,,,,,"Achanga, P., Critical success factors for lean implementation within SME (2006) Journal of Mfg. Technology Management, 17 (4), pp. 460-471. , Emerald; Ahmad, S., Schroeder, R.G., The impact of human resource management practices on operational performance (2003) Journal of Operations Management, 21, pp. 19-43. , Elsevier publications; Ahrens, T., (2006) Lean Production: Successful Implementation of Organizational Change in Operations Instead of Short Term Cost Reduction Efforts, , Lean alliance, Germany; Alony, I., Jones, M., Lean supply chains, JIT and cellular manufacturing - The human side (2008) Journal of Issues in Informing Science and Information Technology, 5, pp. 165-175; Andersson, S., Implement lean production in small companies dissertation (2007) Int. Project Management, , Chalmers University of Technology, Northumbria University, Goteborg, Sweeden; Angelis, J., The effects of just-in-time/lean production practices on worker job stress (2004) Second World Conference on POM & 15th Annual POM Conference, , Cancum, Mexico; Backstrand, G., Lean and its impact on workplace design (2013) Proceedings of NES 2013, 45th Nordic Ergonomics and Human Factors Society Conference, , Iceland; Badurdeen, A., (2007) Lean Manufacturing Basics [Online], , http://www.leanmanufacturingconcepts.com, accessed 2 June 2014; Batul, F., Ali, A., Arash, S., Comparison of organization excellence based on the models of Peters and Waterman with case study in the steel industry (2014) International Journal of Production Management, 7 (4), pp. 450-472; Bonavia, T., Integrating human resource management into lean production and their impact on organizational performance (2011) International Journal of Manpower, 32 (8), pp. 923-938; Bose, A.J.C., Sinha, S., Human side of lean production: Aren't we on a slippery slope (2012) International Journal of Lean Thinking, 3 (2), pp. 102-116. , December Teknokent; Dibia, I.K., Onuh, S., Lean revolution and the human resource aspects (2010) Proceedings of the WCE (World Congress on Engg.), p. 2010. , 30 June-2 July 3, London, UK; Farris, J.A., Critical success factors for human resource outcomes in Kaizen events (2009) International Journal of Production Economics, 117, pp. 42-65. , Elsevier; Hilton, R.J., A conceptual model for the successful deployment of Six Sigma (2012) International Journal of Quality and Reliability Management, 29 (1), pp. 54-70. , Emerald; Jadhav, J., Mantha, S., Rane, S., Exploring barriers in lean implementation (2013) International Journal of Lean Six Sigma, 5 (2), pp. 122-148. , Emerald Group Publishing Limited; Jadhav, J., Mantha, S., Rane, S., Barriers for successful implementation of JIT: A manufacturer perspective (2014) International Journal of Procurement Management, 7 (3), pp. 316-342; Jadhav, J.R., Mantha, S., Rane, S., Roadmap for lean implementation in Indian automotive component manufacturing industry: Comparative study of UNIDO model and ISM model (2014) Journal of Industrial Engineering International, 10, p. 74. , Springer; Kovacheva, A., (2010) Challenges in Lean Implementation, , Aarhus School of Business, University of Aarhus; Kumar, N., Implementing lean manufacturing system': ISM approach (2012) Journal of Industrial Engineering Management, 6 (4), pp. 996-1012; Lean in Nike Inc., Corporate Responsibility Report, Shoes Manufacturing, Nike Incorporation, FY 07-08-09; Liker, J.K., (2008) Development in the Toyota Culture, , University of Michigan, Human Resource; Lokhande, M.A., Marketing strategies of Indian automobile companies': A case study of Maruti Suzuki India Ltd. (2013) International Journal of Science, February, 1 (2), pp. 40-45; Losonci, D., Factors influencing employee perceptions in lean transformations (2011) International Journal of Economics, 131, pp. 30-43. , Elsevier; Making it work, 'Lean Human Resources Management', Book on 'The effects of lean manufacturing' pp 111-117; Mallick, Z., Barriers and enablers in implementation of lean Six Sigma in Indian manufacturing industries (2012) International Journal of Advanced Research in Management, 3 (1), pp. 11-19. , June; Manuel, F., Implementation of lean-Kaizen in the HR service process': A case study in a Mexican Public Service Organization (2004) Journal of Manufacturing Technology Management, 21 (3), pp. 388-410. , Emerald; Mehta, R.K., Chhabra, K.K., LM practices in Indian automobile industry: Issues and challenges (2014) Int. Journal of Research in Advent Technology, July, 2 (6), pp. 34-37; Mehta, R.K., An exploratory study on implementation of lean mfg practices (2012) Yonetim Ve Ekonomi, 19 (2), pp. 289-299; Melton, T., The benefits of lean manufacturing (2005) Chemical Engg. Research and Design, Trans. 1 Chem. E, Part A, 83 (A6), pp. 662-673. , June Institution of Chemical Engineers; Moody, L., Human factors and lean in the ER: 2012 (2012) Symposium on Human Factors and Ergonomics; Moyano-Fuentes, J.M., Learning on lean: A review of thinking and research (2011) International Journal of Operations & Production Management, 32 (5), pp. 551-582. , 24 January Emerald Group Publishing Limited; Muthuswamy, S., Muthuswamy, N., Nallasamy, G., Total performance excellence - A model for successful implementation of Six Sigma (2013) International Journal of Production Management, 6 (3), pp. 297-328; Nahm, A.Y., The role of workers trust and perceived benefits in lean implementation success (2012) Int. J. of Business Excellence, 5 (5), pp. 463-484; Pamfilie, R., The importance of leadership in driving a strategic Lean Six Sigma management (2012) Proceedings, Social and Behavioral Sciences, 58, pp. 187-196. , Elsevier; Pedro, J., HR management during lean production adoption (2013) Emerald Management Decision, 51 (4), pp. 742-760; Pedro, J., Human resource management in lean production adoption and implementation processes (2014) BRQ Business Research Quarterly, 17, pp. 47-68. , Elsevier, Doyma; Prakash, D., Kumar, S.C.T., Implementation of lean manufacturing principles in auto industry (2011) Industrial Engineering Letters, 1 (1), pp. 56-60; Saurin, T.A., Ferreira, C.F., The impacts of lean production on working conditions (2009) International Journal of Industrial Ergonomics, 39, pp. 403-412. , Elsevier; Schnall, P., (2014) Globalization, Work and Health, , University of California at Irvine; Shin, D., Lee, J., Trust in lean production systems (1999) Euro-Asia Centre Research Series, (61), pp. 1-31. , April 1999 Yonsei University; Singh, B., Garg, S., Value stream mapping: Literature review and implications for Indian industry (2012) IJAMT, 53 (5-8), pp. 799-809. , Springer Publisher; Smith, A.D., Online social networking and office environmental factors that affect worker productivity (2013) International Journal of Production Management, 6 (5), pp. 578-608; Smith, A.D., David, P., Lean operations and SCM practices in manufacturing firms: Multi firm case studies in HRM and virtual based matrices (2014) International Journal of Production Management, 7 (2), pp. 183-200; Sundaraaj, R.P., A multi attribute approach to the modeling of human elements (2011) International Journal of Production Management, 4 (3), pp. 298-314; Tracey, M.W., Jammie, F., HR's role in the lean organizational journey (2006) World at Work Journal, pp. 49-58. , 4th Quarter; Vendan, S.P., Sakthidhasan, K., Reduction of wastages in motor manufacturing industry (2010) Jordan Journal of Mechanical and Industrial Engineering JJMIE, 4 (5), pp. 579-590; Yang, M.G., Impact of lean mfg. and environmental management on business performance: An empirical study of manufacturing firms (2011) International Journal of Production Economics, 129, pp. 251-261. , Elsevier","Rane, A.B.; Department of Production Engineering, India; email: arunbrane@gmail.com",,,"Inderscience Publishers",,,,,17538432,,,,"English","Int. J. Procure. Manage.",Article,"Final","",Scopus,2-s2.0-84962579142
"Ahuja U., Joshi R., Kothari D.C., Tiwari H., Venugopalan K.","55555869300;37010327300;55158152900;7003376628;22964652900;","Optical response of mixed molybdenum dichalcogenides for solar cell applications using the modified becke-johnson potential",2016,"Zeitschrift fur Naturforschung - Section A Journal of Physical Sciences","71","3",,"213","224",,7,"10.1515/zna-2015-0393","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84962262265&doi=10.1515%2fzna-2015-0393&partnerID=40&md5=4382aece57cd483b32c40b938f31a2ca","Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, Maharastra  400 058, India; Department of Physics, University College of Science, M.L. Sukhadia University, Udaipur, Rajasthan  313001, India; National Center for Nanosciences and Nanotechnology, University of Mumbai, Vidyanagari, Kalina, Santacruz (East), Mumbai, Maharashtra  400098, India; Department of Electrical Engineering, Malaviya National Institute of Technology, Jaipur, Rajasthan  302017, India","Ahuja, U., Department of Electrical Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, Maharastra  400 058, India; Joshi, R., Department of Physics, University College of Science, M.L. Sukhadia University, Udaipur, Rajasthan  313001, India; Kothari, D.C., National Center for Nanosciences and Nanotechnology, University of Mumbai, Vidyanagari, Kalina, Santacruz (East), Mumbai, Maharashtra  400098, India; Tiwari, H., Department of Electrical Engineering, Malaviya National Institute of Technology, Jaipur, Rajasthan  302017, India; Venugopalan, K., Department of Physics, University College of Science, M.L. Sukhadia University, Udaipur, Rajasthan  313001, India","Energy bands and density of states (DOS) of mixed molybdenum dichalcogenides like MoS2, MoSeS, MoSe2, MoTe2, MoTeS, and MoTe0.5S1.5 are reported for the first time using the Tran-Blaha modified Becke-Johnson potential within full potential-linearised augmented plane wave technique. From the partial DOS, a strong hybridisation between the Mo-d and chalcogen-p states is observed below the Fermi energy EF. In addition, the dielectric constants, absorption coefficients, and refractivity spectra of these compounds have also been deduced. The integrated absorption coefficients derived from the frequency- dependent absorption spectra within the energy range of 0-4.5 eV show a possibility of using molybdenum dichalcogenides, particularly MoTe0.5S1.5, in solar cell applications. Birefringence and degree of anisotropy are also discussed using the data on refractivity and imaginary components of the dielectric constant.","Density Functional Theory; Optical Properties; Photovoltaic Materials",,,,,,,,,,,,,,,,,"Komsa, H.P., Krasheninnikov, A.V., (2012) J. Phys. Chem., 3, p. 3652; Yoffee, D., Wilson, J.A., (1969) Adv. Phys., 18, p. 193; Friend, R.H., Yoffe, A.D., (1987) Adv. Phys., 36, p. 1; Jiang, H., (2012) J. Phys. Chem. C, 116, p. 7664; Revolinsky, E., Beerntsen, D., (1964) J. Appl. Phys., 35, p. 2086; Srivastava, S.K., Mandal, T.K., Samantaray, B.K., (1997) Synth. Met., 90, p. 135; Agarwal, M.K., Patel, P.O., Talele, L.T., Lakshminarayana, D., (1985) Phys. Stat. Solidi A, 90, p. 107; Srivastava, S.K., Palit, D., (2005) Sol. Stat. Ionics, 176, p. 513; Chang, J., Larentis, S., Tutuc, E., Register, L.F., Banerjee, S.K., (2014) Appl. Phys. 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"Kirkire M.S., Rane S.B., Jadhav J.R.","57190767311;56149402100;56149525200;","Risk management in medical product development process using traditional FMEA and fuzzy linguistic approach: A case study",2015,"Journal of Industrial Engineering International","11","4",,"595","611",,48,"10.1007/s40092-015-0113-y","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85007011203&doi=10.1007%2fs40092-015-0113-y&partnerID=40&md5=a5d53c2ac1d6a4a0a75e5f43b212bcd1","Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Mechanical Engineering, K. J. Somaiya Polytechnic, Vidyavihar, Mumbai, India","Kirkire, M.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Jadhav, J.R., Department of Mechanical Engineering, K. J. Somaiya Polytechnic, Vidyavihar, Mumbai, India","Medical product development (MPD) process is highly multidisciplinary in nature, which increases the complexity and the associated risks. Managing the risks during MPD process is very crucial. The objective of this research is to explore risks during MPD in a dental product manufacturing company and propose a model for risk mitigation during MPD process to minimize failure events. A case study approach is employed. The existing MPD process is mapped with five phases of the customized phase gate process. The activities during each phase of development and risks associated with each activity are identified and categorized based on the source of occurrence. The risks are analyzed using traditional Failure mode and effect analysis (FMEA) and fuzzy FMEA. The results of two methods when compared show that fuzzy approach avoids the duplication of RPNs and helps more to convert cognition of experts into information to get values of risk factors. The critical, moderate, low level and negligible risks are identified based on criticality; risk treatments and mitigation model are proposed. During initial phases of MPD, the risks are less severe, but as the process progresses the severity of risks goes on increasing. The MPD process should be critically designed and simulated to minimize the number of risk events and their severity. To successfully develop the products/devices within the manufacturing companies, the process risk management is very essential. A systematic approach to manage risks during MPD process will lead to the development of medical products with expected quality and reliability. This is the first research of its kind having focus on MPD process risks and its management. The methodology adopted in this paper will help the developers, managers and researchers to have a competitive edge over the other companies by managing the risks during the development process. © The Author(s) 2015.","Case study; FMEA; Fuzzy theory; MPD process; Risk management; RPNs",,,,,,"All India Council for Technical Education, अभातशिप: 20/AICTE/RIFD/RPS (POLICY-1) 61/2013-14","This research work is funded by All India Council for Technical Education (AICTE) vide Ref No. 20/AICTE/RIFD/RPS (POLICY-1) 61/2013-14. The authors express sincere thanks to all concerned authorities for the same. The authors are grateful to the management of the company for providing necessary support during field visits for the case study. The authors also thank the esteemed reviewers for their valuable suggestions in improving the quality of this paper.",,,,,,,,,,"Braceras, I., Ipinazar, E., De Maeztu, M.A., Alava, J.I., Risk analysis and implants (2008) Med Eng Phy, 30 (9), pp. 1201-1204; Browning, T.R., Deyst, J.J., Eppinger, S.D., Adding value in product development by creating information and reducing risk (2002) IEEE Trans Eng Manag, 49 (4), pp. 443-458; Cagliano, A.C., Grimaldi, S., Rafele, C., A systemic methodology for risk management in healthcare sector (2011) Safety Sci, 49 (5), pp. 695-708; Chalupnik, (2009) International Conference on Engineering Design, ICED’09, 2427, pp. 1-12. , August, Stanford University, Stanford, CA, USA; Chan, S.L., Ip, W.H., Zhang, W.J., Integrating failure analysis and risk analysis with quality assurance in the design phase of medical device development (2012) Int J Prod Res, 50 (8), pp. 2190-2203; Cheng, S., Das, D., Pecht, M., Using failure modes, mechanisms, and effects analysis in medical device adverse event investigations (2011) In: ICBO: International Conference on Biomedical Ontology Buffalo, , NY, USA; Choi, H.G., Ahn, J., Risk analysis models and risk degree determination in new product development: A case study (2010) J Eng Tech Manag, 27 (12), pp. 110-124; Cooper, L.P., A research agenda to reduce risk in new product development through knowledge management: A practitioner perspective (2003) J Eng Tech Manag, 20 (12), pp. 117-140; (2012), I.S. 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Unger, D.W., Eppinger, S.D., Comparing product development processes and managing risk (2009) Int J Prod Dev, 8 (4), pp. 382-402; Unger, D., Eppinger, S., Improving product development process design: A method for managing information flows, risks, and iterations (2011) J Eng Des, 22 (10), pp. 689-699; Vencheh, A., Hejazi, S., Eslaminasab, Z., A fuzzy linear programming model for risk evaluation in failure mode and effects analysis (2013) Neural Comput Appl, 22 (6), pp. 1105-1113; Yin Robert, K., (1984) Case Study Research: Design and Methods, , Sage Publications, Newbury Park; Zhang, Z., Chu, X., Risk prioritization in failure mode and effects analysis under uncertainty (2011) Exp Sys App, 38 (1), pp. 206-214","Kirkire, M.S.; Department of Mechanical Engineering, India; email: milind.kirkire@gmail.com",,,"SpringerOpen",,,,,17355702,,,,"English","J. Ind. Eng. Int.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85007011203
"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Analysis of interactions among the barriers to JIT production: Interpretive structural modelling approach",2015,"Journal of Industrial Engineering International","11","3",,"331","352",,48,"10.1007/s40092-014-0092-4","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85007010629&doi=10.1007%2fs40092-014-0092-4&partnerID=40&md5=bbb9b5bbe9abf55c8c3e9497354a6f65","Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; All India Council for Technical Education (AICTE), 7th Floor, Chanderlok Building, Janpath, New Delhi, 110 001, India","Jadhav, J.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; Mantha, S.S., All India Council for Technical Education (AICTE), 7th Floor, Chanderlok Building, Janpath, New Delhi, 110 001, India; Rane, S.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India","‘Survival of the fittest’ is the reality in modern global competition. Organizations around the globe are adopting or willing to embrace just-in-time (JIT) production to reinforce the competitiveness. Even though JIT is the most powerful inventory management methodologies it is not free from barriers. Barriers derail the implementation of JIT production system. One of the most significant tasks of top management is to identify and understand the relationship between the barriers to JIT production for alleviating its bad effects. The aims of this paper are to study the barriers hampering the implementation of successful JIT production and analysing the interactions among the barriers using interpretive structural modelling technique. Twelve barriers have been identified after reviewing literature. This paper offers a roadmap for preparing an action plan to tackle the barriers in successful implementation of JIT production. © The Author(s) 2014.","Barriers; High performance manufacturing (HPM); Interpretive structural modeling (ISM); JIT production; Just-in-time (JIT); Lean manufacturing",,,,,,,,,,,,,,,,,"Ahmad, S., Schroeder, R.G., Mallick, D.N., The relationship among modularity, functional coordination, and mass customization: Implications for competitiveness (2010) Eur J Innov Manag, 13 (1), pp. 46-61; Ahuja, V., Yang, J., Shankar, R., Benefits of collaborative ICT adoption for building project management (2009) Constr Innov, 9 (3), pp. 323-340; Al-Abdallah, G.M., Abdallah, A.B., Hamdan, K.B., The impact of supplier relationship management on competitive performance of manufacturing firms (2014) Int J Bus Manag, 9 (2), pp. 192-202; Alfieri, A., Cantamessa, M., Montagna, F., The SoS approach for lean manufacturing systems (2012) Int J Technol Manag, 57 (123), pp. 149-165; Aloini, D., Dulmin, R., Mininno, V., Risk assessment in ERP projects (2012) Inf Syst, 37 (3), pp. 183-199; Altekar, R.V., (2005) Supply Chain Management: Concepts and Cases, , Prentice-Hall of India Private Limited, New Delhi; Arogyaswamy, B., Simmons, R.P., Thriving on interdependence: the key to JIT implementation (1991) Prod Inventory Manag J, 32 (3), pp. 56-61; Attri, R., Nikhil Dev, N., Sharma, V., Interpretive structural modelling (ISM) approach: An overview (2013) Res J Manag Sci, 2 (2), pp. 3-8. , http://www.isca.in/IJMS/Archive/v2i2/2.ISCA-RJMS-2012-054.pdf, Accessed 2 June 2 2014; Bakri, A., Abdul Rahim, A.R., Yusof, N.M., Ahmad, R., Boosting lean production via TPM (2012) Procedia Soc Behav Sci, 65, pp. 485-491; Barve, A., Kanda, A., Shankar, R., Analysis of interaction among the barriers of third party logistics (2007) Int J Agil Syst Manag, 2 (1), pp. 109-129; Bayo-Moriones, A., Bello-Pintado, A., Merino-Díaz-De-cerio, J., The role of organizational context and infrastructure practices in JIT implementation (2008) Int J Oper Prod Manag, 28 (11), pp. 1042-1066; Benton, W.C., Shin, H., Manufacturing planning and control: The evolution of MRP and JIT integration (1998) Eur J Oper Res, 110 (3), pp. 411-440; Bozarth, C.C., Handfield, R.B., (2008) Introduction to Operations & Supply Chain Management, , Pearson Prentice Hall, New Jersey; Bruun, P., Mefford, R.N., Lean production and the internet (2004) Int J Prod Econ, 89 (3), pp. 247-260; Celley, A.F., Clegg, W.H., Smith, A.W., Vonderembse, M.A., Implementation of JIT in the United States (1986) J Purch Mater Manag, 22 (4), pp. 9-15; Chandramowli, S., Transue, M., Felder, F.A., Analysis of barriers to development in landfill communities using interpretive structural modeling (2011) Habitat Int, 35 (2), pp. 246-253; Charan, P., Shankar, R., Baisya, R.K., Analysis of interactions among variables of supply chain performance measurement system implementation (2008) Bus Process Manag J, 14 (4), pp. 512-529; Cox, J.F., Blackstone, J.H., (2002) APICS Dictionary, , 10th edn. 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Ind. Eng. Int.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85007010629
"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Roadmap for lean implementation in Indian automotive component manufacturing industry: Comparative study of UNIDO model and ISM model",2015,"Journal of Industrial Engineering International","11","2",,"179","198",,57,"10.1007/s40092-014-0074-6","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85007017280&doi=10.1007%2fs40092-014-0074-6&partnerID=40&md5=69c603046887987fa8a68808dcff93af","Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; All India Council for Technical Education (AICTE), 7th Floor, Chanderlok Building, Janpath, New Delhi, 110 001, India","Jadhav, J.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; Mantha, S.S., All India Council for Technical Education (AICTE), 7th Floor, Chanderlok Building, Janpath, New Delhi, 110 001, India; Rane, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan’s Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India","The demands for automobiles increased drastically in last two and half decades in India. Many global automobile manufacturers and Tier-1 suppliers have already set up research, development and manufacturing facilities in India. The Indian automotive component industry started implementing Lean practices to fulfill the demand of these customers. United Nations Industrial Development Organization (UNIDO) has taken proactive approach in association with Automotive Component Manufacturers Association of India (ACMA) and the Government of India to assist Indian SMEs in various clusters since 1999 to make them globally competitive. The primary objectives of this research are to study the UNIDO– ACMA Model as well as ISM Model of Lean implementation and validate the ISM Model by comparing with UNIDO–ACMA Model. It also aims at presenting a roadmap for Lean implementation in Indian automotive component industry. This paper is based on secondary data which include the research articles, web articles, doctoral thesis, survey reports and books on automotive industry in the field of Lean, JIT and ISM. ISM Model for Lean practice bundles was developed by authors in consultation with Lean practitioners. The UNIDO–ACMA Model has six stages whereas ISM Model has eight phases for Lean implementation. The ISM-based Lean implementation model is validated through high degree of similarity with UNIDO–ACMA Model. The major contribution of this paper is the proposed ISM Model for sustainable Lean implementation. The ISM-based Lean implementation framework presents greater insight of implementation process at more microlevel as compared to UNIDO–ACMA Model. © The Author(s) 2014.","Automotive Component Manufacturers Association of India (ACMA); Automotive component manufacturing; Interpretive structural modeling (ISM); Just-in-time (JIT); Lean; Lean practices; Strategies; United Nations Industrial Development Organization (UNIDO)",,,,,,,,,,,,,,,,,"Al Sagheer, A., Applying six sigma to achieve enterprise sustainability: Preparations and aftermath of six sigma projects (2011) J Bus Econ Res, 9 (4), pp. 51-58. , http://www.cluteinstitute.com/ojs/index.php/JBER/article/download/4209/4276, Accessed 01 May 2014; (2012), http://acma.in/pdf/ACMA_Annual_Report_2012-13.pdf, ACMA Annual Report, Accessed 10 Dec 2013; Ahuja, V., Yang, J., Shankar, R., Benefits of collaborative ICT adoption for building project management (2009) Constr Innov, 9 (3), pp. 323-340; Mohammad, A., Keith, P., Interpretive structural modelling of risk sources in a virtual organisation (2011) Int J Prod Res, 49 (20), pp. 6041-6063; Al-Tahat, M.D., Eteir, M., Investigation of the potential of implementing Kaizen principles in Jordanian companies (2010) Int J Prod Dev, 10 (1-2), pp. 87-100; (2009), www.ibef.org, Accessed 15 Dec 2013; Barreto, C., (2013) Indian Auto Components Industry Could Outpace China in the Coming Years, , http://articles.economictimes.indiatimes.com/2013-01-10/news/36258336_1_auto-components-industry-indian-auto-capita-income, ET Bureau, Accessed 22 Dec 2013; Bohnen, F., Maschek, T., Deuse, J., Leveling of low volume and high mix production based on a group technology approach (2011) CIRP J Manufact Sci Technol, 4 (3), pp. 247-251; (2009), http://www.cii.in/webcms/Upload/Auto%20and%20Auto%20Ancillaries%20December20091.pdf, Accessed 6 Dec 2013; Cua, K.O., McKone, K.E., Schroeder, R.G., Relationships between implementation of TQM, JIT, and TPM and manufacturing performance (2001) J Oper Manag, 19 (6), pp. 675-694; De Haan, J., Naus, F., Overboom, M., Creative tension in a Lean work environment: Implications for logistics firms and workers (2012) Int J Prod Econ, 137 (1), pp. 157-164; De Treville, S., Antonakis, J., Could lean production job design be intrinsically motivating? 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Future thought of business, a wipro thought leadership initiative, IND/TMPL/JAN-DEC2013, 5th edn, Accessed 6 Dec 2013; Mesut, Y., Iterated beam search for the combined car sequencing and level scheduling problem (2013) Int J Prod Res; Yokozawa, K., Steenhuis, H.-J., De Bruijn, E.J., The influence of national culture on Kaizen transfer: An exploratory study of Japanese subsidiaries in The Netherlands (2010) Proceedings of the 15Th Annual Cambridge International Manufacturing Symposium: Innovation in Global Manufacturing- New Models for Sustainable Value Capture, pp. 23-24. , http://www2.ifm.eng.cam.ac.uk/cim/symposium2010/proceedings/24_yokozawa.pdf, Cambridge, Accessed 6 May 2013","Jadhav, J.R.; Department of Mechanical Engineering, Bhavan’s Campus, Munshi Nagar, India; email: jrjadhav70@gmail.com",,,"SpringerOpen",,,,,17355702,,,,"English","J. Ind. Eng. Int.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85007017280
"Tayde P., Shastri C., Shah B., Sankpal N., Asabe N., Jeswani H.","55750674200;56685449400;56684166900;56685410400;56685819100;55018575800;","Use of sullage for non-potable purpose",2015,"Proceedings - International Conference on Technologies for Sustainable Development, ICTSD 2015",,,"7095868","","",,,"10.1109/ICTSD.2015.7095868","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84931069354&doi=10.1109%2fICTSD.2015.7095868&partnerID=40&md5=72ab4d39e60382697cb45f5ac7eeb7d0","Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Sardar Patel college of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 58, India","Tayde, P., Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Shastri, C., Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Shah, B., Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Sankpal, N., Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Asabe, N., Civil Engineering Department, Sardar Patel College of Engineering, Munshi Nagar, Andheri (West), Mumbai, 58, India; Jeswani, H., Sardar Patel college of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 58, India","Reusing waste water by appropriate treatment is an effective method for meeting the fresh water demand for construction, cooling, boiler, irrigation and domestic purposes. Greywater (sullage) is the component of domestic waste water which does not contain the toilet effluent. This study aims at treatment of greywater for non-potable purpose, focusing on a non biological treatment technology which is simple, cheap and of portable nature thus having minimum maintenance. Characterization of mixed domestic sullage was done as an initial part of the study. The COD, BOD, TSS, Oil & Grease and Turbidity concentration was found out be 2134, 634, 900, 2309.5 mg/L and 1814 NTU respectively. The primary reason for these high values was gauged to be due to high concentration of cooking oil and detergents in the sample. Based on literature review, a grey water treatment system consisting of coagulation followed by sedimentation, adsorption, filtration and ion exchange is proposed so as to bring the concentration of contaminants upto non potable standards. © 2015 IEEE.","coagulation aided sedimentation; recycle; reuse; sullage","Coagulation; Effluents; Ion exchange; Oils and fats; Potable water; Recycling; Soaps (detergents); Waste treatment; Wastewater treatment; Water filtration; Biological treatment; Domestic purpose; Domestic wastewater; Grey waters; Literature reviews; Minimum maintenances; reuse; sullage; Chemical water treatment",,,,,,,,,,,,,,,,"Vigneswaran, S., Sundaravadivel, M., Wastewater recycle, reuse and reclamation, recycle and reuse of domestic wastewater (2014) Encyclopedia of Life Support Systems, Chapter7, 1; Ray, P.K., World water day 2013 (2013) Science and Culture, , September; Almitra, H.P., (2002) A Policy for Sustainable Waste-Water Management; (2004) Greywater Reuse Study Report, p. 3. , Capital Regional District. NovaTech Consultants Inc., November 1; Al-Mamun, A., Untreated sullage from residential areas, a challenge against inland water policy in malaysia (2009) Enviromedia; Halalsheh, A.M., Grey water characteristics and treatment options for rural areas in Jordan (2007) 4th Annual Paper Meet and 1st Civil Engineering Congress; Marziatamanna, Grey water generation and quality measurement at a specific site in Dhaka city (2011) 4th Annual Paper Meet and 1st Civil Engineering Congress.; Sharma, H., Chippa, R.C., An opportunity for water conservation, A Grey water (cloth washings) and its application (2014) International Journal of Research Aspects of Engineering and Management, 1 (2), pp. 91-94; Kumar, P., Tow Teng, T., Treatment of paper and pulp mill effluent by coagulation (2011) Engineering and Technology, pp. 232-237. , World Academy of Science","Jeswani, H.; Sardar Patel college of Engineering, India","Mande S.Tripathy A.Sarangi R.K.",,"Institute of Electrical and Electronics Engineers Inc.","2015 International Conference on Technologies for Sustainable Development, ICTSD 2015","4 February 2015 through 6 February 2015",,112080,,9781479981878,,,"English","Proc. - Int. Conf. Technol. Sustain. Dev., ICTSD",Conference Paper,"Final","",Scopus,2-s2.0-84931069354
"Khelurkar N., Shah S., Jeswani H.","57217966552;57213233618;55018575800;","A review of radioactive waste management",2015,"Proceedings - International Conference on Technologies for Sustainable Development, ICTSD 2015",,,"7095849","","",,5,"10.1109/ICTSD.2015.7095849","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84931046884&doi=10.1109%2fICTSD.2015.7095849&partnerID=40&md5=ddbe6586ec17a1225666a93826c9e5be","Civil Engineering Department, Sardar Patel College of Engineering, India; Sardar Patel college of Engineering. Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 58, India","Khelurkar, N., Civil Engineering Department, Sardar Patel College of Engineering, India; Shah, S., Civil Engineering Department, Sardar Patel College of Engineering, India; Jeswani, H., Sardar Patel college of Engineering. Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 58, India","Radioactive waste is the waste that is left out after the use of radioactive materials in nuclear reactors or during the production of nuclear weapons. Since, exploitation of radioactive materials was done on a large scale in the past few decades which resulted in production of tremendous amount of radioactive waste, radioactive waste management is a necessary step to deal with it. If not properly disposed, irradiation from radioactive waste will cause serious problems to humans and to the environment. While preparing this paper sincere effort was taken to give a succinct account of: (1) radioactive waste generation in different parts of the world. (2) Classification. (3) Processing. (4) Storage & (5) Treatment of radioactive waste. © 2015 IEEE.","HLW; LLW; Radioactive waste; spent nuclear fuel","Nuclear fuels; Nuclear reactors; Nuclear weapons; Radioactive materials; Sustainable development; Waste treatment; Spent nuclear fuels; Radioactive wastes",,,,,,,,,,,,,,,,"http://www.nei.org/Knowledge-Center/Nuclear-Statistics/World-Statistics, World Statistics. Nuclear Energy Institute; Nuclear Waste. Green Action, , http://www.greenactionjapan.org/modules/english0/index.php?id=8; (2009) CLASSIFICATION of RADIOACTIVE WASTE, , International Atomic Energy Agency. Vienna: IAEA. GSG-1; Description of Radioactive Waste Disposal in JAPAN, , http://www.jaea.go.jp/english/04/ntokai/backend/backend_01_04.html, Japan atomic energy agency; Forsberg, Charles, W., Strategies for radwaste management ORNL, , http://web.ornl.gov/info/ornlreview/rev26-2/text/radmain.html; Reactor Concepts Manual, 10. , USNRC technical training center; Swiss federal nuclear safety insoectorate Ensi, , http://www.ensi.ch/en/waste-disposal/deep-geological-repository; (2009), US member of commerce, Revisiting America's nuclear waste policy. Institute for 21st Century Energy. s. l.: US member of commerce; http://www.safesecurevital.com/safe-secure-vital/spentfuel.html, Entergy corporation. Indian point energy center. [Online] Entergy corporation; Quapp, W.J., Cmi, S., Miller, W.H., (2000), University of Missouri-Columbia,James Taylor, Starmet CMI,Colin Hundley, Starmet CMI,Nancy Levoy, Starmet Corporation DUCRETE: A Cost Effective Radiation Shielding Material. . Chattanooga, TN: s. n; Partitioning and transmutation: Making wastes non radioactive ORNL, , http://web.ornl.gov/info/ornlreview/rev26-2/text/radside1.html, Nuclear energy agency; Radioactive Waste Management: Indian Scenario, , http://www.barc.gov.in/pubaware/nw_n4.html, BARC,DAE,Government of India. Bhabha atomic research centre. [Online]","Jeswani, H.; Sardar Patel college of Engineering. Bhavan's Campus, Munshi Nagar, India; email: j_hansa@spce.ac.in","Mande S.Tripathy A.Sarangi R.K.",,"Institute of Electrical and Electronics Engineers Inc.","2015 International Conference on Technologies for Sustainable Development, ICTSD 2015","4 February 2015 through 6 February 2015",,112080,,9781479981878,,,"English","Proc. - Int. Conf. Technol. Sustain. Dev., ICTSD",Conference Paper,"Final","",Scopus,2-s2.0-84931046884
"Rane A.B., Sudhakar D.S.S., Sunnapwar V.K., Rane S.","56539427300;56771003700;6504099005;56149402100;","Improving the performance of assembly line: Review with case study",2015,"2015 International Conference on Nascent Technologies in the Engineering Field, ICNTE 2015 - Proceedings",,,"7029913","","",,16,"10.1109/ICNTE.2015.7029913","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84924280134&doi=10.1109%2fICNTE.2015.7029913&partnerID=40&md5=4e9b8e8d694ed541bcf4180c25b7916d","Department of Mechanical Engineering, Fr. C.R.I.T., Vashi, Navi Mumbai, India; Department of Production Engineering, Fr. C.R.C.E., Bandra (w), Mumbai, India; Research and Academics, LTCE, Navi Mumbai, India; Department of Mechanical Engineering, SPCE, Andheri(w), Mumbai, India","Rane, A.B., Department of Mechanical Engineering, Fr. C.R.I.T., Vashi, Navi Mumbai, India; Sudhakar, D.S.S., Department of Production Engineering, Fr. C.R.C.E., Bandra (w), Mumbai, India; Sunnapwar, V.K., Research and Academics, LTCE, Navi Mumbai, India; Rane, S., Department of Mechanical Engineering, SPCE, Andheri(w), Mumbai, India","Context: Continuous Improvement in manufacturing to attain manufacturing excellence is today's requirement. It gives cutting edge over the competitors. This has developed lot of interest for the researchers during the last few years. Vehicle Assembly Line being the most complex Assembly line has been active area of research over years and has attracted many researchers. Objective: This paper systematically identifies and unfolds the important parameters by systematic review. Goal of this Research is to develop a novel classification of literature on Assembly Line and to improve the performance of vehicle assembly line using Lean implementation and Simulation approach. Methodology: Total of 116 referred journal articles in the domain of Vehicle assembly are reviewed here. Data is sourced from 40 publications, majority of which includes Elsevier, IEEE, and Springer. Further a mathematical model is developed considering the effect of number of resources, Break time, Downtime of machines and Absenteeism. A real world case study is done for a period of one year in a reputed vehicle assembly manufacturing plant. Results: Analysis of research on Assembly Line Balancing and optimization within many different industrial scenarios has been done her. This paper contributes to existing domain by classifying and comparing the means for input data, constraints and methodology used. It has been classified into five heads. A real world case study is done in reputed Company. Cycle time was reduced from 110 seconds to 100 seconds. Conclusion: It is difficult to perform the experiments like Design of Experiments (DOE) in complex manufacturing systems. Simulation allows us to test different concepts, various options without having to build prototypes. A case study done in Vehicle assembly shows the importance of Simulations to improve its performance measures. Limitations of the Research: The research does not completely optimize the production parameters. It improves the production system performance significantly. © 2015 IEEE.","Lean; Mathematical modeling; Optimization; Search Algorithm; Simulation","Assembly machines; Balancing; Design of experiments; Industrial research; Manufacture; Mathematical models; Optimization; Vehicle performance; Assembly line balancing; Complex manufacturing systems; Continuous improvements; Lean; Manufacturing excellence; Production parameters; Search Algorithms; Simulation; Assembly",,,,,,,,,,,,,,,,"Jomah, A.A.A., Mat, T.R.B., (2012) Enhancing Efficiency of Automobile Assembly Line Using the Fuzzy Logical and Multi-Objective Genetic Algorithm, , WCCI 2012 IEEE World Congress on Computational Intelligence June, 10-15, -Brisbane, Australia; Alabdulkarim, A.A., Ball, P.D., Tiwari, A., Rapid modeling of field maintenance using discrete event simulation Proceedings of the 2011 Winter Simulation Conference; Adham Ali, A.J., Tahar, R.B.M., Optimum efficiency of production line in automobile manufacture (2012) African Journal of Business Management, 6 (20), pp. 6266-6275. , 23 May; Agnetis, A., Pacifici, A., Rossi, F., Lucertini, M., Nicoletti, S., Nicolb, F., Oriolo, G., Pesaro, E., Scheduling of flexible flow lines in an automobile assembly plant (1997) European Journal of Operational Research, 97, pp. 348-362. , Elsevier; Ali, A., Hamid, S., Simulation intelligence and modeling for manufacturing uncertainties Proceedings of the 2006 Winter Simulation Conference; Nearchou, A.C., Maximizing production rate and workload smoothing in assembly lines using particle swarm optimization (2011) Int. 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Production Economics, 129, pp. 242-250. , Elsevier; Arunkumar, Y.G., Rajashekar, P., Mohankumar, S., Discrete event simulation for increasing productivity in digital manufacturing (2012) International Journal of Engineering Research and Development ISSN: 2278-067X, 1 (10), pp. 36-40. , June; Berger, (2011) Development of A Discrete Simulation Model for A Light Rail Vehicle Assembly Line, , ISSN 1726-9679; Aykut, B., (2012) Simple Assembly Line Balancing Problem (SASSEMBLY LINE BALANCINGP) Type 2, , May 18; Caputo, F., Gironimo, G.D., Marzano, A., Ergonomic optimization of a manufacturing system work cell in a virtual environment (2006) Acta Polytechnica, 46 (5); Vigyan, C., (2003) Huang Zhongdong, 33 (2). , May; Manuel, C., Ósca, C., Damas, S., Bautista, J., Multiobjective constructive heuristics for the 1/3 variant of the time and space assembly line balancing problem: Aco and random greedy search (2010) Information Sciences, 180, pp. 3465-3487. , Elsevier; Manuel, C., Óscar, C., Damas, S., Bautista, J., A robustness information and visualization model for time and space assembly line balancing under uncertain demand (2013) Int. 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"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Supply risks in JIT implementation",2015,"International Journal of Business Performance and Supply Chain Modelling","7","2",,"141","170",,11,"10.1504/IJBPSCM.2015.069920","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85027467820&doi=10.1504%2fIJBPSCM.2015.069920&partnerID=40&md5=549b015a41fe89c72fcf608a89aafb79","Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; All India Council for Technical Education (AICTE), Chanderlok Building, Janpath, New Delhi, 110 001, India","Jadhav, J.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; Mantha, S.S., All India Council for Technical Education (AICTE), Chanderlok Building, Janpath, New Delhi, 110 001, India; Rane, S.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India","Risk is inevitable and inherent element for running any business. Management must be aware of the risks involved. It should evaluate the consequences of risks and device a risk mitigation plan accordingly; otherwise the business may get collapsed. For more than 20 years, supply chain management practices adopting lean or just-in-time (JIT) concepts to trim down waste within the overall supply chain. Adoption of JIT concepts in purchase has reduced total supply chain costs, however lead to inbuilt complexity and risks. One of the most significant tasks of top management is to recognise and address critical supply risks in JIT adoption. The objective of this paper is to explore and categorise significant supply risks in JIT implementation from buyer's perspective. Thirty JIT supply risks have been identified and discussed after reviewing the relevant literature. © 2015 Inderscience Enterprises Ltd.","JIT; Just-in-time; Lean supply chain; SCM; Supply chain management; Supply risk",,,,,,,,,,,,,,,,,"Agarwal, A., Shankar, R., Tiwari, M.K., Modeling the metrics of lean, agile and leagile supply chain: An ANP-based approach (2006) European Journal of Operational Research, 173 (1), pp. 211-225; Ashida, M., Plinke, E., (2004) Made in China-Is This a Sustainable Label? 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J. Bus. Perform. Supply Chain Model.",Article,"Final","",Scopus,2-s2.0-85027467820
"Sayed S.S.M., Sawant P.H.","57189381362;55861694500;","Life-cycle cost and financial analysis of energy components in mass housing projects – A case project in sub-urban India",2015,"International Journal of Sustainable Built Environment","4","2",,"202","221",,6,"10.1016/j.ijsbe.2015.07.001","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85001104592&doi=10.1016%2fj.ijsbe.2015.07.001&partnerID=40&md5=062eaaa89b6798d1707841b8c1651bd6","Civil Engineering Department, Sardar Patel College of Engineering (SPCE), University of Mumbai, India; Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India; Civil Engineering Section, MHSS COE & Research Scholar, SPCE, Univ of Mumbai, India; SPCE, Univ of Mumbai, India","Sayed, S.S.M., Civil Engineering Department, Sardar Patel College of Engineering (SPCE), University of Mumbai, India, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India, Civil Engineering Section, MHSS COE & Research Scholar, SPCE, Univ of Mumbai, India; Sawant, P.H., Civil Engineering Department, Sardar Patel College of Engineering (SPCE), University of Mumbai, India, Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, 400 058, India, SPCE, Univ of Mumbai, India","Environmental concern based designs are becoming essential in urban India. Shift of population from rural to urban cities is leading to the associated burden of mass housing facilities. The paper discusses the economic feasibility of using energy conservation green components by performing their life cycle cost analysis (LCCA) in large mass housing projects. A total of six components including solar applications have been evaluated for a case project placed in Mumbai suburban location in India. LCCA is performed from the projections of Wholesale price indices and wholesale market price fluctuations of the commodities. Labour cost projections are performed from minimum wages provided by the ministry. For calculation of savings, exponential increase in electricity tariff is considered. The capital cost of energy components contributes in the range of 5–7% to the conventional built up area cost. LCCA suggests that the significant share of cost is related to maintenance, repair and replacement activities of all components. Financial analysis results suggest that the components provide a payback of 11 years at 8% discounting rate and 7 years at non discounted values. The results of this study are expected to benefit investors in mass housing projects for their financial and budgetary decision making in implementing energy efficient based design. © 2015","Green component; Life cycle cost; Life cycle saving; Solar Power; Whole sale price",,,,,,,,,,,,,,,,,"Arpke, A., Hutzler, N., Operational life cycle assessment and life cycle cost analysis for water use in multi occupant buildings (2005) J. Archit. Eng., 11 (3), pp. 99-109; Asif, M., Muneer, T., Kelley, R., Life cycle assessment: a case study of a dwelling home in Scotland (2007) Build. Environ., 42 (3), pp. 1391-1394; Blackhurst, M., Hendrickson, C., Matthews, H.S., Cost-effectiveness of green roofs (2010) J. Architect. 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November; (2011), GoI, Nov. Report of the working group On Coal & lignite For Formulation of Twelfth five year plan (2012–2017); Ministry of Labour and Employment, GoI, Report on the working of the Minimum Wages Act, 1948 (2009), Labour Bureau Chandigarh/Shimla; (2012), http://minimumwagesact1948.blogspot.in/2010/12/central-sphere.html, Office of the Deputy Chief Labour Commissioner (C), 1 Oct. Area wise Rates of Minimum Wages for Scheduled Employments in the Central Sphere. New Delhi. Available at: <> (accessed Sept.10, 2014); (2010), GoI, –2011. Implementation of the programme on Development of Solar Cities” 11th Plan period 2010–11.Circular no No. 5 /10/2010-11/ST; (2012), GoI, Jan. Report of the working group On Power for Twelfth plan (2012–2017); (2010), http://www.urbanindia.nic.in/./strategic_plan_draft_new.pdf.pdf, GoI, -11.Strategic Plan of Ministry of Urban Development for 2011-2016. <> (accessed Dec. 20, 2013); (2011), https://mmrda.maharashtra.gov.in/documents/10180/763094/27-Villages+Development+Control+Regulations+Old.pdf/b3d805e7-882b-4648-bfa6-5db7fba4af4a?version=1.0, Oct. Draft development control regulations for 27 villages of Kalyan and Ambarnath Tehsil, Thane district, Maharashtra. Available at: < > (accessed Sept.10, 2014); Noam, I., (2006), S., Dan, G., Report on an economic feasibility study of green buildings in Vancouver. January 1–20; Nouni, M.R., Mullick, S.C., Kandpal, T.C., Photovoltaic projects for decentralized power supply in India: a financial evaluation (2006) Energy Policy, 34 (18), pp. 3727-3738; Ochoa, L., Hendrickson, C., Matthews, H., Economic input-output life-cycle assessment of U.S. residential buildings (2002) J. Infrastruct. Syst., 8 (4), pp. 132-138; Prakash, R., Bhat, I.K., Energy, economics and environmental impacts of renewable energy systems (2009) Renew. Sustain. Energy Rev., 13 (9), pp. 2716-2721; (2012), “District Schedule Rates 2012-13.” Mumbai, India; (2009), The geographic mismatch and a ranking of Indian states by their labour ecosystem. (Labour Demand, Labour Supply, Labour Laws). India Labour Report 2009; Tellnes, L.G.F., Scenarios for biodegradable solid waste management and energy recovery in the'A’Ward in Mumbai, India (2010); Zhang, Z., Wu, X., Yang, X., Zhu, Y., BEPAS–a life cycle building environmental performance assessment model (2006) Build. Environ., 41 (5), pp. 669-675","Sayed, S.S.M.; Civil Engineering Section, India; email: shagufta_saher@yahoo.co.in",,,"Elsevier B.V.",,,,,22126090,,,,"English","Int. J. Sustain. Environ.",Article,"Final","All Open Access, Hybrid Gold",Scopus,2-s2.0-85001104592
"Tawade M.S., Maurya R.S.","57189491344;57225420052;","Numerical Study of Flow Structure Developing Around Double Suction Pipe of a Pumping System",2015,"Procedia Engineering","127",,,"809","815",,1,"10.1016/j.proeng.2015.11.416","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84971370467&doi=10.1016%2fj.proeng.2015.11.416&partnerID=40&md5=053c0270ac192c3de3adbb3a86ce1a62","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Tawade, M.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Maurya, R.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","The vortex formation at pump intake is a common problem encountered by practicing engineers of pumps. The vortex formation due to low submergence and high intake velocity leads to mechanical damage to impeller and loss of pump performance. In order to meet the flow requirement, sometimes multiple pumping systems are used where suction pipes are located nearby. Because of this arrangement, the performance of the pumps gets influenced. The objective of the present work is to investigate the mechanism of flow structure developing around a suction pipe of a pump. Work has been executed using ANSYS Fluent. The flow patterns of double pipe pump intake system is examined and discussed under various flow conditions. The suction effect on approaching flow near the bell mouth is examined using numerical modeling. The swirl angle in pump intake system is used to evaluate its performance. The results indicate that the pump becomes less efficient with decrease in submergence depth. © 2015 The Authors.","Fluent; Multiphase; Suction; Sump; VOF; Vortex","Flow structure; Heat transfer; Intake systems; Mass transfer; Pumping plants; Vortex flow; Flow requirements; Fluent; Mechanical damages; Multiphase; Practicing engineers; Pump intake systems; Suction; Sump; Pumps",,,,,,,,,,,,,,,,"Deborah, I., Tatsuaki, N., Subsurface vortex suppression in water intake with multiple pump sumps (1997) IIHR Technical Reportno, 389; Constantinu, G.S., Patel, V., Numerical model for simulation of pump-intake flow and vortices (1998) Journal of Hydraulic Engineering, 124 (2), pp. 123-134; Rajendran, V.P., Constantinu, S.G., Patel, V.C., Experimental validation of numerical model of flow in pump intake bay (1999) Journal of Hydraulic Engineering, 125 (11), pp. 1119-1125; Okamura, T., Kamemoto, K., Matsui, J., CFD Prediction and model experiment on suction vortices in pump sump (2007) Proc. of 9th Asian International Conference on Fluid Machinery, Korea, pp. 1-10. , Oct 16-19, AICFM9-053; Li, H., Chen, H., Experimental and numerical investigation of free surface vortex (2008) Journal of Hydrodynamics, 20 (4), pp. 485-491; Zhan, J., Wang, B., Yu, L., Numerical investigation of flow patterns in different pump intake systems (2012) Journal of Hydrodynamics, 24 (6), pp. 873-882; Kim, C.G., Choi, Y.D., Choi, J.W., Lee, Y.H., A study on the effectiveness of an anti-vortex device in the sump model by experiment and CFD (2012) IOP Conference Series: Earth and Environmental Science, 15 (7), p. 072004; Adrian, C., Method for mitigating the negative effect of vortex motion inside the suction chambers of centrifugal pumps Incas Bulletin, 5 (3), pp. 37-44; Wei-Liang, C., Shih-Chun, H., Kao-Shu, H., Numerical and experimental study of pump sump flows (2014) Mathematical Problems in Engineering, 2014, pp. 1-20; Luca, C., Matteo, N., Gianfranco, C., Experimental study on unstable free surface vortices and gas entrainment onset conditions (2014) Experimental Thermal and Fluid Science, 52, pp. 221-229","Tawade, M.S.; Department of Mechanical Engineering, India; email: mstawade@gmail.com","Srinivasacharya D.","","Elsevier Ltd","International Conference on Computational Heat and Mass Transfer, ICCHMT 2015","30 November 2015 through 2 December 2015",,121597,18777058,,,,"English","Procedia Eng.",Conference Paper,"Final","All Open Access, Gold",Scopus,2-s2.0-84971370467
"Gadekar A.U., Nagla R.J., Pimple B.B.","57188733689;57188746323;36976185300;","Injection of reactive power into the grid by polar voltage control technique for wind power applications",2015,"IET Conference Publications","2015","CP679",,"","",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84962663567&partnerID=40&md5=dc369067d942b0624efa44b73d5758a5","Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","Gadekar, A.U., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Nagla, R.J., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Pimple, B.B., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India","This study proposes a novel technique for integration of off - shore wind generation system to conventional grid. The technique is used to control the output of voltage source inverter. Output voltages of inverter are synthesized by using space vector pulse width modulation (SVPWM) in stationary reference frame. In this control scheme, control voltages are obtained in polar form and hence SVPWM implementation is easier at constant switching frequency. The scheme can be used for the control of induction motor drives exploring furthermore, solar power based drive applications such as agricultural pump-sets, compressors, fans etc. The simulation study is carried out in MATLAB/SIMULINK on a 100KVA inverter.","Reactive power injection; Space vector modulation (SVPWM); Stationary reference frame (SRF); Voltage source inverter (VSI)","Agricultural robots; Electric inverters; Induction motors; MATLAB; Pulse width modulation; Reactive power; Solar energy; Switching frequency; Vector spaces; Voltage control; Wind power; Constant switching frequency; Induction motor drive; Reactive power injections; Space vector pulse width modulation; Space-vector modulation; Stationary reference frames; Voltage source inverter; Wind generation system; Electric power system control",,,,,,,,,,,,,,,,"Akwukwaegbu, I.O., Ibe, O.G., Concepts of reactive power control and voltage stability methods in power system network (2013) ISOR Journal of Computer Engineering (ISOR-JCE), 11 (2), pp. 15-25. , p-ISSN: 2278-8727 May; Blaabjerg, F., Chen, Z., Kjaer, S.B., Power electronics as efficient interface in dispersed power generation systems (2004) IEEE Transactions on Power Electronics, 19 (5), pp. 1184-1194. , September; Executive Summary Report Power Sector, , www.powermin.nic.in/reports/monthly/executive_rep/dec14.pdf, Government of India, Ministry of Power, Central Electricity Authority, New-Delhi; Jeong, G.Y., Park, T.J., Kwon, B.H., Line - Voltage-sensorless active power filter for reactive power compensation (2000) IEE Proc.-Electr. Power Appl., 147 (5), pp. 385-390. , September; Krause, P.C., Wasynczuk, O., Sudhoff, S.D., Analysis of Electrical Machines and Drive Systems 2nd Edition, , Wiley International Publication; Kazierkowski, M., Krishnan, R., Blaabjerg, F., Control in Power Electronics-selected Problems; Pimple, B.B., Vekhande, V.Y., Feranandes, B.G., A new direct torque control of doubly fed induction generator for wind power generation (2011) Power Electronics (IICPE), pp. 1-5. , January; Pouresmaeil, E., Montesinos-Miracle, D., Gomis-Bellmunt, O., Control scheme of three-level H-bridge converter for interfacing between renewable energy resources and AC grid Power Electronics and Applications (EPE 2011), Proceedings of the 201114th European Conference, pp. 1-9; Pouresmaeil, E., Miguel-Espinar, C., Massot-Campos, M., Montesinos-Miracle, D., Gomis-Bellmunt, O., A control technique for integration of DG-units to electrical networks (2013) IEEE Transactions on Industrial Electronics, 16 (7), pp. 2881-2893. , July; Tsai-Fu, W.U., Chang, C.-H., Lin, L.-C., Yu, G.-R., Chang, Y.-R., A D-Σ digital control for three-phase inverter to achieve active and reactive power injection (2014) IEEE Transaction on Industrial Electronics, 61 (8), pp. 3879-3890. , August",,,,"Institution of Engineering and Technology","International Conference on Renewable Power Generation, RPG 2015","17 October 2015 through 18 October 2015",,119843,,9781785610400,,,"English","IET Conf Publ",Conference Paper,"Final","",Scopus,2-s2.0-84962663567
"Godbole K.M., Sawant P.H., Das B.B., Dhanuskar J.R.","57033007000;55861694500;57194530763;57226052351;","Prediction of service life of concrete structure from half-cell potentiometer data – Validation based on case study",2015,"International Journal of Applied Engineering Research","10","14",,"34420","34427",,1,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84940112239&partnerID=40&md5=41366f99dfd4f77ab0986399d9132739","Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; National Institute of Construction Management and Research, Indore, India; Datta Meghe College of Engineering, Airoli, Navi Mumbai, India","Godbole, K.M., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Sawant, P.H., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Das, B.B., National Institute of Construction Management and Research, Indore, India; Dhanuskar, J.R., Datta Meghe College of Engineering, Airoli, Navi Mumbai, India","This paper presents a brief review of the models developed by earlier researchers to predict the service life of the reinforced concrete structure with consideration to design, materials, quality control, construction technology, environmental factors and the maintenance/monitoring strategy adopted. In addition, a number of case studies on the concrete structures under marine environment were considered for the life performance assessment through non destructive half-cell potentiometer test data. The results of the remaining service life obtained from the model are compared with the actual field condition and it is found that both are matching appropriately. © Research India Publications.","Chloride; Concrete; Corrosion; Cracking; Service life model",,,,,,,,,,,,,,,,,"Bazant, Z.P., Physical model for steel corrosion in concrete sea structures-applications (1979) J Struct Div, pp. 1155-1165. , June; Cady, Weyers, R.E., Service life model for concrete structures in chlorideladen environments (1998) ACI Mater J, 95 (4), pp. 445-453; Christensen, T.P., Stochastic Modelling of the Crack Initiation Time for Reinforced Concrete Structures (2000) ASCE Structures Congress, Philadelphia, 8p; Godbole, K.M., Sawant, P.H., Das, B.B., Advanced Research in Civil and Environmental Engineer (JOARCEE) (2014) J.Adv. Res. Civil Env. Eng, 1 (3-4), pp. 1-16. , Corrosion Assessment Of Reinforced Steel Bars In Concrete Structures Exposed to Under Marine Environment. - Bridge Case Study.” ISSN: 2393-8307; Gebreselassie, K.A., (2011) Effects of Freeze-Thaw and Salt-Water Exposure on the Corrosive Environment in Bridge Decks, , Thesis (M.S. Civil Eng.)--Lawrence Technological University; Maaddawy, T.E., Soudki, K., A Model for prediction of time from corrosion initiation to corrosion cracking (2003) Cement and Concrete Composites, 29, pp. 168-175; Miki, F., Predicting Corrosion-free Service Life of a Concrete Structure in a Chloride Environment (1990) Acl Materials Journal, 87 (6), pp. 581-587; Morinaga, S., (1988) Prediction of Service Lives of Reinforced Concrete Buildings Based on Rate of Corrosion of Reinforcing Steel, 82p. , Report No. 23, Shimizu Corp, Japan; Sohanghpurwala, A.A., (2006) Service Life of Corrosion Damaged Reinforced Concrete Bridge Superstructure Elements, , NCHRP report 558, Transportation Research Board, Washington DC; Weyers, R.E., Service life model for concrete structures in chloride laden environments (1998) ACI Mater J, 95 (4), pp. 445-453; Yuan, Y., Ji, Y., Modeling Corroded Section Configuration of Steel Bar in Concrete Structure (2009) Construction and Building Materials, 23, pp. 2461-2466","Das, B.B.; National Institute of Construction Management and ResearchIndia",,,"Research India Publications",,,,,09734562,,,,"English","Int. J. Appl. Eng. Res.",Article,"Final","",Scopus,2-s2.0-84940112239
"Deshmukh P.D., Thampi G.T., Kalamkar V.R.","57218315306;36601395300;37060998400;","Investigation of quality benefits of ERP implementation in Indian SMEs",2015,"Procedia Computer Science","49","1",,"220","228",,25,"10.1016/j.procs.2015.04.247","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84938937864&doi=10.1016%2fj.procs.2015.04.247&partnerID=40&md5=4e71cff6b7b7959e674e0a8714bbc8c9","Department of Mechanical Engineering, SPCE, Mumbai University, India; Department of Information Technology, TSCE, Bandra, Mumbai University, India; Department of Mechanical Engineering, VNIT, Nagpur, Nagpuri University, India","Deshmukh, P.D., Department of Mechanical Engineering, SPCE, Mumbai University, India; Thampi, G.T., Department of Information Technology, TSCE, Bandra, Mumbai University, India; Kalamkar, V.R., Department of Mechanical Engineering, VNIT, Nagpur, Nagpuri University, India","ERP (Enterprise Resource Planning) systems are now viewed as powerful information technology solution for SMEs (Small and Medium scale Enterprises) in India, in order to remain competitive in the global knowledge based business. ERP paves a good path to streamline the internal and external processes of enterprise and promotes qualitative development in the work and work process. This paper systematically investigates effects of training, project management, hardware and software, skills of workforce and top management's support on quality aspects. For this investigation data is collected from 95 SMEs in India. Factor analysis is carried out to ensure different types of validities. Further effect of each factor on quality aspect is analysed with the help of regression model. Analysis clearly gives the insight about relative importance of various factors affecting Quality aspects and prioritises them to achieve maximum quality benefits. © 2015 The Authors. Published by Elsevier B.V.","Benefits of ERP implementation; ERP; ERP in Indian SMEs; Quality benefits influencing ERP implementation in indian SMEs","Factor analysis; Knowledge based systems; Project management; Quality control; Regression analysis; ERP implementation; External process; Global knowledge; Hardware and software; Information technology solutions; Quality aspects; Regression model; Small and medium scale enterprise; Enterprise resource planning",,,,,,,,,,,,,,,,"Internet's Role in the Performance of India's Small and Medium Enterprises, , http://ficci.com/spdocument/20349/Nathan-India_18-July-2013; (2012) Needs and Challenges of SMEs in India, , www.ciol.com, Jan 12; (2010) Small and Medium Enterprises, , http://en.wikipedia.org/wiki, accessed on Jan; Al-Mashari, M., Enterprise resource planning (ERP) systems: A research agenda (2002) Industrial Management & Data Systems, 102, pp. 165-170; Usage of Information & Communication Technology (ICT) Tools by Indian SMEs and Its Impact on Their Business Automating-2012, , http://www.ficci.com/Sedocument/20197/survey-msme.pdf; Quote to Cash, How ERP Helps Discrete Manufacturers Improve Responsiveness, , http://manufacturersblognotions.tradepub.com-/?pt=adv&page=Epicor%20Software%20Corporation; Muscatello, J.R., (2002) An Exploratory Study of the Implementation of Enterprise Resource Planning (ERP), , Dissertation, Cleveland State University J. R; Kale, P.T., Banwait, S.S., Laroiya, S.C., Enterprise resource planning implementation in Indian SMEs: Issues and challenges (2009) Business Process Management Journal, pp. 242-248; Future of Indian Entrepreneurship, , http://smeworld.org/story-/features/role-of-smes-sector-in-the-emerging-indian-economy.php; Davenport, T.H., Harris, J.G., Cantrell, S., Enterprise systems and ongoing process change (2004) Business Process Management, 10 (1), pp. 16-26; Van Everdingen, Y., Hillegersberg, J., Waarts, E., ERP adoption by European midsize companies (2000) Communications of the ACM, 43 (4), pp. 27-31; Nah, F., Lau, J., Critical factors for successful implementation of enterprise systems (2001) Business Process Management Journal, 7 (3), pp. 285-296; Raj Singla, A., Goyal, D.P., Managing risk factors in design and implementation of erp systems (an empirical investigation of the Indian industry) (2004) IAMOT Conference Archive, , IAMOT; Buonanno, G., Faverio, P., Pigni, F., Ravarini, A., Sciuto, D., Tagliavini, M., Factors affecting ERP system adoption: A comparative analysis between SMEs and large companies (2005) Journal of Enterprise Information Management, 18 (4), pp. 384-426; Wu, F., Liu, C., Li, H.Z., Gao, K., Tian, J., The measures evaluation of erp project investment based on real options (2006) IEEE International Conference on Systems, pp. 4078-4083. , Man, and Cybernetics, 1-4244-0099-6; Jafari, S.M., Osman, M.R., Yusuf, R.M., Tang, S.H., ERP systems implementation in Malaysia: The importance of critical success factors (2006) Engineering and Technology, 3, pp. 125-131; Woo, H.S., Critical success factors for implementing ERP: The case of a Chinese electronics manufacturer (2007) Journal of Manufacturing Technology Management, 18 (4), pp. 431-442; Upadhyay, P., Dan, P.K., ERP in Indian SME's: A post implementation study of the underlying critical success factors (2009) International Journal of Management Innovation System, 1 (2); Iskanius, P., Risk management in ERP project in the context of SMEs (2009) Engineering Letters, 17 (4); Noudoostbeni, A., Yasin, N.M., Jenatabadi, H.S., To investigate the success and failure factors of ERP implementation within Malaysian small and medium enterprises (2009) Conference on Information Management and Engineering, pp. 157-160. , icime; Garg, P., Critical failure factors for enterprise resource planning implementations in Indian retail organizations: An exploratory study (2010) Journal of Information Technology Impact, 10 (1), pp. 35-44; Ganesh, L., Mehta, A., Critical failure factors in enterprise resource planning implementation at Indian SME (2010) Asian Journal of Management Research; Garg, P., Critical success factors for enterprise resource planning implementation in Indian retail industry: An exploratory study (2010) International Journal of Computer Science and Information Security, 8 (2); (2010) Prime Minister's Task Force on Macro, Small and Medium Scale Enterprises, Government of India, , http://msme.gov.in/PM_MSME_Task_Force_Jan2010.pdf; Hakim, A., Hakim, H., A practical model on controlling the ERP implementation risks (2010) Information System (ELSEVIER), 35 (2), pp. 204-214; Saini, S., Nigam, S., Misra, S.C., Success factors for implementing ERP in SMEs in India: A conceptual model (2010) Information Management and Engineering (ICIME), pp. 165-169. , IEEE, 978-1-4244-5263-7; Kumar, V., Maheshwari, B., Kumar, U., An investigation of critical management issues in ERP implementation: Empirical evidence from canadian organizations (2010) The International Journal of Technological Innovation, Entrepreneurship and Technology Management, pp. 793-807. , Technovation, Elsevier; Papaioanno, E., Sarmaniotis, C., Assimakopoulos, C., Georgiadis, C.K., A successful deployment of an ERP system: A case study of a small Greek company (2011) 8th ICESAL; Dixit, A.K., Prakash, O., A study of issues affecting ERP implementation in SMES (2011) International Refereed Research Journal, 2 (2); Sen, C.G., Baracli, H., Selcuk Sen, B., Basligil, H., An integrated decision support system dealing with qualitative and quantitative objectives for enterprise software selection (2009) Expert Systems with Applications, ELSEVIER, 36 (3), pp. 5272-5283; Garg, V.K., Venkitakrishan, N.K., (2009) ERP Concepts and Practice, , second edition, PHI; Singla, A.R., (2008) ERP, , Cengage Learning; Leon, A., (2009) ERP, , TMH; (2010) ERP Definition, , http://www.erpdefinition.net/, accessed on 11-Jan; (2010) Advantages-disadvantages-of-erp-enterprise-resource-planning-system, , http://www.excitingip.com/2010, accessed on Jan; Cloud ERP for SMEs, , http://www.workxmate.com/saas-software/cloud-erp.html; (2009) Small and Medium Enterprises (SMEs) in India, , http://www.dsir.gov.in/reports/mitcon-/chap2.pdf, accessed on Dec; Upadhyay, P., Dan, P.K., An explorative study to identify the critical success factors for ERP implementation in Indian small and medium scale enterprises (2008) IEEE, pp. 295-299; How to access trade finance: A guide for exporting SMEs (2009) International Trade Centre; Kotelnikov, V., Small and Medium Enterprises and ICT, , Asia-Pacific Development Information Programme; (2013), http://entrepreneurindia.in/people-/specials/smes-and-budget-2013/18704/; The Challenges of Introducing ERP in SMEs, , http://www.roland-berger.com/media/news/2013-12-17-rbsc-news-Challenges_of-introducing_-ERP_in_SMEs.html; Thapliyal, M.P., Vashishta, P., ERP software implementation in Indian small and medium enterprises (2012) International Journal of Emerging Trends & Technology in Computer Science (IJETTCS), 1 (2). , August; Advantages and Disadvantages of Using Open Source ERP Technology, , http://eastvantage.blogspot.in/2012/04/advantages-and-disadvantages-of-using.html#.U6G9q6iSxgk; (2011) From Aspiration to Achievement: ERP for Growing SMEs, SMB Group, , http://www.smb-gr.com/wp-content/uploads-/2012/pdfs/SAP_Business_All_in_One_paper1.pdf, Oct; http://manufacturers-blognotions.tradepub.com/free/w_epic48/; Summer, M., (2005) ERP, , Prentice Hall; Evolution-of-ERP, , http://www.erppandit.com/Evolution-ofERP.html; Erp Evolution and What It Means to Business, , http://it.toolbox.com-/blogs/inside-erp/erp-evolution-and-what-it-means-to-business-56130; Science and Technology for Small & Medium Scale Enterprises(SMES), , http://dst.gov.in/about_us/11th-plan/rep-subsme.pdf; Hair, Black, Babin, Adrson, Tatyham, (2011) Multivariate Data Analysis, , Sixth Edition, Pearson Publication; Leon, A., Enterprise Resource Planning, , Second Edition, Tata Mcgraw Hill; Malhotra, N.K., Das, S., (2011) Marketing Research, An Applied Orientation, , Sixth Edition, Pearson Publication; Youngberg, E., Olsen, D., Hauser, K., Determinants of professionally autonomous end user acceptance in an enterprise resource planning system environment (2009) International Journal of Information Management-Elsevier, 29, pp. 138-144; Xu, Y., Yeh, C.-H., Evaluating critical strategies for enterprise resource planning systems implementation (2009) Second International Symposium on Electronic Commerce and Security; Sun, Y., Bhattacherjee, A., Ma, Q., Extending technology usage to work settings: The role of perceived work compatibility in ERP implementation (2009) Information & Management Elsevier Ltd; Lin, C.-C., Shih, D.-H., Information system reengineering for enterprise resource planning as businesses adapting to the EBusiness era (2009) World Congress on Software Engineering; Malhotra, R., Temponi, C., Critical decisions for ERP integration: Small business issues (2010) International Journal of Info Management; Prasad, A., Heales, J., Green, P., A capabilities-based approach to obtaining a deeper understanding of information technology overnance effectiveness: Evidence from IT steering committees (2010) International Journal of Accounting Information Systems-ELSEVIER; Ojelanki, M.P., Ngwenyama, K., Rohlf, K., A comparative analysis of learning curves: Implications for new technology implementation management (2010) European Journal of Operational Research-ELSEVIER; Trkman, P., The critical success factors of business process management (2010) International Journal of Information Management, 30. , ELSEVIER, 2010; Yao, L.J., Liu, C., Chan, S.H., The influence of firm specific context on realizing information technology business value in manufacturing industry (2010) International Journal of Accounting Information Systems, 11. , ELSEVIER, 2010; Zhu, Y., Li, Y., Wang, W., Chen, J., What leads to post-implementation success of ERP? An empirical study of the Chinese retail industry (2010) International Journal of Information Management, 30. , ELSEVIER, 2010; Santamaría-Sánchez, L., Nú Ñez-Nickel, M., Gago-Rodríguez, S., The role played by interdependences in ERP implementations: An empirical analysis of critical factors that minimize elapsed time (2010) Information & Management, 47. , ELSEVIER, 2010; Lewandowski, J., Salako, A.O., Garcia-Perez, A., SaaS enterprise resource planning systems: Challenges of their adoption in SMEs (2013) IEEE 10th International Conference on E-Business Engineering; Edward, W.N., A technological, organizational, and environmental analysis of decision making methodologies and satisfaction in the context of IT induced business transformations (2013) European Journal of Operational Research-ELSEVIER","Deshmukh, P.D.; Department of Mechanical Engineering, India; email: pddeshmukh7@mail.com","Unnikrishnan S.Surve S.K.Bhoir D.",,"Elsevier B.V.","Proceedings of International Conference on Advances in Computing, Communication and Control, ICAC3 2015","1 April 2015 through 2 April 2015",,117158,18770509,,,,"English","Procedia Comput. Sci.",Conference Paper,"Final","All Open Access, Bronze",Scopus,2-s2.0-84938937864
"Deshmukh P.D., Thampi G.T.","57218315306;36601395300;","Empirical analysis of factors influencing ERP implementation in Indian SMEs",2014,"Proceedings of the 2014 International Conference on Advances in Computing, Communications and Informatics, ICACCI 2014",,,"6968625","2058","2062",,2,"10.1109/ICACCI.2014.6968625","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84927647830&doi=10.1109%2fICACCI.2014.6968625&partnerID=40&md5=2abbba4a8f7c570d8c879772e5d1f5b9","Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Information Technology, Thadomal Shahani Engineering College, India","Deshmukh, P.D., Sardar Patel College of Engineering, Andheri, Mumbai, India; Thampi, G.T., Department of Information Technology, Thadomal Shahani Engineering College, India","Small and medium scale enterprises (SMEs) are opting for ERP (enterprises resource planning) implementation to stay competitive in International market. The aim of the SMEs to opt for ERP implementation principally is to manage and standardize business process effectively so as to stream line variety of local and global compliance requirement of customer. In developing countries like India, SMEs represent spinal cord of Indian economy which is contributing about 17 % to India's Gross Domestic Products (GDP) and 45 % to aggregate industrial output as per FICCI (The Federation of Indian Chambers of Commerce and Industry) report, 2013. However SMEs are facing challenges to provide high quality product at low cost. Literature shows successful implementation of ERP in large scale enterprises however unable to derive ERP implementation in Indian SMEs. This paper focuses on identification of factors for successful implementation of ERP in Indian SMEs through exhaustive industrial survey in different type of industries ranging from manufacturing to service sector. Further paper describes the procedure for analyzing the identified factors so as to prioritize them for successful implementation of ERP in SMEs. © 2014 IEEE.","ERP; ERP in Indian SMEs; Factors Influencing ERP Implementation in Indian SMEs; SMEs In India","Developing countries; International trade; Service industry; Surveys; Enterprises resource planning; ERP implementation; Gross domestic products; High-quality products; Industrial outputs; International markets; Small and medium scale enterprise; SMEs In India; Enterprise resource planning",,,,,,,,,,,,,,,,"Internet's Role in the Performance of India's Small and Medium Enterprises, , http://ficci.com/spdocument/20349/Nathan-India_18-July-2013, FICCI report; Needs and Challenges of SMEs in India, , www.ciol.com, Jan 12 2012; Small and Medium Enterprises, , http://en.wikipedia.org/wiki, accessed on Jan-2010; Al-Mashari, M., Enterprise resource planning (ERP) systems: A research agenda (2002) Industrial Management & Data Systems, 102, pp. 165-170; Usage of Information & Communication Technology (ICT) Tools by Indian SMEs and Its Impact on Their Business Automating-2012, , http://www.ficci.com/Sedocument/20197/surveymsme.pdf, FICCI Report; Quote to Cash, How ERP Helps Discrete Manufacturers Improve Responsiveness, , http://manufacturersblognotions.tradepub.com-/?pt=adv&page=Epicor%20Software%20Corporation; Muscatello, J.R., (2002) An Exploratory Study of the Implementation of Enterprise Resource Planning (ERP), , Dissertation, Cleveland State University J. R; Kale, P.T., Banwait, S.S., Laroiya, S.C., Enterprise Resource Planning implementation in Indian SMEs: Issues and challenges (2009) Business Process Management Journal, pp. 242-248; Future of Indian Entrepreneurship, , http://smeworld.org/story-/features/role-of-smes-sector-in-the-emerging-indian-economy.php; Davenport, T.H., Harris, J.G., Cantrell, S., Enterprise systems and ongoing process change (2004) Business Process Management, 10 (1), pp. 16-26; Van Everdingen, Y., Hillegersberg, J., Waarts, E., ERP adoption by European midsize companies (2000) Communications of the ACM, 43 (4), pp. 27-31; Nah, F., Lau, J., Critical factors for successful implementation of enterprise systems (2000) Business Process Management Journal, 7 (3), pp. 285-296; Raj Singla, A., Goyal, D.P., Managing risk factors in design and implementation of erp systems (an empirical investigation of the Indian industry) (2004) IAMOT Conference Archive, IAMOT; Buonanno, G., Faverio, P., Pigni, F., Ravarini, A., Sciuto, D., Tagliavini, M., Factors affecting ERP system adoption: A comparative analysis between SMEs and large companies (2005) Journal of Enterprise Information Management, 18 (4), pp. 384-426; Wu, F., Liu, C., Li, H.Z., Gao, K., Tian, J., The measures evaluation of erp project investment based on real options (2006) IEEE International Conference on Systems, Man, and Cybernetics, pp. 4078-4083. , 1-4244-0099-6; Jafari, S.M., Osman, M.R., Yusuf, R.M., Tang, S.H., ERP systems implementation in Malaysia: The importance of critical success factors (2006) Engineering and Technology, 3, pp. 125-131; Woo, H.S., Critical success factors for implementing ERP: The case of a chinese electronics manufacturer (2007) Journal of Manufacturing Technology Management, 18 (4), pp. 431-442; Upadhyay, P., Dan, P.K., ERP in Indian SME's: A post implementation study of the underlying critical success factors (2009) International Journal of Management Innovation System, 1 (2); Iskanius, P., Risk management in ERP project in the context of SMEs (2009) Engineering Letters, 17 (4); Noudoostbeni, A., Yasin, N.M., Jenatabadi, H.S., To investigate the success and failure factors of erp implementation within malaysian small and medium enterprises (2009) International Conference on Information Management and Engineering (ICIME), pp. 157-160; Garg, P., Critical failure factors for enterprise resource planning implementations in indian retail organizations: An Exploratory Study (2010) Journal of Information Technology Impact, 10 (1), pp. 35-44; Ganesh, L., Mehta, A., Critical failure factors in enterprise resource planning implementation at indiansme (2010) Asian Journal of Management Research; Garg, P., Critical success factors for enterprise resource planning implementation in indian retail industry: An exploratory study (2010) International Journal of Computer Science and Information Security, 8 (2); (2010) Prime Minister's Task Force on Macro,Small and Medium Scale Enterprises, , http://msme.gov.in/PM_MSME_Task_Force_Jan2010.pdf, Report Government of India; Hakim, A., Hakim, H., A practical model on controlling the ERP implementation risks (2010) Information System (ELSEVIER), 35 (2), pp. 204-214; Saini, S., Nigam, S., Misra, S.C., Success factors for implementing ERP in SMEs in India: A Conceptual Model (2010) Information Management and Engineering (ICIME), pp. 165-169. , IEEE, 978-1-4244-5263-7; Kumar, V., Maheshwari, B., Kumar, U., An investigation of critical management issues in ERP implementation: Empirical evidence from Canadian organizations (2010) The International Journal of Technological Innovation, Entrepreneurship and Technology Management, Technovation, pp. 793-807. , Elsevier; Papaioanno, E., Sarmaniotis, C., Assimakopoulos, C., Georgiadis, C.K., A successful deployment of an ERP system: A case study of a small Greek company (2011) 8th ICESAL; Ashish Dixit, Kr., Prakash, O., A study of issues affecting ERP implementation in SMES (2011) International Refereed Research Journal, 2 (2); Gungor Sen, C., Baracl, H., Selcuk Sen, B., Baslgil, H., An integrated decision support system dealing with qualitative and quantitative objectives for enterprise software selection (2009) Expert Systems with Applications, 36 (3), pp. 5272-5283. , ELSEVIER; Kumar Garg, V., Venkitakrishan, N.K., (2009) ERP Concepts and Practice, , second edition, PHI; Raj Singla, A., ERP (2008) Cengage Learning; Leon, A., ERP (2009) TMH; ERP Definition, , http://www.erpdefinition.net/, accessed on 11-Jan-2010; Advantages-disadvantages-of-erp-enterprise-resource-planningsystem, , http://www.excitingip.com/2010, accessed on Jan-2010; Cloud ERP for SMEs, , http://www.workxmate.com/saassoftware/cloud-erp.html; Small and Medium Enterprises (SMEs) in India, , http://www.dsir.gov.in/reports/mitcon-/chap2.pdf, accessed on Dec-2009; Upadhyay, P., Dan, P.K., An explorative study to identify the critical success factors for ERP implementation in Indian small and medium scale enterprises (2008) IEEE, pp. 295-299; How to access trade finance: A guide for exporting SMEs (2009) International Trade Centre, , Report; Kotelnikov, V., Small and medium enterprises and ict Asia-Pacific Development Information Programme; SMEs and Budget 2013, , http://entrepreneurindia.in/people-/specials/smes-and-budget-2013/18704/; The Challenges of Introducing ERP in SMEs, , http://www.rolandberger.com/media/news/2013-12-17-rbsc-news-Challenges_ofintroducing_-ERP_in_SMEs.html; Thapliya, M.P., Vashishta, P., ERP software implementation in indian small and medium enterprises (2012) International Journal of Emerging Trends & Technology in Computer Science (IJETTCS), 1 (2). , August; Advantages and Disadvantages of Using Open Source ERP Technology, , http://eastvantage.blogspot.in/2012/04/advantages-anddisadvantages-of-using.html#.U6G9q6iSxgk; (2011) From Aspiration to Achievement: ERP for Growing SMEs, , http://www.smb-gr.com/wp-content/uploads-/2012/pdfs/SAP_Business_All_in_One_paper1.pdfOct, Report, SMB group; http://manufacturers-blognotions.tradepub.com/free/w_epic48/; (2005) ERP, , Mary Summer Prentice Hall; Evolution-of-ERP, , http://www.erppandit.com/EvolutionofERP.html; Erp Evolution and What It Means to Business, , http://it.toolbox.com-/blogs/inside-erp/erp-evolution-and-what-it-meansto-business-56130; Science and Technology for Small & Medium Scale Enterprises(SMES), , http://dst.gov.in/about_us/11th-plan/rep-subsme.pdf, Report on; Deshmukh, P.D., Kalamkar, V.R., Thampi, G.T., ERP in Indian SMEs: Issues, challenges and Future (2014) International Journal of Research in Advent Technology, 2 (7), pp. 22-28. , July; Hair, B., Babin, A., Tatyham, (2011) Multivariate Data Analysis, , Sixth Edition,Pearson Publication; Leon, A., Enterprise Resource Planning, , Second Edition,Tata Mcgraw Hill; Malhotra, N.K., Das, S., (2011) Marketing Research,An Applied Orientation, , Sixth Edition,Pearson Publication",,"Comer D.E.Mueller P.Mallick B.Mukherjea S.Thampi S.M.Krishnaswamy D.Sikora A.",,"Institute of Electrical and Electronics Engineers Inc.","3rd International Conference on Advances in Computing, Communications and Informatics, ICACCI 2014","24 September 2014 through 27 September 2014",,109476,,9781479930791,,,"English","Proc. Int. Conf. Adv. Comput., Commun. Informatics, ICACCI",Conference Paper,"Final","",Scopus,2-s2.0-84927647830
"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Development of framework for sustainable Lean implementation: an ISM approach",2014,"Journal of Industrial Engineering International","10","3","72","","",,84,"10.1007/s40092-014-0072-8","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85011570045&doi=10.1007%2fs40092-014-0072-8&partnerID=40&md5=e59cb2346064c91a3f94c3beb7aeb8e0","Sardar Patel College of Engineering, Mumbai, Maharashtra, India; All India Council for Technical Education (AICTE), New Delhi, India","Jadhav, J.R., Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Mantha, S.S., All India Council for Technical Education (AICTE), New Delhi, India; Rane, S.B., Sardar Patel College of Engineering, Mumbai, Maharashtra, India","The survival of any organization depends upon its competitive edge. Even though Lean is one of the most powerful quality improvement methodologies, nearly two-thirds of the Lean implementations results in failures and less than one-fifth of those implemented have sustained results. One of the most significant tasks of top management is to identify, understand and deploy the significant Lean practices like quality circle, Kanban, Just-in-time purchasing, etc. The term ‘bundle’ is used to make groups of inter-related and internally consistent Lean practices. Eight significant Lean practice bundles have been identified based on literature reviewed and opinion of the experts. The order of execution of Lean practice bundles is very important. Lean practitioners must be able to understand the interrelationship between these practice bundles. The objective of this paper is to develop framework for sustainable Lean implementation using interpretive structural modelling approach. © 2014, The Author(s).","Interpretive structural modelling (ISM); Just-in-time (JIT); Lean; Practice bundles; Toyota production system (TPS); TPS practices",,,,,,,,,,,,,,,,,"Ablanedo-Rosas, J.H., Alidaee, B., Moreno, J.C., Urbina, J., Quality improvement supported by the 5S, an empirical case study of Mexican organisations (2010) Int J Prod Res, 48 (23), pp. 7063-7087; Ahmad, S., Schroeder, R.G., Sinha, K.K., The role of infrastructure practices in the effectiveness of JIT practices: implications for plant competitiveness (2003) J Eng Tech Manag, 20 (3), pp. 161-191; Ahuja, V., Yang, J., Shankar, R., Benefits of collaborative ICT adoption for building project management (2009) Constr Innov, 9 (3), pp. 323-340; Alawamleh, M., Popplewell, K., Interpretive structural modelling of risk sources in a virtual organisation (2011) Int J Prod Res, 49 (20), pp. 6041-6063; Al-Khafaji, S.K.H., Al-Rufaifi HMR (2012) A Case Study of Production Improvement by Using Lean with Simulation Modeling Proceedings of the 2012 International Conference on Industrial Engineering and Operations Management, pp. 271-279. , Istanbul: Turkey; Aloini, D., Martini, A., Pellegrini, L., A structural equation model for continuous improvement: a test for capabilities, tools and performance (2011) Prod Plan Control Manag Oper, 22 (7), pp. 628-648; Al-Tahat, M.D., Eteir, M., Investigation of the potential of implementing Kaizen principles in Jordanian companies (2010) Int J Prod Dev, 10 (1), pp. 87-100; Anand, G., Kodali, R., Development of a framework for Lean manufacturing systems (2009) Int J Serv Oper Manag, 5 (5), pp. 687-716; Anvari, A., Zulkifli, N., Yusuff, R.M., Evaluation of approaches to safety in Lean manufacturing and safety Management systems and clarification of the relationship between them (2011) World Appl Sci J, 15 (1), pp. 19-26; Attri, R., Nikhil Dev, N., Sharma, V., Interpretive structural modelling (ISM) approach: an overview (2013) Res J Manag Sci, 2 (2), pp. 3-8. , http://www.isca.in/IJMS/Archive/v2i2/2.ISCA-RJMS-2012-054.pdf; Benton, W.C., Shin, H., Manufacturing planning and control: the evolution of MRP and JIT integration (1998) Eur J Oper Res, 110 (3), pp. 411-440; Bhasin, S., Burcher, P., Lean viewed as a philosophy (2006) J Manuf Technol Manag, 17 (1), pp. 56-72; (2003) Split-brains: interhemispheric exchange in creativity, , http://www.its.caltech.edu/~jbogen/text/creat6.htm, Bogen JE, Bogen GM Accessed 15 June 2013; Bortolotti, T., Romano, P., Lean first, then automate: a framework for process improvement in pure service companies. A case study (2012) Prod Plan Control Manag Oper, 23 (7), pp. 513-522; Bozdogan, K., Towards an Integration of the Lean Enterprise System, Total Quality Management System (2010) Six Sigma and Related Enterprise Process Improvement Methods, , Massachusetts: MIT; Braglia, M., Carmignani, G., Zammori, F., A new value stream mapping approach for complex production systems (2006) Int J Prod Res, 44 (18-19), pp. 3929-3952. , 1160.90373; Casey, D., The Role of change leadership in a operations excellence transformation model. Publisher: lulu.com, ISBN-10: 055700425X (2009) ISBN-13, , 978-0557004256; Charan, P., Shankar, R., Baisya, R.K., Analysis of Interactions among variables of supply chain performance measurement system implementation (2008) Bus Proc Manage J, 14 (4), pp. 512-529; Childs, P.R.N., CETL (Centre of Excellence in Teaching and Learning) in Creativity (2006) Annual Report 2005–2006, , InQbate, University of Sussex, UK; Childs, P.R.N., Tsai, S.-K., Creativity in the design process in the turbomachinery industry (2010) J. 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In: Cambridge, 23–24 Sept. at. Accessed May 6 2013; Yrd, D., Omur, Y.S., Analysing the barriers encountered in innovation process through interpretive structural modelling: evidence from Turkey (2010) Yonetim ve Ekonomi, 17 (2), pp. 207-225","Jadhav, J.R.; Sardar Patel College of EngineeringIndia; email: jrjadhav70@gmail.com",,,"SpringerOpen",,,,,17355702,,,,"English","J. Ind. Eng. Int.",Article,"Final","All Open Access, Gold, Green",Scopus,2-s2.0-85011570045
"Kherde R.V., Sawant P.H.","55862061300;55861694500;","Topmodel parameter optimization using Monte Carlo simulation and generalized likelihood uncertainty estimation (GLUE) package",2014,"Journal of Environmental Hydrology","22",,,"1","12",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84893590382&partnerID=40&md5=f5552a32cb92e13a76a313731c1a7798","Symbiosis Institute of Technology, Lavale, Pune, India; Sardar Patel College of Engineering, Andheri, Mumbai, India","Kherde, R.V., Symbiosis Institute of Technology, Lavale, Pune, India; Sawant, P.H., Sardar Patel College of Engineering, Andheri, Mumbai, India","Topography plays an important role in the process of runoff generation dynamics. The TOPMODEL developed by Beven and Kirkby (1979) is a variable source area conceptual model that produces runoff hydrographs using topographic features of the basin. Although the TOPMODEL parameters are physically based and can be determined directly; physical measurement of TOPMODEL parameters may not be possible in data sparse regions. In such cases of ungauged catchments split record test model calibration process that uses the results of Monte Carlo simulation is usually adopted for parameter estimation. The calibration process reflects uncertainty. It is observed that there could be many different parameter sets that simulate the observed stream flow in terms of quantitative goodness of fit measure (Beven and Binley 1992). One set of parameter value is observed to be optimum, but many other from different parts of parameter range are acceptable simulators of runoff. Choosing the optimal parameter set remains a point blank question perhaps in the mind of modelers. This research paper demonstrates a method for arriving at the optimum parameter set whilst it evaluates the applicability of TOPMODEL in Wardha watershed of Maharashtra, India.",,"calibration; conceptual framework; flow modeling; hydrograph; Monte Carlo analysis; numerical model; optimization; parameterization; runoff; streamflow; topographic effect; uncertainty analysis; watershed; India; Maharashtra; Wardha",,,,,,,,,,,,,,,,"Betson, R.P., What is watershed runoff? (1964) J. Geophys. Res., 69 (8), pp. 1541-1552; Beven, K., Kirkby, M.J., A physically-based variable contributing area modelof basin hydrology (1979) Hydrological Sciences Bulletin., 24, pp. 43-69; Beven, K.J., Binley, A.M., The future of distributed models: Model calibration and uncertainty prediction (1992) Hydrological Processes, 6, pp. 279-298; Brasington, J., Richards, K., Interactions between Model predictions. Parameters and DTM Scales for Topmodel (1998) Computers & Geosciences, 24 (4), pp. 299-314; Campling, P., Gobin, A., Beven, K., Feyen, J., Rainfall-runoff modeling of a humid tropical catchment: The TOPMODEL approach (2002) Hydrol. Process., 16, pp. 231-253; Kirkby, M.J., (1969) Infiltration, through flow and overland flow., pp. 215-228. , Water, Earth and Man, Methuen; Quinn, P.F.B.J., Beven, K., Chevallier, P., Planchon, O., The prediction of hillslope flow paths for distributed hydrological modelling using digital terrain models (1991) Hydrological processes, 5 (1), pp. 59-79; Shufen, S., Huiping, D., A Study of Rainfall-Runoff Response in a Catchment Using TOPMODEL (2004) Adv. Atmos. Sci., 21 (1), pp. 87-95; Venkatesh, B., Jain, M.K., Simulation of daily flows using topography based rainfall-runoff model (2000) J. Institution of engineers (India), 81, pp. 127-132; Zhang, W., Montgomery, D.R., Digital elevation model grid size, landscape representation, and hydrological simulations (1994) Water resources Research., 30 (4), pp. 1019-1028","Kherde, R. V.; Symbiosis Institute of Technology, Lavale, Pune, India; email: rkherde@gmail.com",,,,,,,,10583912,,,,"English","J. Environ. Hydrol.",Article,"Final","",Scopus,2-s2.0-84893590382
"Jeswani H., Oke N., Choksi P., Naik A., Mahapatra N., Sayed R.","55018575800;57197775496;57195408496;57202455284;57515661900;57202448586;","Use of pervious concrete as gravity filter",2014,"21st Century Watershed Technology Conference and Workshop 2014: Improving Water Quality and the Environment",,,,"155","163",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85048416903&partnerID=40&md5=76f14574e4a0c53ec03cc20a9dcdeaef","Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India","Jeswani, H., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India; Oke, N., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India; Choksi, P., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India; Naik, A., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India; Mahapatra, N., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India; Sayed, R., Sardar Patel College of Engineering, Bhavan's Campus, Andheri, Mumbai, India","The importance of developing effective water treatment system is universally recognized as a basis for improving the overall health and productivity of population. The goal of water treatment process is to remove existing contaminants in the water. The use of sand filter for removal of impurities and water purification has limitations associated with it, paving the way for new alternatives for slow and rapid gravity filter. Rapid sand filters have high capital and operation costs. It also requires skilled personnel for operation and maintenance. Frequent cleaning (backwashing) is required every 24 to 72 hours. There are other issues related to filter troubles such as air binding, negative head and formation of mud balls. The sand used is required to be changed every 4 to 5 years that is an additional cost. These problems can be tackled with introduction of pervious concrete for filtration purposes. In this study the usage of pervious concrete for filtration purpose is highlighted. It is well known that pervious concrete is traditionally used in parking areas, areas with light traffic, residential streets, pedestrian walkways, and however not much research has been done on its effectiveness to be used for filtration process. Thus, the analysis of using pervious concrete for improving the quality of water is performed by varying water cement ratio and thickness of concrete used in filter in terms of effectiveness in removing contaminants. The removal of contaminants is measured using reduction in turbidity, reduction in total solids and reduction in most probable number (MPN). © 2014 American Society of Agricultural and Biological Engineers. All Rights Reserved.","Gravity Filtration; Most Probable Number; Pervious Concrete; Total Solids; Turbidity","Bandpass filters; Concretes; Impurities; Removal; Turbidity; Water filtration; Water quality; Watersheds; Gravity filtrations; Most probable number; Operation and maintenance; Pervious concrete; Removal of impurities; Total solids; Water treatment process; Water treatment systems; Water treatment",,,,,,,,,,,,,,,,"De Normandie, J., Janette, S., (2002) Combating Diarrhoeal Disease in India Through Safe Drinking Water. Media Report, WHO India; Ahmed, F., Water and sanitation in indias census (2012) Ministry of Home Affairs Publication; (2000) Metcalf & Eddy, Inc., George Tchobanoglous Wastewater Engineering: Treatment and Reuse, Tata McGraw Hill, , Franklin Burton, H. David Stensel; Rehder, B., Banh, K., Neithalath, N., (2014) Fracture Behavior of Pervious Concretes: The Effects of Pore Structure and Fibers, Engineering Fracture Mechanics; Lucka, J.D., Workmana, S.R., Coyneb, M.S., Higginsa, S.F., Solid material retention and nutrient reduction properties of pervious concrete mixtures (2008) Biosystems Engineering, 100, pp. 401-408; Taghizadeh, M.M., Torabian, A., Borghei, M., Hassani, A.H., Feasibility study of water purification using vertical porous concrete filter, a (2007) Thesis Presented to the Graduate School of e Nvironment and Energy Tehran, , Aug; Yahia, A., Daddy Kabagire, K., New approach to proportion pervious concrete (2014) Construction and Building Materials, , March; William, D.M., III, Putman, B.J., Kaye, N.B., (2013) Using Image Analysis to Measure the Porosity Distribution of A Porous Pavement, Construction and Building Materials, , June; Nadgouda, K., Gharat, M., Ghadi, P., Margaje, T., Shirke, E., Gurav, R., (2012) UG Project on Pervious Concrete and Its Applications Submitted in Sardar Patel Col. of Engg; Neptune, A., (2008) Investigation of the Effects of Aggregate Properties and Gradation on Pervious Concrete Mixtures, A, , Thesis Presented to the Graduate School of Clemson University; Neithalath, N., Weiss, J., Olek, J., Predicting the permeability of pervious concrete from non-destructive electrical measurements (2006) Cement and Concrete Research, , in press; Meininger, R., No-fines pervious concrete for paving (1988) Concrete International Journal, pp. 22-23",,,"","American Society of Agricultural and Biological Engineers","21st Century Watershed Technology Conference and Workshop 2014: Improving Water Quality and the Environment","3 November 2014 through 6 November 2014",,136562,,9781510859616,,,"English","Century Watershed Technol. Conf. Workshop : Improv. Water Qual. Environ.",Conference Paper,"Final","",Scopus,2-s2.0-85048416903
"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Exploring barriers in lean implementation",2014,"International Journal of Lean Six Sigma","5","2",,"122","148",,218,"10.1108/IJLSS-12-2012-0014","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84924349834&doi=10.1108%2fIJLSS-12-2012-0014&partnerID=40&md5=3d51f12c561e1000ef46d99bb4c174f3","Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; All India Council for Technical Education (AICTE), New Delhi, India","Jadhav, J.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Mantha, S.S., All India Council for Technical Education (AICTE), New Delhi, India; Rane, S.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Mumbai, India","Purpose-The purpose of this paper is to present an analysis of research on lean focusing on barriers in its implementation through a systematic literature survey.Design/methodology/approach - A literature survey of peer-reviewed journal articles, survey reports, master theses, doctoral theses and paradigmatic books with managerial impact is used as the research methodology.Findings - The findings derived from the evaluation of the publications analyzed have led to the identification of 24 lean barriers. The success of lean implementation will not be entirely based on application of appropriate tools and techniques alone but also on the top managements’ involvement and leadership, workers’ attitude, resources and the organizational culture.Research limitations/implications - This literature survey is primarily focused on lean implementation in the manufacturing sector.Practical implications - This paper explores barriers for successful lean implementation and provides a concise description of the barriers that will be helpful for further studies in the domain of lean manufacturing.Social implications - Government of many countries around the world is encouraging and helping small- and medium-scale industries to understand and implement lean systems by preparing accessible database of lean consultants, providing financial assistance for training by professionals and establishing professional associations. However, many industries experienced failure in lean implementation. This research work provides a launching pad to develop a strategy to tackle barriers for successful lean implementation.Originality/value-This paper puts forward the key barriers that should be tackled for successful lean implementation. It might represent new opportunities for rigorous and relevant research that would contribute to more translucent knowledge of lean being gained. © Emerald Group Publishing Limited.","Barriers; Implementation; Lean; Toyota Production System (TPS)",,,,,,,,,,,,,,,,,"Abdul-Nour, G., Lambert, S., Drolet, J., Adaptation of JIT philosophy and technique to a small-sized manufacturing firms; a project management approach (1998) Computers and Industrial Engineering, 35 (3-4), pp. 419-422; Achanga, P., Shehab, E., Roy, R., Nelder, G., Critical success factors for lean implementation within SMEs (2006) Journal of Manufacturing Technology, 17 (4), pp. 460-471; Adler, P.S., Time-and-motion regained (1993) Harvard Business Review, 71 (1), pp. 97-108; Anand, G., Kodali, R., Development of a framework for implementation of lean manufacturing systems (2010) International Journal of Management Practice, 4 (1), pp. 95-116; Argyris, C., Good communication that blocks learning (1994) Harvard Business Review, 72 (4), pp. 77-85; Argyris, C., Double-loop learning and organizational change: Facilitating transformational change (2004) Dynamics of Organizational Change and Learning, , in Boonstra, J.J, John Wiley & Sons, Chichester; Atkinson, P., Lean is a cultural issue (2010) Management Services, Summer, 54 (2), pp. 35-41. , www.philipatkinson.com/LeanNEW.pdf, (accessed 24 August 2013); Aurelio, D., Grilo, A., Cruz-Machado, V., A framework for evaluating lean implementation appropriateness (2011) Proceedings of IEEE International Conference on Industrial Engineering and Engineering Management, pp. 779-783. , IEEM), Singapore; Axelsson, B., Rozemeijer, F., Wynstra, F., (2005) Developing Sourcing Capabilities: Creating Strategic Change in Purchasing and Supply Chain Management, , John Wiley and Sons, West Sussex; Baines, T., Lightfoot, H., Williams, G.M., Greenough, R., State-of-the-art in lean design engineering: A literature review on white collar lean (2006) Proceedings of the Institution of Mechanical Engineers-Part B-Engineering Manufacture, 220 (9), pp. 1539-1547; Baker, P., Why is lean so far off? (2002) Works Management, pp. 1-4; Ballard, G., Tommelein, I., Lean management methods for complex projects (2012) Engineering Project Organization Journal, 2 (1-2), pp. 85-96; Balle, M., Lean attitute-Lean application often fail to deliver the expected benefits but could the missing link for successful implementations be attitude? (2005) Manufacturing Engineer, 84 (2), pp. 14-19; Bamber, L., Dale, B.G., Lean production: A study of application in a traditional manufacturing environment (2000) Production Planning and Control, 11 (3), pp. 291-298; Barclay, A., Economic organization culture (2010) Journal of Management Research, 2 (1), pp. E6. , www.macrothink.org/journal/index.php/jmr/article/download/244/147, (accessed 24 August 2013); Barker, B., The identification of factors affecting change towards best practice in manufacturing organizations (1998) Management Decision, 36 (8), pp. 549-556; Barrett, B., Fraile, L., Lean at the C-5 galaxy depot: Essential elements of success (2005) Lean Enterprise Change Research Case Studies, , http://dspace.mit.edu/bitstream/handle/1721.1/82006/050323_Barrett,Fraile_C-5GalaxyDepot.pdf?sequence:1; Bateman, N., Rich, N., Companies perceptions of inhibitors and enablers for process improvement activities (2003) International Journal of Operations and Production Management, 23 (2), pp. 185-199; Beatty, P., Obstacles to effective lean implementation (2006) Canadian Manufacturers and Exporters, Management Issues Survey, p. 24. , www.grantthornton.ca/resources/insights/mips/Productivity%20improvement/CME%20Management%20Issues%20Survey%202006_2007%20Balancing%20your%20business%20in%20global%20markets.pdf, (accessed 1 June 2012); Benton, W.C., Shin, H., Manufacturing planning and control: The evolution of MRP and JIT integration (1998) European Journal of Operational Research, 110 (3), pp. 411-440; Bhasin, S., Performance of lean in large organisations (2012) Journal of Manufacturing Systems, 31 (3), pp. 349-357; Bhasin, S., An appropriate change strategy for lean success (2012) Management Decision, 50 (3), pp. 439-458; Bhasin, S., Prominent obstacles to lean (2012) International Journal of Productivity, and Performance Management, 61 (4), pp. 403-425; Bhasin, S., Burcher, P., Lean viewed as a philosophy (2006) Journal of Manufacturing Technology Management, 17 (1), pp. 56-72; Biddle, J., (2006) The Lean Benchmark Report-Closing the Reality Gap, , www.synergyresources.net/pdf/ra_lean_wp.pdf, Aberdeen Group(accessed 1 June 2012); Brown, B.C., Collins, T.R., McCombs, E.L., Transformation from batch to lean manufacturing: The performance issues (2006) Engineering Management Journal, 18 (2), pp. 3-13; Buesa, R.J., Adapting lean to histology laboratories (2009) Annals of Diagnostic Pathology, 13 (5), pp. 322-333; Camagu, S., (2010) Investigating Factors that Negatively Influence Lean Implementation in the Eastern Cape Automotive Industry, , www.nmmu.ac.za/documents/theses/S.%20Camagu.pdf, Master’s thesis, Faculty of Business and Economic Sciences, Nelson Mandela Metropolitan University, Port Elizabeth, South Africa, availableat, (accessed 1 June 2012); Carroll, B.J., (2005) 10 Things a Lean Champion Can Do to Lead the Lean Transformation, , www.scs.com.au/data/thoughtlib/10_Things_Lean_Champion.pdf, Performance Improvement Consulting, Inc(accessed 24 August 2013); Cheung, T., Podolsky, S., (1993) Just-In-Time Manufacturing: An Introduction, , 1st ed, Chapman and Hall, New York, NY; Chual, J., Eze, U.C., Goh, G., Knowledge sharing and total quality management: A conceptual framework (2010) Proceedings of the IEEE International Conference on Industrial Engineering and Engineering Management, pp. 1107-1111. , (IEEM), China; Comm, C.L., Mathaisel, D., A paradigm for benchmarking lean initiatives for quality improvement (2000) Benchmarking: An International Journal, 7 (2), pp. 118-127; Cudney, E., Elrod, C., Incorporating lean concepts into supply chain management (2010) International Journal of Six Sigma and Competitive Advantage, 6 (1-2), pp. 12-30; Cudney, E., Elrod, C., A comparative analysis of integrating lean concepts into supply chain management in manufacturing and service industries (2011) International Journal of Lean Six Sigma, 2 (1), pp. 5-22; Dahlgaard, J.J., Dahlgaard-Park, S.M., Lean production, six sigma quality, TQM and company culture (2006) The TQM Magazine, 18 (3), pp. 263-281; Desson, K., Clouthier, J., Organizational culture – why does it matter? 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J. Lean Six Sigma",Article,"Final","",Scopus,2-s2.0-84924349834
"Umair S.M., Umale S.","57194610533;55318982400;","Calculation of carbon footprint of thermal power station",2014,"International Journal of Applied Engineering Research","9","7 SPEC. ISSUE",,"825","838",,1,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84904015001&partnerID=40&md5=b27d7c7d84bc51c808734c3a234a9968","Sardar Patel College of Engineering, Andheri, Mumbai-58, India; Bhavans college, Varsova Road, Andheri, Mumbai-58, India","Umair, S.M., Sardar Patel College of Engineering, Andheri, Mumbai-58, India; Umale, S., Bhavans college, Varsova Road, Andheri, Mumbai-58, India","Every irreversible process taking place on earth leads to entropy rise of universe and emits some carbon in the atmosphere. We all are aware that thermal power plants play major role in energy generation and at the same time are also responsible for leaving a measurable carbon footprint in the atmosphere. The concept of this research lies in calculation of carbon foot print of Dahanu thermal power station, which is carried out by performing exergy analysis on every component with a detailed analysis of losses occurring at boiler. In order to fully understand the financial impact produced by the losses, exergy at every point of the plant as well as exergy lost are expressed in terms of rupees. Also the individual component losses are expressed in terms of percentage of carbon and coal burned in boiler. Hence the total carbon emitted from the plant is compared with the carbon absorption capacity for the plant field area of 3 acres and the net carbon foot print is calculated. The figures speaks that, today India has to divert its awareness towards reducing the green house gases and replace all the major irreversible component before 2040. © Research India Publications.","Boiler; Carbon; Carbon footprint; Entropy; Exergy; Irreversibility's; Losses",,,,,,,,,,,,,,,,,"Rahmani, A., Bouchami, T., Belaid, S., Bousbia Salah, A., Boulheouchat, M.H., Assessment of boiler tubes overheating mechanism during a postulated loss of feed water accident' (2009) Journal of Applied Thermal Engineering, (29), pp. 501-508; Marek, P., Waclaw, W., The rate of corrosive wear in super heater of boilers for super critical parameters of steam (2012) Journal of Engineering Failure Analysis, (19), pp. 1-12; Qunchen, Funney, K., Li, H., Zhang, X., Zhou, J., Sharif, V., Thenbank, J.S., Considering boiler applications in the process industry' (2012) Applied Energy, (89), pp. 26-30; Yeh, C.-L., Numerical Analysis of the combustion and fluid flow in a Carbon monoxide boiler International Journal of Heat and Mass Transfer, 201 (59), pp. 172-190; Rabacal, M., Fernandes, U., Costa, M., Combustion and emission characteristic of a domestic boiler fired with pellets of pine, Industrial wood waste and peach stones (2013) Renewable Energy, (5), pp. 220-226; Hasti, S., Aroonwilas, A., Veawab, A., Exergy analysis Ultra Super Critical Power plant (2013) Energy Procedia, (37), pp. 2544-2551; Regulagadda, P., Dincer, I., Naterer, G.F., Exergy analysis of a power plant with measured boiler and turbine losses (2010) Applied Thermal Engineering, (30), pp. 970-976; Aljundi, I.H., Energy and Exergy analysis of a steam Power Plant in Jordan' (2009) Applied Thermal Engineering, (29), pp. 324-328; Li, Y., Lei, L., Exergy Analysis of 300 MW coal fired power plant' (2012) Energy Procedia, (17), pp. 926-932; Energy performance Assessment of boilers' Bureau of Energy Efficiency'; Cengel, Y.A., Boles, M.A., (2010) Thermodynamics: An Engineering Approach, , 7th edition' Mc Graw-Hill, ISBN 007, 352932-x; Rajput, R.K., (2010), Thermal Engineering 8th edition' Laxmi Publications (p) Ltd; http:www.arborenviorement.Com, Information on",,,,"Research India Publications",,,,,09734562,,,,"English","Int. J. Appl. Eng. Res.",Article,"Final","",Scopus,2-s2.0-84904015001
"Kherde R.V., Sawant P.H.","55862061300;55861694500;","A GIS based variable source area model for large-scale basin hydrology",2014,"Research Journal of Applied Sciences, Engineering and Technology","7","18",,"3797","3802",,,"10.19026/rjaset.7.736","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84901452514&doi=10.19026%2frjaset.7.736&partnerID=40&md5=76df54c35a40beec270ed0148c4d5eae","Symbiosis Institute of Technology, Lavale, Pune, India; Sardar Patel College of Engineering Andheri, Mumbai, India","Kherde, R.V., Symbiosis Institute of Technology, Lavale, Pune, India; Sawant, P.H., Sardar Patel College of Engineering Andheri, Mumbai, India","A geographic information system-based rainfall runoff model that simulate variable source area runoff using topographic features of the basin is presented. The model simulate the flow processes on daily time step basis and has four non linear stores viz. Interception store, soil moisture store, channel store and ground water store. Source area fraction is modelled as a function of antecedent soil moisture, net rainfall and pore capacity raised to the power of areal average topographic index (∧). Source area fraction is used in conjuction with topographic index to develop linear relations for runoff, Infiltration and interflow. An exponential relation is developed for lower zone evapotranspiration and non-linear exponential relations to model macropore flow and base flow are proposed. © Maxwell Scientific Organization, 2014.","DEM; GIS; Runoff; Topographic index; Variable source area; Wardha river basin",,,,,,,,,,,,,,,,,"Andrew, W.W., Günter, B., On the spatial scaling of soil moisture (1999) J. Hydrol., 217 (3-4), pp. 203-224; Beven, K., Kirkby, M.J., A physically-based variable contributing area model of basin hydrology (1979) Hydrolog. Sci. Bull., 24, pp. 43-69; Dunne, T., Black, R.D., Partial area contributions to storm runoff in a small New England watershed (1970) Water Resour. Res., 6, pp. 1296-1311; Frankenberger, J.R., Brooks, E.S., Walter, M.T., Walter, M.F., Steenhuis, T.S., A GIS-based variable source area model (1999) Hydrol. Process., 13 (6), pp. 804-822; Hewlett, J.D., Soil Moisture as a Source of Base Flow from Steep Mountain Watersheds (1961), Southeast Forest Experiment Station Paper No. 132, USDA Forest Service, Athens, GA; Hewlett, J.D., Some ideas about storm runoff and base flow (1961) Southeast Forest Experiment Station Annual Report, pp. 62-66. , USDA Forest Service, Athens, GA; Maidment, D.R., Developing a Spatially Distributed Unit Hydrograph by Using GIS (1993) HydroGIS 93, pp. 181-192. , In: Kovar, K. and H.P. Nachtnebel (Eds.), International Association of Scientific Hydrology, Publ. No. 211, Wallingford, United Kingdom; Hewlett, J.D., Hibbert, A.R., Factors Affecting the Response of Small Watersheds to Precipitation in Humid Areas (1967), In: Sopper, W.E. and H.W. Lull (Eds.), Forest Hydrology. Pergamon Press, New York; Mehta, V.K., Walter, M.T., Brooks, E.S., Steenhuis, T.S., Walter, M.F., Johnson, M., Boll, J., Thongs, D., Application of SMR to modeling watersheds in the Catskill Mountains (2004) Environ. Model. Assess., 9, pp. 77-89","Kherde, R.V.; Symbiosis Institute of Technology, Lavale, Pune, India",,,"Maxwell Science Publications",,,,,20407459,,,,"English","Res. J. Appl. Sci. Eng. Technol.",Article,"Final","All Open Access, Hybrid Gold, Green",Scopus,2-s2.0-84901452514
"Jadhav J.R., Mantha S.S., Rane S.B.","56149525200;13005618000;56149402100;","Barriers for successful implementation of JIT: A manufacturer perspective",2014,"International Journal of Procurement Management","7","3",,"316","342",,17,"10.1504/IJPM.2014.060790","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84899807046&doi=10.1504%2fIJPM.2014.060790&partnerID=40&md5=e98a334f6a053951ae54d5bef4f083e1","Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri-West, Mumbai 400 058, India; All India Council for Technical Education (AICTE), Chanderlok Building, Janpath, New Delhi - 110 001, India","Jadhav, J.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri-West, Mumbai 400 058, India; Mantha, S.S., All India Council for Technical Education (AICTE), Chanderlok Building, Janpath, New Delhi - 110 001, India; Rane, S.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri-West, Mumbai 400 058, India","Many manufacturing firms adopted just-in-time (JIT) concepts for more than three decades to enhance competitive strength through cost reduction, on time-in full delivery, lead time reduction etc. Extension of JIT production philosophy to purchase and distribution (or with a broader scope throughout the supply chain) is essential to achieve these objectives. The survival of many firms depends on the effectiveness of the inventory management. JIT faces many problems like lack of involvement of employees and workers resistance for continuous improvement, cultural difference, high inventories, long lead time, market volatility, forecasting errors etc. Some critical implementation issues are to be identified and resolved to encourage firms to adopt JIT. The objective of this paper is to explore and discuss the barriers for successful JIT implementation. Twenty two barriers have been identified after reviewing relevant literature. This can be a guide for taking suitable action to deal with barriers in the successful JIT implementation. © 2014 Inderscience Enterprises Ltd.","Barriers; JIT; JIT distribution; JIT production; JIT purchase; Just-in-time; Lean; Lean procurement; SCM; Supply chain management",,,,,,,,,,,,,,,,,"Abdul-Nour, G., Lambert, S., Drolet, J., Adaptation of JIT phylosophy and kanban technique to a small-sized manufacturing firm; a project management approach (1998) Computers and Industrial Engineering, 35 (3-4), pp. 419-422. , PII S0360835298001235; Achanga, P., Shehab, E., Roy, R., Nelder, G., Critical success factors for lean implementation within smes (2006) Journal of Manufacturing Technology Management, 17 (4), pp. 460-471; Adair-Heeley, C.B., JIT purchasing: Seven steps for successful implementation (1988) Production and Inventory Management Review and APICS News, 8 (12), pp. 22-23; Adler, P., Shared learning (1990) Management Science, 36 (8), pp. 938-957; Agus, A., Hajinoor, M.S., Lean production supply chain management as driver towards enhancing product quality and business performance case study of manufacturing companies in Malaysia (2012) International Journal of Quality & Reliability Management, 29 (1), pp. 92-121; Akbulut-Bailey, A.Y., Motwani, J., Smedley, E.M., When lean and six sigma converge: A case study of a successful implementation of lean six sigma at an aerospace company (2012) International Journal of Technology Management, 57 (1-2), pp. 18-32. , 3; Alfieri, A., Cantamessa, M., Montagna, F., The sos approach for lean manufacturing systems (2012) Int. J. Technology Management, 57 (1-2), pp. 149-165. , 3; Altekar, R.V., (2005) Supply Chain Management: Concepts and Cases, , Prentice-Hall of India Private Limited, New Delhi; Anand, G., Kodali, R., Analysis of lean manufacturing frameworks (2010) Journal of Advanced Manufacturing Systems, 9 (1), pp. 1-30; Annamalai, V.E., Matrix ownership: A model for quality reliability in procurement (2012) International Journal of Procurement Management, 5 (1), pp. 27-42; Ansari, A., Survey identifies critical factors in successful implementation of just-in-time purchasing techniques (1986) Industrial Engineering, 18 (10), pp. 46-50; Ansari, A., Modarress, B., (1990) Just-in-Time Purchasing, , Free Press, New York; Ansari, A., Modarress, B., Just-in-time purchasing: Problems and solutions (1986) Journal of Purchasing and Materials Management, 22 (2), pp. 11-15; Arnold, U., Bernard, K.N., Just in time: Some marketing issues raised by a popular concept in production and distribution (1989) Technovation, 9 (5), pp. 401-430; Arrow, K., The economic implications of learning by doing (1962) Review of Economic Studies, 29 (3), pp. 155-173; Arya, P., Supply chain optimisation to go lean: Challenges in the Indian context (2011) Proceedings of Tenth International Conference on Operations and Quantitative Management (ICOQM-10), pp. 1112-1119. , http://www.icmis.net/infoms/icoqm10/ICOQM10CD/pdf/P438-Final.pdf, Nashik, India, 28-30 June 2011 [online] (accessed 3 February 2013; Balakrishnan, J., Bowen, F., Eckstein, A.L.H., A strategic framework for managing failure in JIT supply chains (2008) International Journal of Information Systems and Supply Chain Management, 1 (4), pp. 20-38. , http://dspace.ucalgary.ca/bitstream/1880/46676/3/Balakrishnan-JISSCM.pdf, [online] (accessed 3 February 2013; Just in Time Distribution, , http://www.studymode.com/essays/Barilla-Spa-Just-Time-Distribution-99578. html, Barilla Spa [online]; Bayraktar, E., Demirbag, M., Koh, S.C.L., Tatoglu, E., Halil, Z., A causal analysis of the impact of information systems and supply chain management practices on operational performance: Evidence from manufacturing SMEs in Turkey (2009) International Journal of Production Economics, 122 (1), pp. 133-149; Benton, W.C., Shin, H., Manufacturing planning and control: The evolution of MRP and JIT integration (1998) European Journal of Operational Research, 110 (3), pp. 411-440. , PII S0377221798000800; Bhasin, S., Burcher, P., Lean viewed as a philosophy (2006) Journal of Manufacturing Technology Management, 17 (1), pp. 56-72. , DOI 10.1108/17410380610639506; Biddle, J., (2006) The Lean Benchmark Report - Closing the Reality Gap, , http://www.aberdeengroup.com, March, Aberdeen Group [online] or http:// www.synergyresources.net/pdf/ ra-lean- wp.pdf (accessed 1 June 2012; Bozarth, C.C., Handfield, R.B., (2008) Introduction to Operations & Supply Chain Management, , Pearson Prentice Hall New Jersey; Brown, C.B., Collins, T.R., McCombs, E.L., Transformation from batch to lean manufacturing: The performance issues (2006) EMJ - Engineering Management Journal, 18 (2), pp. 3-13; Brox, J.A., Fader, C., The set of just-in-time management strategies: An assessment of their impact on plant-level productivity and input-factor substitutability using variable cost function estimates (2002) International Journal of Production Research, 40 (12), pp. 2705-2720; 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J. Procure. Manage.",Article,"Final","",Scopus,2-s2.0-84899807046
"Kumbhar S., Main J., Desai M.","56034982100;56035900400;56034598300;","Reuse potential of treated sewage from sequencing batch reactor",2013,"International Journal of Applied Engineering Research","8","17 SPEC. ISSUE",,"2011","2015",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84893955307&partnerID=40&md5=7e3b67f09f4b6f6c62923aa1cb7c2d00","Civil Engineering Department, SPCE, Mumbai University, Munshi Nagar, Andheri, Mumbai, India; Civil Engineering Department, VJTI, Mumbai University, Matunga, Mumbai, India; SFC Environmental Engineering Pvt.ltd, Vashi, Navi Mumbai, India","Kumbhar, S., Civil Engineering Department, SPCE, Mumbai University, Munshi Nagar, Andheri, Mumbai, India; Main, J., Civil Engineering Department, VJTI, Mumbai University, Matunga, Mumbai, India; Desai, M., SFC Environmental Engineering Pvt.ltd, Vashi, Navi Mumbai, India","Treated Sewage may be considered as new water resource in the developing, developed and water scarcity countries. The objective of paper is not only to find out potential of reuse but also it should be economical reuse. This study was initially focused on the advanced wastwater treatment method, Sequencing Batch Reactor (SBR) and reuse standards which are suggested by Centre for Public Health and Environmental Engineering Organization (CPHEEO) & Central Pollution Control Board (CPCB) for Indian region. Thus this paper presents the potential of reuse in terms of quantity as well as quality from Sequencing Batch Reactor technology. Some representative plants had been selected for case study. In each case study, the water quality parameters getting by analysis are nearly fulfil the reuse standards given by CPHEEO as well as CPCB for reuse in India. © Research India Publications.","Reuse; Sequencing Batch Reactor (SBR); Sewage",,,,,,,,,,,,,,,,,"Tchobanoglous, G., Burton, F.L., (1991) Wastewater Engineering-Treatment, Disposal, and Reuse, , Metcalf & Eddy, Inc. Revised by, McGraw-Hill, New York; Devi, M., Samad, M., (2010) Wastewater treatment and Reuse: An institutional analysis for Hyderabad, INDIA, pp. 513-523; Friedler, E., Water reuse, an integral part of water resources management: Israel as a case study (2001) Journal Elsevier Science, pp. 29-39; (1993) Manual on Sewage and Sewerage Treatment, , CPHEEO Manual, The Government of India, New Delhi","Civil Engineering Department, , Munshi Nagar, Andheri, Mumbai, India",,,,,,,,09734562,,,,"English","Int. J. Appl. Eng. Res.",Article,"Final","",Scopus,2-s2.0-84893955307
"Banndekar V., Bandivadekar T.P.","56001018200;55818326900;","Pushover analysis of 15 storey steel building using passive damper system for enhancing seismic performance",2013,"Safety, Reliability, Risk and Life-Cycle Performance of Structures and Infrastructures - Proceedings of the 11th International Conference on Structural Safety and Reliability, ICOSSAR 2013",,,,"4093","4099",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84892421341&partnerID=40&md5=cb32d0a301b11fc685e5300a3a1ab4a7","Sardar Patel College of Engineering, Mumbai, India; Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai, India","Banndekar, V., Sardar Patel College of Engineering, Mumbai, India; Bandivadekar, T.P., Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai, India","Energy induced by strong earthquakes affects the structure. The seismic performance as well as response of the structure will be substantially improved if this energy is dissipated in a manner independent of structural components. Push over analysis of 15 storey steel building which will be used as commercial building, with concrete shear wall core and typical floor area 4334.4 m2was performed. The structure is modeled using the finite element program SAP and is analysed using both non-linear static pushover analysis and non-linear time history analysis. The building is situated in Earthquake zone III, the design of which is conforming to recent IS codes. Push over analysis is performed to verify life safety performance based design for design earthquake. Use of passive dampers for improvement of seismic performance and enhancing design of new structure has increased in recent years. The main objective of the study is to assess the improvement in seismic performance achieved through use of the passive devices, and the suitability of various dampers for the seismic response of frames fitted with dissipative devices. Passive dampers are installed in existing lay out. They are either viscous dampers or friction dampers or combination of the two. It is shown that modifications made to the original code-based design using passive damper system satisfies the design objective of Life Safety performance expected to be achieved under design earthquake. Keywords: push over analysis, seismic performance, passive dampers. © 2013 Taylor & Francis Group, London.",,"Commercial building; Concrete shear wall; Dissipative devices; Finite element programs; Push-over analysis; Seismic Performance; Structural component; Time history analysis; Design; Earthquakes; Office buildings; Reliability; Safety engineering; Seismic design; Seismic response; Seismic waves; Finite element method",,,,,,,,,,,,,,,,"Chopra, A.K., Goel, R.K., A modal pushover analysis procedure for estimating seismic demands for buildings (2002) Earthquake Engineering Structural Dynamics, 31 (3), pp. 561-582; (1996) Seismic Evaluation and Retrofit of Concrete Buildings, 1-2. , ATC-40. "", "", Applied Technology Council, California; (1997) NEHRP Guidelines for the Seismic Rehabilitation of Buildings, , FEMA-273. "", "" Federal Emergency Management Agency, Washington DC; (2000) Prestandard and Commentary for the Seismic Rehabilitation of Buildings, , FEMA-356. "", "" Federal Emergency Management Agency, Washington DC; Criteria for Earthquake Resistant Design of Structures, , IS 1893-2000; (2003) International Building Code, , International Code Council, Inc, 2002; Tabeshpour, M.R., Ebrahimian, H., Seismic retrofit of existing structures using friction dampers (2010) Asian Journal of Civil Engineering (Building and Housing), 11 (4), pp. 509-520; Rana, R., Jin, L., Atilazekoiglu, Push over analysis of a 19 storey concrete shear wall building (2004) 13thWorld Conference on Earthquake Engineering, , Vancouver, B. C. Canada, Paper No. 133","Sardar Patel College of Engineering, Mumbai, India",,,,"11th International Conference on Structural Safety and Reliability, ICOSSAR 2013","16 June 2013 through 20 June 2013","New York, NY",101944,,9781138000865,,,"English","Saf., Reliab., Risk Life-Cycle Perform. Struct. Infrastructures - Proc. Int. Conf. Struct. Saf. Reliab., ICOSSAR",Conference Paper,"Final","",Scopus,2-s2.0-84892421341
"Kherde R.V., Sawant P.H.","55862061300;55861694500;","Integrating geographical information systems (GIS) with hydrological modelling -applicability and limitations",2013,"International Journal of Engineering and Technology","5","4",,"3374","3381",,2,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84884518540&partnerID=40&md5=fea6089fae9e28ee6ef80e78fac2ea5d","Department of Civil Engineering, Symbiosis Institute of Technology, Lavale, Pune, India; Sardar Patel college of Engineering, Mumbai, India","Kherde, R.V., Department of Civil Engineering, Symbiosis Institute of Technology, Lavale, Pune, India; Sawant, P.H., Sardar Patel college of Engineering, Mumbai, India","The evolution of Geographic information systems (GIS) facilitated the use digital terrain data for topography based hydrological modelling. The use of spatial data for hydrological modelling emerged from the great capability of GIS tools to store and handle the data associated hydro-morphology of the basin. These models utilize the spatially variable terrain data for converting rainfall into surface runoff. Manual map manipulation has always posed difficulty in analysing and designing large scale water resources projects. Water flows down the hill slope -this clears the importance of terrain modelling in watershed management. Thus the coupling of hydrological model into GIS environment has gained significant interest of scientists and engineers. Most of the commercial GIS tools are equipped with the capability to handle spatial data for producing better cartographic output. Although the capacity of these tools in analysing geo-spatial data is still limited yet the process of complex watershed analysis is far enhanced by the use of these tools. Many a times the capability of GIS software's for solving the problem in hand is not clearly understood. This poses difficulty in formulating the watershed information system for use in water resources planning and management. This paper describes the attempts made by researchers for integration of GIS and hydraulic modeling for analysis of watersheds.",,,,,,,,,,,,,,,,,,"Journal of professional issues in Engineering Education and Practice, 124 (2). , GIS TECHNOLOGY FOR CIVIL ENGINEERING EDUCATION, April, 1998. ©ASCE, ISSN 0733-9453/98/0002-0040-0047; Journal of Surveying Engineering, 125 (1). , GIS-BASED APPROACH TO SEWER SYSTEM DESIGN, February, 1999. ©ASCE, ISSN 0733-9453/99/0001-0036-0057; Journal of Computing in Civil Engineering, 21 (5). , GIS-Based Engineering Management Service Functions: Taking GIS beyond Mapping for Municipal Governments, September 1, 2007. ©ASCE, ISSN 0887-3801/2007/5-331-342; Journal of Water Resources Planning and Management, 118 (5). , HYDROLOGIC PARAMETER ESTIMATION USING GEOGRAPHIC INFORMATION SYSTEM, September/October, 1992. ©ASCE, ISSN 0733-9496/92/0005-0492; Journal of Water Resources Planning and Management, 119 (2). , IMPLEMENTATION OF GIS FOR WATER RESOURCES PLANNING AND MANAGEMENT, March/April, 1993. ©ASCE, ISSN 0733-9496/93/0002-0184; Journal of Water Resources Planning and Management, 119 (2). , INTEGRATED GIS AND HYDROLOGIC MODELING FOR COUNTYWIDE DRAINAGE STUDY, March/April, 1993. ©ASCE, ISSN 0733-9496/93/0002-0112; Journal of Computing in Civil Engineering, 15 (3). , INTEGRATED HYDROLOGIC MODELING AND GIS IN WATER RESOURCES MANAGEMENT, July, 2001. ©ASCE, ISSN 0887-3801/01/0003-0217-0223; Journal of Water Resources Planning and Management, 119 (2). , INTEGRATED HYDROLOGIC MODELING WITH GEOGRAPHIC INFORMATION SYSTEMS, March/April, 1993. ©ASCE, ISSN 0733-9496/93/0002-0129; Journal of Urban Planning and Development, 118 (1). , INTEGRATING FACILITY DELIVERY THROUGH SPATIAL INFORMATION, March, 1992. ©ASCE, ISSN 0733-9488/92/0001-0013; Journal of Water Resources Planning and Management, , LINKING GIS, HYDRAULIC MODELING AND TABU SEARCH FOR OPTIMIZING A WATER LEVEL MONITORING NETWORK IN SOUTH FLORIDA, Submitted August 5, 2008; accepted January 29, 2009; posted ahead of print March 27, 2009. doi:10.1061/(ASCE)WR.1943-5452.0000024; Journal of Water Resources Planning and Management, 119 (2). , REVIEW OF GIS APPLICATIONS IN HYDROLOGIC MODELING, March/April, 1993. ©ASCE, ISSN 0733-9496/93/0002-0246; Journal of Water Resources Planning and Management, 122 (2). , STORM-WATER MANAGEMENT IMPLIMENTATION THROUGH MODELING AND GIS, March/April, 1996. ©ASCE ISSN 0733-9496/96/0002-0114-0127; Journal of Water Resources Planning and Management, 122 (2). , USE OF GEOGRAPHIC INFORMATION SYSTEMS IN GROUND-WATER FLOW MODELING, March/April, 1996, ©ASCE, ISSN 0733-9496/96/0002-0088-0096; Journal of Water Resources Planning and Management, 119 (2). , APPLICATION OF GIS NETWORK ROUTINES FOR WATER FLOW AND TRANSPORT, March/April, 1993 © ASCE, ISSN 0733-9496/93/0002-0229; Journal of computing in Civil Engineering, 13 (3). , APPLICATIONS AND ISSUES OF GIS AS TOOL FOR CIVIL ENGINEERING MODELING, July, 1999,©ASCE, ISSN 0887-3801/99/0003-0144-0152; Journal of Hydrologic Engineering, 7 (2). , CREATING A TERRAIN MODEL FOR FLOODPLAIN MAPPING, March 1, 2002. ©ASCE, ISSN 1084-0699/2002/2-100-108; Journal of Water Resources Planning and Management, 124 (2). , DEVELOPING GEOGRAPHIC INFORMATION SYSTEMS FOR LAND USE IMPACT ASSESSMENT IN FLOODING CONDITIONS, March/April, 1998. ©ASCE, ISSN 0733-9496198/0002-0089-0098; Journal of Computing in Civil Engineering, 7 (3). , DEVELOPMENT AND APPLICATION OF EXPERT GEOGRAPHIC INFORMATION SYSTEM, July, 1993. ©ASCE, ISSN 0887-3801/93/0003-0339; Journal of Hydrologic Engineering, 6 (2). , DISTRIBUTED WATERSHED MODEL COMPATIBLE WITH REMOTE SENSING AND GIS DATAI: DESCRIPTION OF MODEL, March/April, 2001. ©ASCE, ISSN 1084-0699/01/0002-0091-0099; Journal of Water Resources Planning and Management, 119 (2). , GEOGRAPHIC INFORMATION SYSTEMS IN URBAN STORM-WATER MANAGEMENT, March/April, 1993. ©ASCE, ISSN 0733-9496/93/0002-0206; Journal of Water Resources Planning and Management, 127 (3). , GEOGRAPHIC INFORMATION SYSTEMS, DECISION SUPPORT SYSTEMS, AND URBAN STORM-WATER MANAGEMENT, May/June, 2001. ©ASCE, ISSN 0733-9496/01/0003-0155-0161; Journal of Hydrologic Engineering, 6 (6). , GIS AND DISTRIBUTED WATERSHED MODELS.I: DATA COVERAGES AND SOURCES., November/December, 2001. ©ASCE, ISSN 1084-0699/01/0006-0506-0514; Journal of Hydrologic Engineering, 6 (6). , GIS AND DISTRIBUTED WATERSHED MODELS II: MODULES, INTERFACES, AND MODELS, November/December, 2001. ©ASCE, ISSN 1084-0699/01/0006-0515-0523; Journal of Hydraulic Engineering, 131 (9). , GIS BASED DISTRIBUTED MODEL FOR SOIL EROSION AND RATE OF SEDIMENT OUTFLOW FROM CATCHMENTS, September 1, 2005. ©ASCE, ISSN 0733-9429/2005/9-755-769; Journal of surveying Engineering, 124 (3). , GIS ERRORS AND SOURCE HYDROLOGIC MODELING: AN EXAMINATION OF EFFECTS AND SOLUTIONS, August, 1998. ©ASCE, ISSN 0733-9453/98/0003-0134-0143","Kherde, R.V.; Department of Civil Engineering, , Lavale, Pune, India; email: rkherde@gmail.com",,,,,,,,23198613,,,,"English","Intern. J. Eng. Technol.",Article,"Final","",Scopus,2-s2.0-84884518540
"Mahajan V.B., Jadhav J.R., Kalamkar V.R., Narkhede B.E.","57002575600;56149525200;37060998400;55642871600;","Interpretive structural modelling for challenging issues in jit supply chain: Product variety perspective",2013,"International Journal of Supply Chain Management","2","4",,"50","63",,15,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84943198761&partnerID=40&md5=db32753f4863e706a56c54858a8a26ba","Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, India; Mechanical Engineering Department, VNIT, Nagpur, India; Head of Production Engineering Department, VJTI, Mumbai, India","Mahajan, V.B., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, India; Jadhav, J.R., Mechanical Engineering Department, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (West), Mumbai, India; Kalamkar, V.R., Mechanical Engineering Department, VNIT, Nagpur, India; Narkhede, B.E., Head of Production Engineering Department, VJTI, Mumbai, India","The success of JIT in Japan inspired many organizations to adopt JIT to the supply chain in order to reduce the waste and cost. These organizations have to face inherent challenging issues and complexities while implementing JIT concepts in supply chain. The manufacturer must be in position to identify challenging issues, its consequences so as to design a robust and reliable supply chain accordingly otherwise the manufacturing system may not provide the desired results. The focus of this paper is on the significant challenging issues in JIT supply chain from product variety perspective. Some challenging issues act as driver for sustainable implementation of JIT supply chain. For adoption of JIT supply chain, significant issues must be identified, analysed and discussed. In this research, study factors are the challenging issues for sustainable JIT supply chain implementation. Authors have identified ten significant issues from literature review. The main objectives are to identify and rank the challenging issues for implementation, to develop and to analysed the interaction between identified challenging issues using ISM and to prepare a framework for successful JIT supply chain implementation. © ExcelingTech Pub, UK.","Challenges; JIT supply chain; Just-in-time (JIT); Lean; Product variety; Interpretive Structural Modelling (ISM)",,,,,,,,,,,,,,,,,"Ahuja, V., Yang, J., Shankar, R., Benefits of collaborative ICT adoption for building project management (2009) Construction Innovation, 9 (3), pp. 323-340; Aigbedo, H., Analysis of parts requirements variance for a JIT supply chain (2004) International Journal of Production Research, 42 (2), pp. 417-430; Attri, R., Dev, N., Sharma, V., Interpretive Structural Modelling (ISM) approach: An Overview (2013) Research Journal of Management Sciences, 2 (2), pp. 3-8; Barve, A., "" Impact of Supply Chains Agility on Customer Satisfaction"" (2011) 2010 International Conference on E-business, Management and Economics, 3, pp. 325-329. , IPEDR, IACSIT Press, Hong Kong; Berger, J., Draganska, M., Simonson, I., The Influence of Product Variety on Brand Perception and Choice (2007) Marketing Science, 26 (4), pp. 460-472; Bils, M., Klenow, P.J., The acceleration in product variety (2001) The American Economic Review, 91 (2), pp. 274-280; Bock, S., Rosenberg, O., van Brackel, T., ""Controlling mixed-model assembly lines in realtime by using distributed systems"" (2006) European Journal of Operational Research, 168, pp. 880-904; Bolat, A., Efficient methods for sequencing minimum job sets on mixed model assembly lines (1997) Naval Research Logistics, 44 (5), pp. 419-437; Borle, S., Boatwright, P., Kadane, J.B., Nunes, J.C., Shmueli, G., The effect of product assortment changes on customer retention (2005) Marketing Science, 24 (4), pp. 616-622; Boysen, N., Fliedner, M., Scholl, A., Sequencing Mixed-Model Assembly Lines: Survey, Classification and Model Critique (2009) European Journal of Operational Research, 192 (2), pp. 349-373; Celano, G., Fichera, S., Grasso, V., La Commare, U., Perrone, G., ""An evolutionary approach to multi-objective scheduling of mixed model assembly lines"" (1999) Computers & Industrial Engineering, 37 (1-2), pp. 69-73; da Silveira, G.J.C., Slack, N., Exploring the trade-off concept (2001) International Journal of Operations & Production Management, 21 (7), pp. 949-964; Emde, S., Fliedner, M., Boysen, N., Optimally loading tow trains for just-in-time supply of mixed-model assembly lines (2012) IIE Transactions, 44 (2), pp. 121-135; Er, M., MacCarthy, B., Managing product variety in multinational corporation supply chains - a simulation study (2006) Journal of Manufacturing Technology Management, 17 (8), pp. 1117-1138; Faisal, M.N., Banwet, D.K., Shankar, R., Supply chain risk mitigation: modeling the enablers (2006) Business Process Management Journal, 12 (4), pp. 535-552; Faisal, M.N., Banwet, D.K., Shankar, R., Supply chain agility: analysing the enablers (2007) International Journal of Agile Systems and Management, 2 (1), pp. 76-91; Farris, D.R., Sage, A.P., ""On the use of interpretive structural modeling for worth assessment"" (1975) Computers and Electrical Engineering, 2 (2-3), pp. 149-174; Hayes, R.H., Pisano, G.P., Manufacturing strategy: at the intersection of two paradigm shifts (1996) Production and Operations Management, 5 (1), pp. 25-41; Hwang, R., Katayama, H., ""A multi-decision genetic approach for workload balancing of mixed-model U-shaped assembly line systems"" (2009) International Journal of Production Research, 47 (14), pp. 3797-3822; Hyun, C.J., Kim, Y.K., Kim, Y., ""A genetic algorithm for multiple objective sequencing problems in mixed model assembly lines"" (1998) Computers and Operations Research, 25 (7-8), pp. 675-690; Iwaarden, J., Wiele, T., ""The effects of increasing product variety and shortening product life cycles on the use of quality management systems"" (2012) International Journal of Quality and Reliability Management, 29 (5), pp. 470-500; Karmarkar, U.S., ""Integrative research in marketing and operations management"" (1996) Journal of Marketing Research, 33 (2), pp. 125-133; Kim, K., Chhajed, D., ""Commonality in product design: cost saving, valuation change and cannibalization"" (2000) European Journal of Operational Research, 125 (3), pp. 602-621; Kotani, S., Ito, T., Ohno, K., Sequencing problem for a mixed-model assembly line in the Toyota Production System (2004) International Journal of Production Research, 42 (23), pp. 4955-4974; Lancaster, K., ""The economics of product variety: a survey"" (1990) Marketing Science, 9 (3), pp. 189-206; Lee, H.L., Billington, C., ""Designing products and processes for postponement"" (1994) Management of Design, Kluwer Academic Publishers, pp. 105-122. , In Dasu, S. and Eastman, C. (Eds),Boston, MA; Madaan, J., Mangla, S., Gupta, M.P., ""Multi-objective decision modeling using Interpretive Structural Modeling(ISM) for Green Supply Chains"" (2012), POMS 23rd Annual Conference, Chicago, Illinois, U.S.A; Mandal, A., Deshmukh, S.G., ""Vendor selection using interpretive structural modeling (ISM)"" (1994) International Journal of Operations and Production Management, 14 (6), pp. 52-59; Mapes, J., New, C., Szwejczewski, M., Performance trade-offs in manufacturing plants (1997) International Journal of Operations and Production Management, 17 (10), pp. 1020-1033; Mcintosh, R.I., Culley, S.J., Mileham, A.R., Owen, G.W., Changeover improvement: Reinterpreting Shingo's SMED methodology (2007) IEEE Transactions on Engineering Management, 54 (1), pp. 98-111; Mishra, S., Datta, S., Mahapatra, S.S., Interrelationship of drivers for agile manufacturing: an Indian experience (2012) International Journal of Services and Operations Management, 11 (1), pp. 35-48; Moradi, H., Zandieh, M., ""An imperialist competitive algorithm for a mixedmodel assembly line sequencing problem"" (2013) Journal of Manufacturing Systems, 32, pp. 46-54; Mungan, D., Yu, J., Sarker, B.R., ""Manufacturing lotsizing, procurement and delivery schedules over a finite planning horizon"" (2010) International Journal of Production Research, 48 (12), pp. 3619-3636; Ponnambalam, S.G., Aravindan, P., Rao, M.S., Genetic algorithms for sequencing problems in mixed model assembly lines (2003) Computers and Industrial Engineering, 45 (4), pp. 669-690; Pramod, V.R., Banwet, D.K., ""Interpretive Structural Modelling for Understanding the Inhibitors of a Telecom Service Supply Chain"" (2010) Proceedings of the 2010 International Conference on Industrial Engineering and Operations Management, , Dhaka Bangladesh; Ravi, V., Shankar, R., Analysis of interactions among the barriers of reverse logistics (2005) Technological Forecasting & Social Change, 72 (8), pp. 1011-1029; Scholl, A., Klein, R., Domschke, W., Pattern based vocabulary building for effectively sequencing mixed-model assembly lines (1998) Journal of Heuristics, 4 (4), pp. 359-381; Scavarda, L.F., Reichhart, A., Hamacher, S., Holweg, M., Managing product variety in emerging markets (2010) International Journal of Operations and Production Management, 30 (2), pp. 205-224; Scavarda, L.F., Schaffer, J., Scavarda, A.J., Reis, A.D.C., Schleich, H., Product variety: an auto industry analysis and a benchmarking study (2009) Benchmarking: An International Journal, 16 (3), pp. 387-400; Shapiro, B.P., Can marketing and manufacturing coexist? (1977) Harvard Business Review, 55 (5), pp. 104-114; Sumichrast, R.T., Russell, R.S., Taylor, B.W., 'A comparative analysis of sequencing procedures for mixed-model assembly lines in a just-in-time production system"" (1992) International Journal of Production Research, 30 (1), pp. 199-214; Tang, C.S., Perspectives in supply chain risk management (2006) International Journal Production Economics, 103 (2), pp. 451-488; Ulrich, K., ""The role of product architecture in the manufacturing firm"" (1995) Research Policy, 24, pp. 419-440; Warfield, J.W., Developing interconnected matrices in structural modeling (1974) IEEE Transcript on Systems, Men and Cybernetics, 4 (1), pp. 81-87; Xiaobo, Z., Ohno, K., ""A sequencing problem for a mixed model assembly line in a JIT production system"" (1994) Computers & Industrial Engineering, 27 (1-4), pp. 71-74; Yavuz, M., Akçali, E., Production smoothing in just-in-time manufacturing systems: a review of the models and solution approaches (2007) International Journal of Production Research, 45 (16), pp. 3579-3597; Yavuz, M., ""Iterated beam search for the combined car sequencing and level scheduling problem"" (2013) International Journal of Production Research; Yusuf, Y.Y., Sarhadi, M., Gunasekaran, A., ""Agile manufacturing: the drivers, concepts and attributes"" (1999) Int. J. Prod. Econ., 62, pp. 33-43; Zhang, M., Tseng, M.M., ""A product and process modeling based approach to study cost implications of product variety in Mass Customization"" (2007) Engineering Management, IEEE Transactions on, 54 (1), pp. 130-144",,,,"ExcelingTech Publishers",,,,,20513771,,,,"English","Int. J. Supply Chain Manag.",Article,"Final","",Scopus,2-s2.0-84943198761
"Bhitre N., Sarkar A.K., Padhi R.","53983666600;56046036800;8684387000;","Three-dimensional impact angle constrained MPSP guidance of air-to-air missiles",2013,"Proceedings of the IEEE International Conference on Control Applications",,,"6662862","883","888",,2,"10.1109/CCA.2013.6662862","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84899578482&doi=10.1109%2fCCA.2013.6662862&partnerID=40&md5=692a33d39f1ee597e066b8e864fd4766","Dept. of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; DRDL, Defense RandD Organisation, Hyderabad, India; Department of Aerospace Engineering, Indian Institute of Science, Bangalore, Bangalore-560012, India","Bhitre, N., Dept. of Electrical Engineering, Sardar Patel College of Engineering, Mumbai, India; Sarkar, A.K., DRDL, Defense RandD Organisation, Hyderabad, India; Padhi, R., Department of Aerospace Engineering, Indian Institute of Science, Bangalore, Bangalore-560012, India","Three-dimensional impact angle constrained air-to-air missile guidance problem with third order autopilot in loop is investigated using model predictive static programming (MPSP). MPSP is inspired from the model predictive control and approximate dynamic programming philosophies. It inherently minimizes control (lateral acceleration) demand throughout the trajectory in addition to meeting the terminal hard constraint. Two different formulations are explored in this study. In one case MPSP is kept blind about existence of autopilot, where as in other case autopilot dynamics is incorporated explicitly in MPSP problem formulation. Terminal impact angle constraint along with required miss distance are posed as hard terminal constraint in the problem definition itself. It is observed from the extensive simulation studies that the proposed scheme performs better as compared to the classical proportional navigation guidance for intercepting moving and maneuvering targets in the air. © 2013 IEEE.","Air-to-air missile; Impact angle constrained guidance; MPSP guidance","Electronic guidance systems; Model predictive control; Philosophical aspects; Approximate dynamic programming; Extensive simulations; Hard terminal constraints; Impact angles; Lateral acceleration; Problem formulation; Proportional navigation guidance; Terminal impact angles; Air to air missiles",,,,,,,,,,,,,,,,"Zarchan, P., Tactical and strategic missile guidance (2007) Progress in Astronautics and Aeronautics Series, , AIAA, 5th ed; Siouris, G.M., (2003) Missile Guidance and Control Systems, , Springer. New York; Bryson Jr., A.E., Ho, Y.-C., (1975) Applied Optimal Control, , Wiley, New York; Lee, C.-H., Kim, T.-H., Tahk, M.-J., Polynomial guidance laws considering terminal impact angle and acceleration constraints (2013) IEEE Trans. Aerospace and Electronic Systems, 49, pp. 74-92. , Jan; Lee, Y.-I., Kim, S.-H., Tahk, M.-J., Optimality of linear time-varying guidance for impact angle control (2012) IEEE Trans. Aerospace and Electronic Systems, 48, pp. 2802-2817. , Jul; Oza, H.B., Padhi, R., Impact-Angle-constrained suboptimal model predictive static programming guidance of air-to-ground missiles (2012) Journal of Guidance, Control, and Dynamics, 35, pp. 153-164. , Jan.-Feb; Shima, T., Intercept-Angle guidance (2011) Journal of Guidance, Control, and Dynamics, 34, pp. 484-492. , Mar.-Apr; Kim, B.S., Lee, J.G., Han, S.H., Biased PNG law for impact with angular constraint (1998) IEEE Transactions on Aerospace and Electronic Systems, 34, pp. 277-288; Gu, W.-J., Yu, J.-Y., A 3-d missile guidance law with angle constraint based on sliding mode control (2007) IEEE International Conference on Control and Automation, pp. 299-302. , May; Liu, L.-J., Shen, Y., Three-dimension h-infinity guidance law and capture region analysis (2012) IEEE Transactions on Aerospace and Electronic Systems, 48, pp. 419-429. , Jan; Padhi, R., Kothari, M., Model predictive static programming: A computationally efficient technique for suboptimal control design (2009) International Journal of Innovative Computing, Information, and Control, 5, pp. 399-411. , Feb; Imado, F., Kuroda, T., Tahk, M.-J., A new missile guidance algorithm against a maneuvering target (1998) Proceedings of the AIAA Guidance, Navigation and Control Conference and Exhibit, , AIAA, Boston, MA; Gopal, M., (1993) Modern Control System Theory, , 2nd ed., Wiley, New York; Shampine, L.F., (1994) Numerical Solution of Ordinary Differential Equations, , Chapman and Hall, New York",,,"IEEE Control Systems Society;The John F. Welch Technology Centre (JFWTC)","Institute of Electrical and Electronics Engineers Inc.","2013 IEEE International Conference on Control Applications, CCA 2013","28 August 2013 through 30 August 2013","Hyderabad",105659,,9781479915590,,,"English","Proc. IEEE Int. Conf. Control Appl.",Conference Paper,"Final","",Scopus,2-s2.0-84899578482
"Patkar A.R., Rangasamy S., Raghunath S., Kalamkar V.","55937897800;55938164900;55601813200;37060998400;","CFD code validation & qualitative study of effects of tip clearance variation on performance of transonic axial compressor rotor",2012,"ASME 2012 Gas Turbine India Conference, GTINDIA 2012",,,,"115","121",,,"10.1115/GTINDIA2012-9571","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84888238845&doi=10.1115%2fGTINDIA2012-9571&partnerID=40&md5=12b5f0c73129ad4b0d0b67ce415869c5","Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Zeus Numerix, Bangalore, Karnataka, India; VNIT, Nagpur, Maharashtra, India","Patkar, A.R., Sardar Patel College of Engineering, Mumbai, Maharashtra, India; Rangasamy, S., Zeus Numerix, Bangalore, Karnataka, India; Raghunath, S., Zeus Numerix, Bangalore, Karnataka, India; Kalamkar, V., VNIT, Nagpur, Maharashtra, India","The main objective of this work is the validation of Computational Fluid Dynamics (CFD) code used for analysis of transonic axial compressors. NASA Rotor 35 is used here as test case for validation. In this work, computations are performed using parallelized RANS code, to predict the transonic axial compressor rotor flow characteristics. Advection Upstream Splitting Method (AUSM) scheme has been used. A Multiple Frame of Reference approach has been used to model the rotor passage. Spalart-Allmaras turbulence model is used to model turbulence. Multiblock Structured mesh is used. Performance characteristics for the entire range of operation, from maximum mass flow rate till maximum pressure ratio, have been simulated. The results obtained are comparable with experimental data within 5-10% error. Investigations have been carried out to study the effect of varying tip clearance in NASA Rotor 35. The present work is intended to study the clearance flow trajectory as a function of varying tip clearance. The effects of shock/vortex interaction in tip clearance region are also studied. The effects of tip clearance size on the generation and evolution of the end-wall vortical structures are discussed by investigating their evolutionary trajectories. By this study, it is observed that as tip clearance reduces, clearance flow trajectory moves downstream. From this it can be concluded that if tip clearance increases, tip clearance vortices expand. This may help in casing-treatment or tip-treatment to mitigate the loss in the performance, if the tip clearance increases. Copyright © 2012 by ASME.","CFD; Tip clearance; Tip leakage vortex; Transonic compressor rotor; Validation","Advection upstream splitting methods; Computational Fluid Dynamics codes; Spalart-Allmaras turbulence model; Tip clearance; Tip leakage vortex; Transonic axial compressors; Transonic compressor rotor; Validation; Axial flow turbomachinery; Copyrights; Gas turbines; Leakage (fluid); NASA; Trajectories; Turbulence models; Computational fluid dynamics",,,,,,,,,,,,,,,,"Denton, J.D., Some limitations of turbo-machinery CFD (2010) ASME Conf. Proc. 2010, GT2010-22540, pp. 735-745; Denton, J.D., Xu, L., The exploitation of three-dimensional flow in turbo-machinery design (1999) Proc. Instn. Mech. Engrs., Part C: Journal of Mechanical Engineering Science, 213; Chima, R.V., Swift code assessment for two similar transonic compressors (2009) AIAA Paper, AIAA-2009-1058 or NASA/TM-2009-215520; Van Zante, D.E., Recommendations for achieving accurate numerical simulation of tip clearance flows in transonic compressor rotors (2000) NASA/TM 2000-210347; Yamada, K., Funazaki, K., The behavior of tip clearance flow at near-stall condition in a transonic axial compressor rotor (2007) ASME Conf. Proc. 2007, GT2007-27725, pp. 295-306; Wang, S., The tip and hub leakage flow of a repeated two stage compressor (2002) ASME Conf. Proc. 2002, GT-2002-30437, pp. 735-742; Ahmed, F., El Sayed, A.A., Numerical investigation of different tip clearance shape effects on performance of an axial flow compressor stage (2010) The Online Journal on Power and Energy Engineering (OJPEE), 1 (2). , Reference Number: W09-0012; You, D., Large-eddy simulation analysis of mechanisms for viscous losses in a turbo-machinery tip-clearance flow (2007) J. Fluid Mech. (2007), 586, pp. 177-204. , Cambridge University Press; Reid, L., Moore, R., Design & overall performance of four highly loaded, high speed inlet stages for an advanced high pressure ratio core compressor (1978) NASA Technical Paper, NASA TP-1337; Gopinath, A., Van Der Weide, E., Three-dimensional unsteady multi-stage turbo machinery simulations using the harmonic balance technique (2007) 45th AIAA Aerospace Science Meeting &amp; Exhibit, APA-15: CFD Methods/Applied CFD, AIAA 2007-892; Niazi, S., (2000) Numerical Simulation of Rotating Stall and Surge Alleviation in Axial Compressors, , PhD Dissertation, Georgia Institute of Technology, US; Boretti, A., Experimental & computational analysis of transonic compressor rotor (2010) Proc. of 17th Australasian Fluid Mechanics Conference, pp. 473-476; Gu, F., Anderson, M., A reynolds-averaged navier-stokes solver in a turbo machinery design system (2007) ASME Conf. Proc. 2007, GT2007-27657, pp. 1333-1341; Liou, M.S., Steffen, C.J., A new flux splitting scheme (1993) Journal of Computational Physics, 107, pp. 23-39. , [1993] also NASA TM-104404","Sardar Patel College of Engineering, Mumbai, Maharashtra, India",,,,"ASME 2012 Gas Turbine India Conference, GTINDIA 2012","1 December 2012 through 1 December 2012","Mumbai, Maharashtra",100944,,9780791845165,,,"English","ASME Gas Turbine India Conf., GTINDIA",Conference Paper,"Final","",Scopus,2-s2.0-84888238845
"Parhad P., Umale S., Likhite A., Bhatt J.","55319185400;55318982400;24343942200;15925089600;","Characterization of inoculated low carbon equivalent iron at lower austempering temperature",2012,"Transactions of the Indian Institute of Metals","65","5",,"449","458",,8,"10.1007/s12666-012-0150-9","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84867399198&doi=10.1007%2fs12666-012-0150-9&partnerID=40&md5=e5577e8fb1087f9c9d787ca0c2eebb35","Department of Mechanical Engineering, Kavikulguru Institute of Technology and Science, Ramtek 441106, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Department of Metallurgy and Materials Engineering, Visvesvaraya National Institute of Technology, Nagpur, India","Parhad, P., Department of Mechanical Engineering, Kavikulguru Institute of Technology and Science, Ramtek 441106, India; Umale, S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Andheri, Mumbai, India; Likhite, A., Department of Metallurgy and Materials Engineering, Visvesvaraya National Institute of Technology, Nagpur, India; Bhatt, J., Department of Metallurgy and Materials Engineering, Visvesvaraya National Institute of Technology, Nagpur, India","The response of inoculated low carbon equivalent iron to austempering heat treatment has remained as an unchartered area of investigation. The carbon equivalent of inoculated low carbon equivalent iron is much lesser than that of ductile iron, while modulus of elasticity is higher than it. This paper examines and compares the austempering transformations and microstructural changes during austempering of ductile iron and inoculated low carbon equivalent iron with respect to austempering parameters. The optical metallography and X-ray diffraction techniques are used to study the changes in the austempered structure. The alterations in austempered microstructure and structural parameters like, austenite volume fraction (X) and its carbon content (C) at an austempering temperature of 250°C are studied in the present investigation. It is observed that, austempering heat treatment produces fine ausferritic microstructure, similar to that present in austempered ductile iron at this temperature. However, some significant differences between the austempered microstructure of two alloys are noted. © Indian Institute of Metals 2012.","Ausferrite; Austempering; Carbon stabilized austenite; Inoculated low carbon equivalent iron",,,,,,,,,,,,,,,,,"Ping, L., Bahadur, S., Verhoeven, D., (1990) Wear, 138, p. 269; Likhite, A., Peshwe, D., Pathak, S., (2008) Trans Indian Inst Met, 61, p. 491; Metzioff, K.E., Fang, L.Y., Loper, C.R., (1995) AFS Trans, 47, p. 103; Likhite, A., Peshwe, D., Pathak, S., (2011) Indian Foundry J, 47, p. 23; Lu, G.X., Zhang, H., (1990) Trans Wear J, 138, p. 1; Likhite, A., Telote, U., Peshwe, D., Pathak, S., (2007) Trans Indian Inst Met, 60, p. 435; Likhite, A., Peshwe, D., Pathak, S., (2005) Indian Foundry J, 51, p. 35; Parhad, P., Peshwe, D., Pathak, S., Processing and evaluation of low carbon equivalent ductile iron Proceedings of International Conference on Resource Utilization and Intelligent Systems, p. 126. , Kongu Engg. College, Erode, (4-6 Jan 2006); (1990) Ductile Iron Data for Designing Engineer, , Rio Tinto Iron and Titanium INC, Canada; Janowak, J.F., Gundlach, R.B., (1983) Trans AFS, 86, p. 377; Voight, R.C., Loper, C.R., Proceedings of the 1st international conference on austempered ductile iron (1984) ASM, p. 83; Rundman, K.B., (1991) Striving for Continuous Improvement AFS Transactions world Conference on ADI, , and Carl Austempered ductile iron;, March; Rouns, T.N., Rundman, K.B., (1984) AFS Trans, 92, p. 815; Keough, J.R., (1995) Trans Foundry Manag Technol, 123; Seshan, S., ADI-The under exploited wonder cast iron (1998) Golden Jubilee Celebration, 84; Fuller, A.G., (1997) Trans Am Foundrymen's Soc, 77-102 A, p. 527; Cullity, B.D., (1974) Elements of X-ray Diffraction, p. 411. , Addison-Wesley, Reading; Bayati, H., Elliott, R., (1995) Mater Sci Technol, 11, p. 284; Guerin, L., Gagne, M., (1987) Foundryman, 80, p. 336; Putatunda, S.K., Gadicherla, P.K., (2000) J Mater Eng Perform, 9, p. 194; Prasad, Rao.P., Putatunda, S.K., (1997) Metall Mater Trans, 28 A, p. 1457; Lietaert, F., (1980) Fonderie Blege, 50, p. 11; Minkoff, I., (1983) The Physical Metallurgy of Cast Iron, p. 218. , John Wiley, New York; Batra, U., Ray, S., Prabhakar, S.R., (2004) J Mater Eng Perform, 13, p. 537; Venkatesh, A.T., (2009) Studies on Properties of ADI Subjected to Deep Cryogenic Treatment, p. 7. , Ph D Thesis, MSRIT, Bangalore","Parhad, P.; Department of Mechanical Engineering, , Ramtek 441106, India; email: parhad_pp@yahoo.co.in",,,,,,,,09722815,,,,"English","Trans. Indian Inst. Met.",Article,"Final","",Scopus,2-s2.0-84867399198
"Murudi M., Banerji P.","8077743100;57203250143;","Effective control of earthquake response using tuned liquid dampers",2012,"ISET Journal of Earthquake Technology","49","3-4",,"53","71",,2,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84995528863&partnerID=40&md5=32953625ee87a194aebbd73c486668bf","Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Department of Civil Engineering, Indian Institute of Technology Bombay, Mumbai, 400076, India","Murudi, M., Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai, 400058, India; Banerji, P., Department of Civil Engineering, Indian Institute of Technology Bombay, Mumbai, 400076, India","An earlier numerical study of a single-degree-of-freedom (SDOF) structure rigidly supporting a tuned liquid damper (TLD) and subjected to broad-band ground motions, has showed that a TLD has to be properly designed for effectively reducing the response of the structure. In this paper, a comprehensive study of the effects of various ground motion parameters on the ability of a TLD to reduce structural response for earthquake base motions is presented. It is shown that the frequency content and bandwidth of the ground motion do not significantly affect the effectiveness of the TLD. Since TLD is a nonlinear system, its effectiveness increases with an increase in the intensity of the ground motion. Furthermore, since TLD behaves as a viscous damper, it cannot reduce the response in the first few cycles of vibration. Therefore, TLD is more effective for the far-field ground motions, where the strong-motion phase and consequently the peak response of the structure occur after the first few cycles of vibration.","Earthquake response; Energy dissipation; Nonlinear damping; Structural control; Tuned liquid damper","Degrees of freedom (mechanics); Earthquake effects; Energy dissipation; Geophysics; Liquids; Structural dynamics; Earthquake response; Far-field ground motion; Ground motion parameters; Nonlinear damping; Single degree of freedoms; Structural control; Structural response; Tuned liquid dampers; Earthquakes",,,,,,,,,,,,,,,,"Banerji, P., Murudi, M., Shah, A.H., Popplewell, N., Tuned liquid dampers for controlling earthquake response of structures (2000) Earthquake Engineering & Structural Dynamics, 29 (5), pp. 587-602; Banerji, P., Samanta, A., Chavan, S.A., Earthquake vibration control of structures using tuned liquid dampers: Experimental studies (2010) International Journal of Advanced Structural Engineering, 2 (2), pp. 133-152; Chaiseri, P., Fujino, Y., Pacheco, B.M., Sun, L.M., Interaction of tuned liquid damper (tld) and structure - Theory, experimental verification and application (1989) Structural Engineering/Earthquake Engineering, JSCE, 6 (2), pp. 273s-282s; Den Hartog, J.P., (1956) Mechanical Vibrations, , McGraw-Hill, New York, U.S.A; Der Kiureghian, A., A coherency model for spatially varying ground motions (1996) Earthquake Engineering & Structural Dynamics, 25 (1), pp. 99-111; Fujino, Y., Sun, L., Pacheco, B.M., Chaiseri, P., Tuned liquid damper (tld) for suppressing horizontal motion of structures (1992) Journal of Engineering Mechanics, ASCE, 118 (10), pp. 2017-2030; Jangid, R.S., Kelly, J.M., Base isolation for near-fault motions (2001) Earthquake Engineering & Structural Dynamics, 30 (5), pp. 691-707; Kamrani-Moghaddam, B., Rahimian, M., Ghorbani-Tanha, A.K., Performance of tuned mass dampers for response reduction of structures under near-field and far-field seismic excitations (2006) Proceedings of the 4th International Conference on Earthquake Engineering, , Taipei, Taiwan, Paper No. 112 on CD; Makris, N., Rigidity-plasticity-viscosity: Can electrorheological dampers protect base-isolated structures from near-source ground motions? (1997) Earthquake Engineering & Structural Dynamics, 26 (5), pp. 571-591; Matta, E., Performance of tuned mass dampers against near-field earthquakes (2011) Structural Engineering and Mechanics, 39 (5), pp. 621-642; Modi, V.J., Welt, F., Seto, M.L., Control of wind-induced instabilities through application of nutation dampers: A brief overview (1995) Engineering Structures, 17 (9), pp. 626-638; Pinelli, J.-P., Gutierrez, H., Hu, S., Casier, F., Multiple distributed tuned mass dampers: An exploratory study (2003) Proceedings of the XL2003 (Response of Structures to Extreme Loading) Conference, , Toronto, Canada (on CD; Ruiz, P., Penzien, J., Probabilistic study of the behavior of structures during earthquakes (1969) Report EERC 69-3, , University of California, Berkeley, U.S.A; Sakai, F., Takaeda, S., Tamaki, T., Tuned liquid column damper - New type device for suppression of building vibrations (1989) Proceedings of the International Conference on Highrise Buildings, 2, pp. 926-931. , Nanjing, China; Sun, L.M., Fujino, Y., Pacheco, B.M., Isobe, M., Nonlinear waves and dynamic pressures in rectangular tuned liquid damper (tld) - Simulation and experimental verification (1989) Structural Engineering/Earthquake Engineering, JSCE, 6 (2), pp. 251s-262s; Sun, L.M., Fujino, Y., Pacheco, B.M., Chaiseri, P., Modelling of tuned liquid damper (tld) (1992) Journal of Wind Engineering & Industrial Aerodynamics, 43 (1-3), pp. 1883-1894; Tamura, Y., Fujii, K., Ohtsuki, T., Wakahara, T., Kohsaka, R., Effectiveness of tuned liquid dampers under wind excitation (1995) Engineering Structures, 17 (9), pp. 609-621; Taniguchi, T., Der Kiureghian, A., Melkumyan, M., Effect of tuned mass damper on displacement demand of base-isolated structures (2008) Engineering Structures, 30 (12), pp. 3478-3488; Villaverde, R., Seismic control of structures with damped resonant appendages (1994) Proceedings of the First World Conference on Structural Control, 1, pp. WP4113-WP4122. , Los Angeles, U.S.A; Warburton, G.B., Optimum absorber parameters for various combinations of response and excitation parameters (1982) Earthquake Engineering & Structural Dynamics, 10 (3), pp. 381-401; Yalla, S.K., Kareem, A., Optimum absorber parameters for tuned liquid column dampers (2000) Journal of Structural Engineering, ASCE, 126 (8), pp. 906-915; Ye, K., Li, L., Study on the dynamic response of lrb base-isolated structure under near-fault pulse-like ground motions (2009) Earthquake Resistant Engineering and Retrofitting, 31 (2), pp. 32-38. , Chinese; Yu, J.-K., Wakahara, T., Reed, D.A., A non-linear numerical model of the tuned liquid damper (1999) Earthquake Engineering & Structural Dynamics, 28 (6), pp. 671-686",,,,"Indian Society of Earthquake Technology",,,,,09720405,,,,"English","ISET J. Earthqu. Technol.",Article,"Final","",Scopus,2-s2.0-84995528863
"Taibni A.Z., Kalamkar V.","57205694541;37060998400;","Experimental and computational analysis of behavior of three-way catalytic converter under axial and radial flow conditions",2012,"International Journal of Fluid Machinery and Systems","5","3",,"134","142",,6,"10.5293/IJFMS.2012.5.3.134","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84870432039&doi=10.5293%2fIJFMS.2012.5.3.134&partnerID=40&md5=ba603b190531f1d1ab2785ca7ec4b9ab","Thermal Engineering, Bharati Vidya Bhavan's, Sardar Patel College of Engineering, Mumbai 400058, India; Department of Mechanical Engineering, Bharati Vidya Bhavan's, Sardar Patel College of Engineering, Mumbai 400058, India","Taibni, A.Z., Thermal Engineering, Bharati Vidya Bhavan's, Sardar Patel College of Engineering, Mumbai 400058, India; Kalamkar, V., Department of Mechanical Engineering, Bharati Vidya Bhavan's, Sardar Patel College of Engineering, Mumbai 400058, India","The competition to deliver ultra-low emitting vehicles at a reasonable cost is driving the automotive industry to invest significant manpower and test laboratory resources in the design optimization of increasingly complex exhaust after-treatment systems. Optimization can no longer be based on traditional approaches, which are intensive in hardware use and laboratory testing. The CFD is in high demand for the analysis and design in order to reduce developing cost and time consuming in experiments. This paper describes the development of a comprehensive practical model based on experiments for simulating the performance of automotive three-way catalytic converters, which are employed to reduce engine exhaust emissions. An experiment is conducted to measure species concentrations before and after catalytic converter for different loads on engine. The model simulates the emission system behavior by using an exhaust system heat conservation and catalyst chemical kinetic sub-model. CFD simulation is used to study the performance of automotive catalytic converter. The substrate is modeled as a porous media in FLUENT and the standard k-e model is used for turbulence. The flow pattern is changed from axial to radial by changing the substrate model inside the catalytic converter and the flow distribution and the conversion efficiency of CO, HC and NOx are achieved first, and the predictions are in good agreement with the experimental measurements. It is found that the conversion from axial to radial flow makes the catalytic converter more efficient. These studies help to understand better the performance of the catalytic converter in order to optimize the converter design.","Catalyst; CFD modeling; Chemical reaction; Conversion efficiency; Simulation","Analysis and design; Automotive catalytic converters; CFD modeling; CFD simulations; Computational analysis; Converter design; Design optimization; Exhaust aftertreatment; Exhaust emission; Experimental measurements; Flow condition; Flow distribution; Heat conservation; High demand; Laboratory testing; Practical model; Simulation; Species concentration; Substrate model; System behaviors; Three way catalytic converter; Automotive industry; Catalysts; Chemical reactions; Computational fluid dynamics; Conversion efficiency; Cost benefit analysis; Exhaust systems (engine); Experiments; Optimization; Porous materials; Radial flow; Solid solutions; Catalytic converters",,,,,,,,,,,,,,,,"Vardi, J., Biller, W.F., Thermal behavior of an exhaust gas catalytic converter (1968) Ind. Eng. Chem-Process Des Dev., 7 (1), pp. 83-90; Kuo, J.C., Morgan, C.R., Lassen, H.G., Mathematical modeling of CO and HC catalytic converter systems, , SAE paper 710289; Harned, J.L., Montgomery, D.L., Comparison of catalyst substrate for catalytic converter systems, , SAE paper 730561; Oh, S.H., Cavendish, J.C., Transients of monolithic catalytic converters: Response to step changes in feedstream temperature as related to controlling automobile emissions (1982) Ind Eng Chem Res, 21, pp. 29-37; Pattas, K.N., Stamatelos, A.M., Pistikopoulos, P.K., Koltsakis, G.C., Konstandinidis, P.A., Volpi, E., (1994) Transient modeling of 3-way catalytic converters, , SAE paper 940934; Tischer, S., Correa, C., Deutschmann, O., Transient Three-Dimensional Simulations of a Catalytic Combustion Monolith Using Detailed Models for Heterogeneous and Homogeneous Reactions and Transport Phenomena (2001) Catal. Today, 69, pp. 57-62; Koltsakis, G.C., Stamatelos, A.M., Catalytic Automotive Exhaust Aftertreatment (1997) Prog. Energy Combust. Sci., 23, pp. 1-37; Lai, M.C., Lee, T., Kim, J.Y., Li, P., Chui, G., Pakko, J.D., Numerical and Experimental Characterization of Automotive Catalytic Converter Internal Flows (1992) J. Fluids Struct., 6, pp. 451-470; Charles, N.S., (1981) Mass Transfer in Heterogeneous Catalysis, , Robert E. Krieger Publishing Company, Inc; Otto, N.C., LeGray, W.J., (1980) Mathematical Models for Catalytic Converter Performance, , SAE Paper No. 800841; FLUENT 6.1.18, FLUENT Inc; Siemund, S., Schweich, D., Leclerc, J.P., Villermaux, J., Modelling Three-Way Monolithic Catalytic Converter: Comparison Between Simulation and Experimental Data (1995) Catalysis and Automotive Pollution Control, III, Studies in Surface Science and Catalysis, 96; Shamim, T., Sengupta, S., Adamczyk, A.A., A comprehensive model to predict three way catalytic converter performance (2002) Journal of Engineering for Gas Turbines and Power, 124 (421). , April 2002; Chen, M., Aleixo, J., Williams, S., Leprince, T., CFD modeling of three way catalytic converters with detailed catalytic surface reaction mechanism, , DCL International Inc; Mazumder, S., Modeling full scale monolith catalytic converters (2007) Transactions of the ASME, 129. , 526 / April; Depcik, C., (2003) Modeling reacting gases and aftertreatment devices for internal combustion engines, , PhD in mechanical engineering. Ann Arbor, Michiganr: The University of Michigan; Young, L.C., Finlayson, B.A., Mathematical models of the monolithic catalytic converter: Part II. Application to automobile exhaust (1976) AIChE J, 22 (2), pp. 343-353; Depcik, C., Assanis, D., One-dimensional automotive catalyst modeling (2005) Progress in Energy and Combustion Science, 31, pp. 308-369; Lun, H., Niu, X., Zhou, L., CFD simulation of the effect of monolith wall thickness on the light off performance of a catalytic converter (2010) International journal of chemical reactor engineering, 8","Taibni, A. Z.; Thermal Engineering, , Mumbai 400058, India; email: arif_zakaria@yahoo.com",,,,,,,,18829554,,,,"English","Int. J. Fluid Mach. Sys.",Article,"Final","All Open Access, Bronze",Scopus,2-s2.0-84870432039
"Subramanyan H., Sawant P.H., Bhatt V.","55180704200;55861694500;55180381700;","Construction project risk assessment: Development of model based on investigation of opinion of construction project experts from India",2012,"Journal of Construction Engineering and Management","138","3",,"409","421",,60,"10.1061/(ASCE)CO.1943-7862.0000435","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84859590251&doi=10.1061%2f%28ASCE%29CO.1943-7862.0000435&partnerID=40&md5=dfc52a44b96a57d93da0f58e7fc9d8d6","Univ. of Mumbai, Civil Engineering Section, SPCE, India; SPCE, Mumbai, India; Civil Engineering Dept., IIT Mumbai, India","Subramanyan, H., Univ. of Mumbai, Civil Engineering Section, SPCE, India; Sawant, P.H., SPCE, Mumbai, India; Bhatt, V., Civil Engineering Dept., IIT Mumbai, India","Risk is involved in every business, and the construction industry is no exception. Most of the project management issues that impact a project arise from associated uncertainties. The Indian construction industry is worth about 120 billion and this could grow considerably, driven by major projects across the country. There are a number of problems in the construction industry in India that are attributed to various factors. The focus of the present research is to identify factors that influence the smooth completion of a project and develop a risk assessment model. The authors of the paper have made an attempt to analyze the present risk condition in the construction industry by meeting experts in the field to collect first-hand information as a first step towards risk assessment and suggest a risk response strategy. A total of 93 risk factors were identified and listed under various subgroups in this paper. A questionnaire was prepared on the basis of a literature review and was filled by six contractors, four owners, five project management experts, having more than 20years of experience in the construction field in India. As the factors are represented in qualitative terms, fuzzy analytical hierarchy process (AHP) is used. The result of the study is listed, in which the percentage contribution of various factors to smooth completion is shown. Because the findings are based on a small cross section of experts, Student's t-test, a significance test, has been applied to know the significance of test findings on the general construction industry. The study results are reduced further into two groups for simplification and better understanding. The first group covers owner-, contractor-, project manager-, finance-, and resource-specific risks; and the second group covers risk pertaining to project-, architect/consultant-, external environment-, and contract-clause-specific factors. The analysis results indicate that the risks specific to the first group are found to be 10.5 to 12.0% with a standard deviation less than 1.66, whereas the percent apportionment of second group ranges from 9.5 to 13%, a larger range than the first group of factors with standard deviation up to as high as 3.3, indicating wider variation, thus making it difficult to predict their occurrence in a project. The findings are also confirmed by the project disputes related to various projects discussed in the paper. The risk response strategy suggested in this paper will be useful in mitigating the adverse effects of risk in project completion in the Indian construction industry. A planned approach in handling a project-specific and external-environment-specific risk coupled with a proper contract administration can mitigate overall risk to a greater extent in the Indian construction industry. © 2012 American Society of Civil Engineers.","Analytical hierarchy process; Construction industry; Contract administration; Contract management; India; Project risk management; Risk management; Student t-test","Analytical Hierarchy Process; Contract administration; Contract management; India; Project risk management; Contractors; Factor analysis; Project management; Risk assessment; Risk management; Statistical tests; Statistics; Construction industry",,,,,,,,,,,,,,,,"Jannadi, O.A., Almishari, S., Risk assessment in construction (2003) Journal of Construction Engineering and Management, 129 (5), pp. 492-500. , DOI 10.1061/(ASCE)0733-9364(2003)129:5(492); Assaf, S.A., Hejji, S.A., Causes of delay in large construction projects (2006) Int. J. Project Manage., 24 (4), pp. 349-357. , 0263-7863, 10.1016/j.ijproman.2005.11.010; Cheung, S.O., Yiu, T.W.Y., Yeung, S.F., A study of styles and outcomes in construction dispute negotiation (2006) Journal of Construction Engineering and Management, 132 (8), pp. 805-814. , DOI 10.1061/(ASCE)0733-9364(2006)132:8(805); Choi, H.-H., Cho, H.-N., Seo, J.W., Risk assessment methodology for underground construction projects (2004) Journal of Construction Engineering and Management, 130 (2), pp. 258-272. , DOI 10.1061/(ASCE)0733-9364(2004)130:2(258); Dave, K., Status of construction law in India problems and prospects (2007) Proc., Int. Conf. on Risk Management and Effective Implementation of Construction Projects of the Institution of Engineers India, pp. 5-14; (2005) Eleventh Five Year Plan (2007-2012), , http://planningcommission.nic.in, Government of India. (Sept. 12, 2011); Iyer, K.C., Jha, K.N., Factors affecting cost performance: Evidence from Indian construction projects (2005) International Journal of Project Management, 23 (4), pp. 283-295. , DOI 10.1016/j.ijproman.2004.10.003, PII S0263786304001000; Iyer, K.C., Jha, K.N., Critical factors affecting schedule performance: Evidence from indian construction projects (2006) Journal of Construction Engineering and Management, 132 (8), pp. 871-881. , DOI 10.1061/(ASCE)0733-9364(2006)132:8(871); Laskar, A., Murty, C.V.R., Challenges before construction industry in India (2004) Proc., National Seminar on Sustainable Infrastructure and Rehabilitation Technology, pp. 1-22. , Indian Institute of Technology, Kanpur, India; Muthanna, D.A., Hegde, S., Importance of risk management during tendering stage and risk management during execution stage in civil building and infrastructure projects (2002) Proc., Int. Conf. on Role of Risk Management in Construction Projects, pp. 69-80. , Project Management Institute and the Institution of Engineers, India; Okmen, O., Oztas, A., Construction project network evaluation with correlated schedule risk analysis model (2008) Journal of Construction Engineering and Management, 134 (1), pp. 49-63. , DOI 10.1061/(ASCE)0733-9364(2008)134:1(49); Oliveros, A.V.O., Fayek, A.R., Fuzzy logic approach for activity delay analysis and schedule updating (2005) Journal of Construction Engineering and Management, 131 (1), pp. 42-51. , DOI 10.1061/(ASCE)0733-9364(2005)131:1(42); Singh, D., Tiong, R.L.K., A fuzzy decision framework for contractor selection (2005) Journal of Construction Engineering and Management, 131 (1), pp. 62-70. , DOI 10.1061/(ASCE)0733-9364(2005)131:1(62); Singh, D., Tiong, R.L.K., Contractor selection criteria: Investigation of opinions of Singapore construction practitioners (2006) J. Constr. Eng. Manage., 132 (9), pp. 998-1006. , 0733-9364, 10.1061/(ASCE)0733-9364(2006)132:9(998); Tang, W., Qiang, M., Duffield, C.F., Young, D.M., Lu, Y., Risk management in the Chinese construction industry (2007) Journal of Construction Engineering and Management, 133 (12), pp. 944-956. , DOI 10.1061/(ASCE)0733-9364(2007)133:12(944); Vaziri, K., Carr, P.G., Nozick, L.K., Project planning for construction under uncertainty with limited resources (2007) Journal of Construction Engineering and Management, 133 (4), pp. 268-276. , DOI 10.1061/(ASCE)0733-9364(2007)133:4(268); Yi, K.J., Langford, D., Scheduling-based risk estimation and safety planning for construction projects (2006) J. Constr. Eng. Manage., 132 (6), pp. 626-635. , 0733-9364, 10.1061/(ASCE)0733-9364(2006)132:6(626); Zhang, G., Zou, P.X.W., Fuzzy analytical hierarchy process risk assessment approach for joint venture construction projects in China (2007) Journal of Construction Engineering and Management, 133 (10), pp. 771-779. , DOI 10.1061/(ASCE)0733-9364(2007)133:10(771); Zheng, D.X.M., Ng, S.T., Kumaraswamy, M.M., Applying a genetic algorithm-based multiobjective approach for time-cost optimization (2004) Journal of Construction Engineering and Management, 130 (2), pp. 168-176. , DOI 10.1061/(ASCE)0733-9364(2004)130:2(168)","Subramanyan, H.; Univ. of Mumbai, India; email: hari4444@yahoo.com",,,,,,,,07339364,,JCEMD,,"English","J Constr Eng Manage",Review,"Final","",Scopus,2-s2.0-84859590251
"Kalbande D.R., Thamp G.T.","36600660500;36601395300;","Total productive maintenance-accelerating OEE in a manufacturing industry leveraging pervasive technologies",2012,"Advanced Materials Research","383-390",,,"4568","4575",,,"10.4028/www.scientific.net/AMR.383-390.4568","https://www.scopus.com/inward/record.uri?eid=2-s2.0-83755178526&doi=10.4028%2fwww.scientific.net%2fAMR.383-390.4568&partnerID=40&md5=d4be813c2f7f14e7b77c493360029ef2","University of Mumbai, Dept. of Computer Engg., Sardar Patel Institute of Technology, Mumbai, India; Thadomal Shahani Engineering College, Sardar Patel College of Engineering, Mumbai, India","Kalbande, D.R., University of Mumbai, Dept. of Computer Engg., Sardar Patel Institute of Technology, Mumbai, India; Thamp, G.T., Thadomal Shahani Engineering College, Sardar Patel College of Engineering, Mumbai, India","Total productive maintenance (TPM) is a people-intensive, preventive maintenance system for maximizing equipment effectiveness in the enterprise. The concept of TPM was originally suggested by Nakajima (1988) who proposed overall equipment effectiveness (OEE) as a metric for evaluating the progress of TPM, which is interpreted as the multiplication of availability, performance and quality. This paper aims to study and investigate the implementation of a TPM to improve the OEE in manufacturing enterprises. In today's industrial scenario huge losses occur in the manufacturing shop floor. These losses are due to operators, maintenance personal, process, tooling problems and non-availability of components in time etc. The quality related waste are of significant importance as they matter the company in terms of time, material and the hard earned reputation of the company. There are also other invisible losses like operating the machines below the rated speed, start up loss, break down of the machines and bottle necks in process. Zero oriented concepts such as zero tolerance for losses, defects, break down and zero accidents are becoming a pre-requisite in the manufacturing and assembly industry. In this situation, a TPM is the answer to resolve the above said problems which helps in benefitting the growth prospects of any organization.","KRA (key result area); OEE; Total productive maintenance (TPM)","Break down; Equipment effectiveness; Growth prospects; In-process; Industrial scenarios; KRA (key result area); Manufacturing enterprise; Manufacturing industries; OEE; Overall equipment effectiveness; Pervasive technologies; Shop floor; Total productive maintenance; Zero-tolerance; Industry; Maintainability; Preventive maintenance; Technology; Thermoelectric power; Manufacture",,,,,,,,,,,,,,,,"Abdul Ghani, K., Jayabalanb, V., Sugumarc, M., Impact of advanced manufacturing technology on organizational structure (2002) Journal of High Technology Management Research, 13, pp. 157-175; Al-Ahmari, A.M.A., Implementing CIM systems in SMEs (2002) International Journal of Computer Applications in Technology, 15, pp. 122-127; Sambasivarao, K.V., Deshmukh, S.G., Selection and implementation of advanced manufacturing technologies: Classification and literature review of issues (1995) International Journal of Operations & Production Management, 15 (10), pp. 43-63; Meredith, J.R., Suresh, N.C., Justification techniques for advanced manufacturing technologies (1986) International Journal of Production Research, 24 (5), pp. 1043-1057; Currie, W.L., The art of justifying new technology to top management (1989) Omega, 17 (5), pp. 409-418; Chiadamrong, N., An integrated fuzzy multi criteria decision making method for the manufacturing strategies selection (1999) Computers & Industrial Engineering, 37, pp. 433-436; Kahraman, C., Ruan, D., Dogan, I., Fuzzy group decision making for facility location selection (2003) Information Science, 157, pp. 135-153; Satty, T., (1980) The Analytic Hierarchy Process: Planning, Priority, Allocation, , McGraw-Hill Book Company, New York; Dickson, G.W., An analysis of vendor selection systems and decisions (1966) Journal of Purchasing, 2, pp. 5-17; Bernroider, E., Koch, S., ERP selection process in midsized and largeorganizations (2001) Business Process Management Journal, 7 (3), pp. 251-257; Boehm, B.W., Brown, J.R., Kaspar, H., Lipow, M., MacLeod, F.J., Merritt, M.J., Characteristics of software quality (1978) TRW Series of Software Technologies, 1. , North-Holland, Amsterdam; Buckley, J.J., Fuzzy hierarchical analysis (1985) Fuzzy Sets and Systems, 17, pp. 233-247; Buss, M.D.J., How to rank computer projects (1983) Harvard Business Review, 61 (1), pp. 118-125; Butler, J., Risk management skills needed in a packaged software environment (1999) Information System Management, 16 (3), pp. 15-20; Buyukozkan, G., Kahraman, C., Ruan, D., A fuzzy multi-criterial decision approach for software development strategy selection (2004) International Journal of General Systems, 33 (2-3), pp. 259-280; Nakajima, S., (1984) Introduction to Total Productive Maintenance, , Cambridge, MA, Productivity Press; Giegling, S., Verdini, W.A., Haymon, T., Konopka, J., Implementation of overall equipment effectiveness (OEE) system at a semiconductor manufacturer (1997) Proceedings of IEEE/CPMT International Electronics Manufacturing Technology Symposium, pp. 93-97; Konopka, J., Trybula, W., Overall equipment effectiveness (OEE) and cost measurement (1996) Proceedings of IEEE/CPMT International Electronics Manufacturing Technology Symposium, pp. 137-140; Lungberg, O., Mearsument of overall equipment effectiveness as a basic for TPM activities (1998) International Journal of Operation. And Production Management, 18 (5), pp. 495-507","Kalbande, D.R.; University of Mumbai, , Mumbai, India; email: k_dhananjay@yahoo.com",,"Singapore Institute of Electronics",,"2011 International Conference on Manufacturing Science and Technology, ICMST 2011","16 September 2011 through 18 September 2011","Singapore",87754,10226680,9783037852958,,,"English","Adv. Mater. Res.",Conference Paper,"Final","",Scopus,2-s2.0-83755178526
"Ingle S.B., Maurya R.S.","54393207000;57225420052;","Experimental investigation of manifold induced flow maldistribution in U- and Z-turn flow configurations",2012,"Applied Mechanics and Materials","110-116",,,"4677","4683",,3,"10.4028/www.scientific.net/AMM.110-116.4677","https://www.scopus.com/inward/record.uri?eid=2-s2.0-81255161267&doi=10.4028%2fwww.scientific.net%2fAMM.110-116.4677&partnerID=40&md5=3c7c277889046be8ed2ab0b3c823c662","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Ingle, S.B., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Maurya, R.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","In many process equipments and mechanical system where a flow needs to be distributed among several outlets, the design is generally based on the assumption that the fluid is uniformly divided among them but practically in never happens. A non-uniform flow distribution imposes a serious design limitation in terms of rise in pressure drops and decrease in thermal performance of the system. Reynolds number being a characterizing parameter of pipe flow is expected to play a significant role in flow maldistribution pattern also. This paper present an experimental study performed on multi channel U- and Z- turn flow configurations where the flow is varied in the practical range of 20000 < Re < 35000. Result shows the presence of maldistribution. It is found that the Re plays an important role in characterizing the flow in terms of channel velocity, axial velocity in header and flow distribution pattern in a specific channel. Maldistribution effect is found to be dominant in the central region in U- turn flow and peripheral region in Z- turn configurations. © (2012) Trans Tech Publications, Switzerland.","Flow maldistribution; Multi- channel; Reynolds numbers; U- and Z- turn flow configuration","Axial velocity; Channel velocity; Design limitations; Experimental investigations; Experimental studies; Flow configurations; Flow distribution; Flow maldistribution; Mechanical systems; Multi- channel; Non-uniform flows; Process equipments; Thermal Performance; Turn flow; Aerospace engineering; Reynolds number; Machine design",,,,,,,,,,,,,,,,"Mueller, A.C., Chiou, J.P., Review of various types of flow maldistribution in heat exchangers (1988) Heat Transfer Engineering, 9 (2), pp. 36-50; Fleming, R.B., The effect of flow distribution in parallel channels of counter-flow heat exchangers (1967) Advances in Cryogenics Engineering, 12, pp. 352-357; London, A.L., Laminar flow gas turbine regenerators-the influence of manufacturing tolerances (1970) Journal of Engineering for Power, 92 (1), pp. 45-50; Shah, R.K., London, A.L., Effects of non uniform passage in compact heat exchanger performance (1980) J. Eng. Power, 102 A, pp. 653-659; Chiou, J.P., Thermal performance deterioration in cross flow heat exchanger due to flow non uniformity (1978) Journal of Heat Transfer, 100, pp. 580-587; Chiou, J.P., The combined effects of maldistributions of inlet air temperature and the induced flow non uniformity on the performance of radiator (1985) Heat, and Oil Cooler, Int. Cong., , SAE paper 850037; Datta, A.B., Majumdar, A.K., Flow distribution in parallel an reverse flow manifolds (1980) International Journal of Heat Fluid Flow, 2, pp. 253-262; Ranganayakulu, C., Seetharamu, K.N., The combined effects of longitudinal heat conduction flow non uniformity and temperature non uniformity in cross flow plate-fin heat exchanger (1999) Int. Comm. Heat Mass Transfer, 26, pp. 669-678; Bassiouny, M.K., Martin, H., Flow distribution and pressure drop in plate heat exchangers- I, U-type arrangement (1984) Chem. Eng. Science., 39, pp. 693-700; Bassiouny, M.K., Martin, H., Flow distribution and pressure drop in plate heat exchangers-II, Z-type arrangement (1984) Chem. Eng. Science, 39, pp. 701-704","Ingle, S.B.; Department of Mechanical Engineering, , Mumbai, India; email: sachiningle@indiatimes.com",,"Int. Assoc. Comput. Sci. Inf. Technol. (IACSIT)",,"2nd International Conference on Mechanical and Aerospace Engineering, ICMAE 2011","29 July 2011 through 31 July 2011","Bangkok",87387,16609336,9783037852620,,,"English","Appl. Mech. Mater.",Conference Paper,"Final","",Scopus,2-s2.0-81255161267
"Pawar N., Maurya R.S.","57204341026;57225420052;","Flow maldistribution in a simplified plate heat exchanger model - A numerical study",2012,"Applied Mechanics and Materials","110-116",,,"2529","2536",,4,"10.4028/www.scientific.net/AMM.110-116.2529","https://www.scopus.com/inward/record.uri?eid=2-s2.0-81255142644&doi=10.4028%2fwww.scientific.net%2fAMM.110-116.2529&partnerID=40&md5=280781a2f06c92b3f2873c0b3fce4706","Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","Pawar, N., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India; Maurya, R.S., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai, India","The performance of a plate heat exchanger (PHE) is severely influenced by non-uniform distribution of flow among its channels. Not only the PHEs, but many other process equipment needs uniform flow distribution for their optimum performance. Flow maldistribution (non-uniform distribution) is a common design problem which always puzzles process equipment designers. Being important design parameters, it has been investigated by several researchers and case based solution has been proposed and documented. Present numerical work is intended to target this aspect of the problem of PHEs but starts with a general investigation with simple multichannel geometry. The numerical setup consists of two headers having multiple channels for U- and Z- turn flow configuration under multichannel geometry and a simplified PHE for plate heat exchanger simulation. The problem has been investigated from hydrodynamic and thermodynamic view point. For hydrodynamic study, flow has been varied for Reynolds number 120 to 17600. It has been found that channel flow goes on reducing along downstream side. In thermal study the effect of wall temperature on air flow mal distribution has been investigated. Numerical results have been validated with the experimental results. Investigation reveals new features of flow mal-distribution which is helpful in better understanding of associated mal-distribution physics. © (2012) Trans Tech Publications, Switzerland.","Flow maldistribution; Multi-channels; Plate type heat exchanger; Reynolds number; U and Z-turn flow","Air flow; Case based; Design parameters; Design problems; Flow maldistribution; Multi channel; Multiple channels; Non-uniform distribution; Numerical results; Numerical studies; Optimum performance; Plate heat exchangers; Process equipments; Reynolds; Thermal study; Turn flow; Uniform flow distributions; Wall temperatures; Aerospace engineering; Design; Hydrodynamics; Reynolds number; Heat exchangers",,,,,,,,,,,,,,,,"Mueller, C., Chiou, J.P., Review of various types of flow maldistribution in heat exchangers (1988) Heat Transfer Engineering, 9 (2), pp. 36-50; Fleming, R.B., The effect of flow distribution in parallel channels of counter-flow heat exchangers (1967) Advances in Cryogenics Engineering, (12), pp. 352-357; London, A.L., Laminar flow gas turbine regenerators-the influence of manufacturing tolerances (1970) Journal of Engineering for Power, 92 (1), pp. 45-50; Shah, R.K., London, A.L., Effects of non uniform passage in compact heat exchanger performance (1980) J. Eng. Power, 102 A, pp. 653-659; Chiou, J.P., Thermal performance deterioration in cross flow heat exchanger due to flow non uniformity (1978) Journal of Heat Transfer, 100, pp. 580-587; Chiou, J.P., The combined effects of maldistributions of inlet air temperature and the induced flow non uniformity on the performance of radiator (1985) Heat, and Oil Cooler, Int. Cong. SAE Paper 850037; Ranganayakulu, Seetharamu, K.N., Sreevatsan, K.V., The effects of inlet fluid flow nonuniformity on thermal performance and pressure drops in cross flow plate-fin compact heat exchangers (1997) Int. J. Heat and Mass Transfer, 40 (1), pp. 27-38; Ranganayakulu, Seetharamu, K.N., The combined effects of longitudinal heat conduction flow non uniformity and temperature non uniformity in cross flow plate-fin heat exchanger (1999) Int. Comm. Heat Mass Transfer, 26, pp. 669-678","Pawar, N.; Department of Mechanical Engineering, , Mumbai, India; email: nitya.pawar@gmail.com",,"Int. Assoc. Comput. Sci. Inf. Technol. (IACSIT)",,"2nd International Conference on Mechanical and Aerospace Engineering, ICMAE 2011","29 July 2011 through 31 July 2011","Bangkok",87387,16609336,9783037852620,,,"English","Appl. Mech. Mater.",Conference Paper,"Final","",Scopus,2-s2.0-81255142644
"Khare R.K., Maniyar M.M., Uma S.R., Bidwai V.B.","8364885000;24367035200;57198062601;54079254200;","Seismic performance and design of precast concrete building structures: An overview",2011,"Journal of Structural Engineering (Madras)","38","3",,"272","284",,22,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-80054764039&partnerID=40&md5=5a4ea5c7a0eaa542c0b6e88700a50d34","Civil Engineering and Applied Mechanics Department, SGS Institite of Technology and Science, 23, Park Road, Indore (MP), 452 003, India; Sardar Patel College of Engineering, Munshi Nagar, Andheri(W), Mumbai, 400 058, India; Earthquake Engineer, Institute of Geological and Nuclear Sciences, Lower Hurt, New Zealand","Khare, R.K., Civil Engineering and Applied Mechanics Department, SGS Institite of Technology and Science, 23, Park Road, Indore (MP), 452 003, India; Maniyar, M.M., Sardar Patel College of Engineering, Munshi Nagar, Andheri(W), Mumbai, 400 058, India; Uma, S.R., Earthquake Engineer, Institute of Geological and Nuclear Sciences, Lower Hurt, New Zealand; Bidwai, V.B., Civil Engineering and Applied Mechanics Department, SGS Institite of Technology and Science, 23, Park Road, Indore (MP), 452 003, India","Seismic performance and behaviour of precast concrete structures which were not designed and detailed as per existing provisions in relevant standards was very poor during past earthquakes while the buildings constructed and designed incorporating seismic design concepts performed remarkably well. A brief review of seismic performance and design of precast concrete systems is presented to seek for the ways to improve and develop construction of precast concrete structures in India. This paper brings together the historical perspective on the performance of precast concrete structures so that lessons can be learnt to avoid the poor performance of these systems. An extensive literature on experimental studies has been also reported here to demonstrate the improved seismic performance of precast concrete systems. Further, a review and comparison of International code provisions on the design and construction of precast concrete systems is presented to help in developing the provisions and practice of these systems in Indian perspective. Identification of areas that need revision or attention in the current IS Code provisions are attempted in the light of International practice.","Design and construction; Earthquakes; Precast concrete structures; Seismic design concept; Seismic performance","Design and construction; Design concept; Experimental studies; Historical perspective; International codes; International practice; Poor performance; Seismic Performance; Concrete buildings; Concrete construction; Design; Earthquakes; Seismic design; Seismic waves; Precast concrete",,,,,,,,,,,,,,,,"Englekirk, R.E., (2003) Seismic Design of Reinforced and Precast Concrete Buildings, , John Wiley and Sons Inc., Hoboken, New Jersy; Bhuj, India earthqauke of 26 January, 2001 reconnaisance report (2002) Earthquake spectra, supplement A, 18. , Earthquake Spectra, July 2002; Matthews, J.G., (2004) Hollow-core Floor Slab Performance Following A Severe Earthquake, , Ph. D. Thesis, University of Canterbury, Christchurch, New Zealand; Lindsay, R., Mander, J.B., Bull, D.K., Experiments on the seismic performance of hollow-core floor systems in precast concrete buildings (2004) 13th World Conf. on Earthquake Engg, , Vancouver, B.C., Canada, August 1-6, Paper No. 285; MacPherson, C., (2005) Seismic Performance and Forensic Analysis of A Precast Concrete Hollow-core Floor Super-assemblage, , ME Thesis, University of Canterbury, Christchurch, New Zealand; Li, L., (2008) Further Experiments on the Seismic Performance of Structural Concrete Beam-column Joints Designed in Accordance with the Principles of Damage Avoidance Design, , M.E. Thesis, University of Canterbury, Christchurch, New Zealanad; Fintei, M., Performance of precast concrete structures during rumanian earthquake of March 4, 1977 (1977) PCI Journal, 22 (2), pp. 10-15. , Mar.-Apr; Hawkins, N.M., Seismic resistance of prestressed and precast concrete structures Part 2 - Precast Concrete (1978) PCI Jl, 23 (1), pp. 40-58. , January - February; Englekirk, R.E., Overview of ATC seminar on design of prefabricated concrete buildings for earthquake loads (1982) PCI Jl, 27 (50), pp. 80-97. , Jan - Feb; Englekirk, R.E., Seismic design considerations for precast concrete multistory buildings (1990) PCI Journal, 35 (3), pp. 40-51. , May - June; Martin, J., Rioboo, Ma., A precast prestressed concrete structural system for building located in high seismic zones (1990) PCI Jl, 35 (2), pp. 22-49. , March-April; Martin, J., Rioboo, Ma., Design considerations for precast prestressed concrete building structures in seismic area (1991) PCI Jl, 36 (3), pp. 40-55. , May - June; Pekau, O.A., Hum, D., Seismic response of friction jointed precast panel shear walls (1991) PCI Jl, 36 (2), pp. 56-71. , March -April; Ochs, J.E., Ehsani, M.R., Moment resisting connections in precast concrete frame for seismic regions (1993) PCI Jl, 38 (5), pp. 64-75. , Sept. - Oct; Restrepo, J.I., Park, R., Buchanan Andrew, H., Tests on connections of earthquake resisting precast reinforcd concrete perimeter frames of buildings (1995) PCI Jl, 40 (4), pp. 44-61. , July - August; D'Arcy Thomas, J., Nasser George, D., Gosh, S.K., Building Code provisions for Precast/ Prestressed Concrete: A brief History (2003) PCI Jl, 48 (6), pp. 116-124. , Nov. - Dec; (1995) NEHRP Recommended Provisions and Commentary, , Federal Emergency Management Agency (FEMA), FEMA 303, Washington DC; (1997) Intl. Conf of Building Officials, , UBC, Uniform Building Code, Whittier, CA; (2001) NEHRP Recommended Provisions for Seismic Regulations for New Buildings and Other Structures, , Federal Emergency Management Agency, 2000 Edidtion, Fema 368, May 1995; and Commentary, FEMA 369, March; (2002) Building Code Requirements for Structural Concrete and Commentary, , ACI 318-02, ACI 318-02. American Concrete Institute, Farmington Hills, MI; Park, R., A perspective on the seismic design of precast concrete structures in New Zealand (1995) PCI Jl, 40 (3), pp. 40-60. , May - June; Ghosh, S.K., Nakaki, S.D., Kosal, K., Precast structures in regions of high seismicity: 1997 UBC Design Provisions (1997) PCI Jl, 42 (6), pp. 76-93. , Nov. - Dec; (1998) NEHRP Recommended Provisions and Commentary, , Federal Emergency Management Agency (FEMA), FEMA 303, Washington DC; Mander, J.B., Cheng, C.-T., (1997) Seismic Resistance of Bridge Piers Based on Damage Avoidance Design, , Tech. Rep. No. NCEER-97-0014, National Center for Earthquake Engineering Research, Dept. of Civil and Environmental Engg., State Univ. of New York, Buffalo, N.Y; Hamid, N.B.A., (2006) Seismic Performance of Precast Hollow-core Wall Panels Under Bi-lateral Reverse Quasi-static Lateral Loading Simulated with Gravity Loading, , Ph.D. Thesis, University of Canterbury, Christchurch, New Zealand; Holden, T.J., Restrepo, J.L., Mander, J.B., Seismic performance of precast reinforced and prestressed concrete walls (2003) Jl of Struct.Engg, 129 (3), pp. 286-296. , ASCE, March 2003; Sudarno, L., (2003) Performance OfThin Precast Concrete Wall Panels under Dynamic Loading, , M.E. Thesis, University of Canterbury, Christchurch, New Zealand; Liyanage, L.U., (2004) Biaxial Lateral Loading Behaviour of Thin Concrete Walls, , M.E. Thesis, University of Canterbury, Christchurch, New Zealanad; Ajrab, J.J., Pekcan, G., Mander, J.B., Rocking wall- frame structures with supplemental tendon systems (2004) Jl of Struct. Engg., ASCE, 130 (6), pp. 895-903. , Jun 2; (1995) Code of Practice for the Design of Concrete Structures and Comentary, , NZS 3101: 1995, NZS 3101 Part-1 & 2:1995. Standards Association of New Zealand, Wellington, New Zealand; (2006) Code of Practice for the Design of Concrete Structures and Comentary, , NZS 3101: 2006, NZS 3101 Part-1 & 2:2006. Standards Association of New Zealand, Wellington, New Zealand; (2008) Building Code Requirements for Structural Concrete and Commentary, , ACI 318-08, ACI 31808. American Concrete Institute, Farmington Hills, MI; (1999) Acceptance Criteria for Moment Frames Based on Structural Testing, , ACI ITG/TI 1.1-99, ACI ITG/T 1.1-99 American Concrete Institute, Farmington Hills, MI; (1985) Indian Standard Code of Practice for Construction with Large Panel Prefabricates, , IS 11447: IS11447:1985, Bureau of Indian Standards, New Delhi; (2002) Indian Standard Code of Practice for Criteria for Earthquake Resistant Design of Structures -Part 1 General Provisions and Buildings, , IS1893: IS 1893:2002, Bureau of Indian Standards, New Delhi; Hawkins Neil, M., Gosh, S.K., Proposed revisions to 1997 NEHRP Recommended Provisions for seismic regulations for precast concrete structures Part 2 - Diaphragms"" (2000) PCI Jl, 45 (6), pp. 50-59. , Nov. - Dec; Mander, J.B., Cheng, C.-T., (1997) Seismic Resistance of Bridge Piers Based on Damage Avoidance Design, , Tech. Rep. No. NCEER-97-0014, National Center for Earthquake Engineering Research, Dept. of Civil and Environmental Engg., State Univ. of New York, Buffalo, N.Y; (1999) Guidelines for the Use of Structural Precast Concrete in Buildings, p. 144. , CAE, Report of a study group of the NZCS and NZSEE, Centre for Advanced Engineering, University of Canterbury, New Zealand, 1991; Cheung, P.C., Park, R., Paulay, T., (1991) Seismic Design of Reinforced Concrete Beam Column Joints with Floor Slab Support, p. 328. , Research Report 91-4, Department of Civil Engineering, University of Canterbury, Christchurch. New Zealand; Cleland, N., Ghosh, S.K., (2007) Seismic Design OfPrecast/Prestressed Concrete Structures, , Precast/ Prestressed Concrete Institute (PCI mannual), 2007; Dhakal, R.P., Khare, R.K., Mander, J.B., Economic payback of improved detailing for concrete buildings with precast hollow-core floors (2006) New Zealand Society of Earthquake Engineering Bulletin, 39 (2), pp. 106-119; (1994) Eurocode 2 - Design of Concrete Structures- Part 1-3: General Rules-Precast Concrete Elements and Structures, , Eurocode 2: 1994, EC2, European Commitee for Standardisation, Brussels; (1995) Eurocode8-DesignProvisions for Earthquake Resistance OfStructures -Part 1-3: Specific Rules for Various Materials and Elements, , Eurocode 8:1995, EC8, European Commitee for Standardisation, Brussels; Matthews, J.G., Lindsay, R., Mander, J.B., Bull, D., The seismic fragility of precast concrete buildings (2005) ICOSSAR, pp. 247-254. , Millpress, Rotterdam; Hawkins Neil, M., Gosh, S.K., Proposed revisions to 1997 NEHRP Recommended Provisions for seismic regulations for precast concrete structures Part 1- Introduction (2000) PCI Jl, 45 (3), pp. 74-77. , May - June; Park, R., Seismic design and construction of precast concrete buildings in New Zealand (2002) PCI Jl, 47 (5), pp. 60-75. , Sept. - Oct; (1992) Code of Practice for General Structural Design and Design Loadings for Buildings, , NZS 4203: NZS 4203:1992. Standards Association of New Zealand, Wellington, New Zealand, 1992; Hawkins Neil, M., Gosh, S.K., Proposed revisions to 1997 NEHRP Recommended Provisions for seismic regulations for precast concrete structures Part 2 - Seismic-forceresisting- systm (2000) PCI Jl, 45 (5), pp. 40-63. , Sept. - Oct; (2004) Precast Concrete Floors, , IB 76: Cement & Concrete Association of New Zealand (CCANZ), May; (2009) Guide to Emulating Cast-inPlace Detailing for Seismic Design of Precast Concrete Structures, , ACI 550. 1R-09, ACI 550.1R-09 American Concrete Institute, Farmington Hills, MI; (1993) Indian Standard'code Ojpracticefor Ductile Detailing of Reinforced Concrete Structures Subjected to Seismic Forces, , IS13920: IS13920:1993, Bureau of Indian Standards, New Delhi; (2000) Indian Standard Code of Practice for Plain and Reinforced Concrete, , IS456: IS456: 2000, Bureau of Indian Standards, New Delhi; Restrepo, J.L., Park, R., Buchanan Andrew, H., Design of connections of earthquake resisting precast reinforcd concrete perimeter frames"" (1995) PCI Jl, 40 (5), pp. 68-80. , Sept. - Oct; (2003) State of the Art report on the seismic design of precast concrete building structures, , fib Commission 7, New Zealand; Khare, R.K., Dhakal, R.P., Mander, J.B., Hamid, N.B.A., Maniyar, M.M., Mitigation of seismic financial risk of reinforced concrete walls by using damage avoidance design (2007) ISET Jl of Earthquake Tech., , accepted","Khare, R.K.; Civil Engineering and Applied Mechanics Department, 23, Park Road, Indore (MP), 452 003, India; email: rakeshkhare@hotmail.com",,,,,,,,09700137,,JSENE,,"English","J Struct Eng",Review,"Final","",Scopus,2-s2.0-80054764039
"Terkar R., Vasudevan H., Sunnapwar V., Kalamkar V.","37063601500;24340439300;6504099005;37060998400;","Perfect product launching strategies in the context of survival of small scale consumer products industries",2011,"Communications in Computer and Information Science","145 CCIS",,,"321","326",,1,"10.1007/978-3-642-20209-4_46","https://www.scopus.com/inward/record.uri?eid=2-s2.0-79953237422&doi=10.1007%2f978-3-642-20209-4_46&partnerID=40&md5=7f42f7690c29605c85dae610e3347c6b","Mukesh Patel School of Technology Management and Engineering, Mumbai 400 056, India; Dwarkadas J. Sanghvi College of Engineering, Mumbai 400 056, India; Lokmanya Tilak College of Engineering, Navi Mumbai 400 709, India; Sardar Patel College of Engineering, Mumbai 400 058, India","Terkar, R., Mukesh Patel School of Technology Management and Engineering, Mumbai 400 056, India; Vasudevan, H., Dwarkadas J. Sanghvi College of Engineering, Mumbai 400 056, India; Sunnapwar, V., Lokmanya Tilak College of Engineering, Navi Mumbai 400 709, India; Kalamkar, V., Sardar Patel College of Engineering, Mumbai 400 058, India","Consumer products companies are under escalating demands to reduce time-to-market and the cost of introducing new products. As product lifecycles continue to decrease, compressing development cycles and accelerating new product introductions are becoming critical. Product complexity is also increasing substantially, making development and product introduction even more challenging. This paper presents the challenges the Consumer products industry is facing, as increased complexities in the competitive environment are forcing shorter product lifecycles and increasing cost pressures. It evaluates the impact that these complexities have on the product development process and focuses on a few recommendations that Consumer products executives should consider to reduce their time-to-market and increase their return on investment for new product introductions. © 2011 Springer-Verlag.","Consumer Products; New Product Development; Perfect Product Launching; Product Cannibalization; Product Lifecycle Management; Return on Investment","New product development; Perfect Product Launching; Product Cannibalization; Product Lifecycle Management; Return on Investment; Consumer products; Investments; Launching; Life cycle; Profitability; Product development",,,,,,,,,,,,,,,,"Day, G., The Product Life Cycle Analysis and Application issue (1981) Journal of Marketing, 41, pp. 60-67; Frederic, J.H., (2001) Investigation of Product Life Concept As An Instrument in Marketing Decision Making, , University of Pretoria; Feng, K., Lempert, M., Tang, Y., Tian, K., Cooper, K., Franch, X., (2007) Defining Project Scenarios for the Agile Requirements Engineering Product-line Development Questionnaire Technical Report, , co-published as UTDCS-21-07 (UTD) and LSI-07-14-R, UPC; Gwyneth, D., (2006) Launching Your Product: Seven Marketing Musts, , Marketing Profs; Ioannis, K., (2002) Product Life Cycle Management, , Urban and Regional Innovation Research Unit, Thessaloniki; John, H., Gerard, J., Tellis, A.G., Research on Innovation: A review and Agenda for Marketing Science Emory-MSI Conference (March 2005); Johns, W.R., Kokossis, A., Thompson, F., A flow sheeting approach to integrated life cycle analysis (2008) Chemical Engineering and Processing, 47, pp. 557-564; Kotler, P., Wong, G., (2005) Principles of Marketing, Power Points, , 4th edn. Pearson Education Limited, London; Mulder, J., Brent, A.C., Selection of sustainable agriculture projects in South Africa: Case studies in the Land Care programmed (2006) J. Sustain. Agric., 28 (2), pp. 55-84; Norman, D., Why it is difficult for large companies to innovate (1998) The Life Cycle of Technology; Rick, S., Ling, G., (2010) Four Pillars for Product Lunch, , Crimson Consulting Group, Best Practices from World-Class Companies; Shah, J., Patil, R., (2008) A Stochastic Programming with Recourse Model for Supply Chain and Marketing Planning of Short Life Cycle Products, , IIMB; Terkar, R., Mantha, S., Sen, A., Effective Strategies of Product Development Phase for Product Cannibalization in Product Life Cycle Management National Conference on Design for Product Life Cycle, February 17-18, BITS, Pilani (2006); Krishnan, V., Karl, U., Product Development Decisions. A Review of Literature (2001) Management Science, 47, pp. 1-21; Witty, M., Jay, H., Jason, S., (2006) CPG Manufacturing Industry Update 1Q06, , Manufacturing Insights, an IDC company. Document # M 1201026","Terkar, R.; Mukesh Patel School of Technology Management and Engineering, Mumbai 400 056, India; email: raviterkar@gmail.com",,"Central Bank of India;IEEE Bombay section;EMC2",,"1st International Conference on Technology Systems and Management, ICTSM 2011","25 February 2011 through 27 February 2011","Mumbai",84456,18650929,9783642202087,,,"English","Commun. Comput. Info. Sci.",Conference Paper,"Final","",Scopus,2-s2.0-79953237422
"Maniyar M.M., Khare R.K.","24367035200;8364885000;","Selection of ground motion for performing incremental dynamic analysis of existing reinforced concrete buildings in India",2011,"Current Science","100","5",,"701","713",,7,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-79953040355&partnerID=40&md5=2c88964f93ab8c7441dac3dcfd56e2ef","Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India; Department of Civil Engineering, Shri Govindram Seksaria Institute of Technology and Science, Indore 452 003, India","Maniyar, M.M., Department of Structural Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India; Khare, R.K., Department of Civil Engineering, Shri Govindram Seksaria Institute of Technology and Science, Indore 452 003, India","In this article, a suite of 20 ground motion time histories has been selected from all available recorded Indian earthquake events based on a detailed statistical study performed on various ground motion parameters like peak ground acceleration, peak ground velocity, peak ground displacement, acceleration RMS, velocity RMS, displacement RMS, Arias intensity, characteristic intensity, spectral acceleration, acceleration spectrum intensity and significant duration. Statistical analysis has been performed by scaling the time histories to uniform values of various parameters considered, singly and in combination. Minimum, maximum and median values, standard deviations, and lognormal deviations have been calculated. The selected set of earthquakes in this article effectively captures the variability in response to the randomness of input motion. It represents different rates of energy input to the structures as well as different effective durations. At the same time inelastic response of single degree of freedom system shows less lognormal dispersion when scaled to median spectral acceleration for a narrow band of time-period surrounding the fundamental period, indicating converged response. Median spectral acceleration for period range significant to population of structures under consideration has been proposed as an efficient intensity measure.","Earthquakes; Ground motion; RC buildings; Statistical analysis","Anas",,,,,,,,,,,,,,,,"Vamvatsikos, D., Cornell, A.C., Incremental dynamic analysis (2002) Earthquake Eng. Struct. Dyn., 31 (3), pp. 491-514; Shrikhande, M., (2001) Atlas of Indian Strong Motion Records, , CD, Department of Earthquake Engineering, IIT Roorkee; Dhakal, R.P., Mander, J.B., Li, L., Identification of critical ground motions for seismic performance assessment of structures (2006) Earthquake Eng. Struct. Dyn., 35 (8), pp. 989-1008; Mander, J.B., Dhakal, R.P., Mashiko, N., Solberg, K.M., Incremental dynamic analysis applied to seismic financial risk assessment of bridges (2007) Eng. Struct., 29 (10), pp. 2662-2672; Chopra, A.K., Chintanpakdee, C., Inelastic deformation ratios for design and evaluation of structures: Single-degree-of-freedom bilinear systems (2004) J. Struct. Eng., ASCE, 130 (9), pp. 1309-1319; Ibarra, L.F., Krawinkler, H., Global collapse of deteriorating MDOF systems (2004) Proceedings of the 13th World Conference on Earthquake Engineering, , Vancouver, BC, Canada, Paper No. 116; Shome, N., Cornell, A., (1999) Probabilistic seismic demand analysis of nonlinear structures, , Report No. RMS-35, Department of Civil Engineering, Stanford University, USA; Sewell, R.T., (1989) Damage effectiveness of earthquake ground motion: Characterizations based on the performance of structures and equipment, p. 619. , http://www.stanford.edu/group/rms/, Ph D dissertation, Department of Civil and Environmental Engineering, Stanford University, USA; Shome, N., Cornell, A., Bazzuro, P., Carballo, J.E., Earthquake records and nonlinear responses (1998) Earthquake Spect., 14 (3), pp. 469-500; Housner, G.W., Behavior of structure during earthquakes (1959) J. Eng. Mech. Div., ASCE, 85, pp. 109-129; Von Thun, J.L., Rochim, L.H., Earthquake ground motion for design and analysis of dams (1988) Earthquake Engineering and Soil Dynamics II - Recent Advances in Ground Motion Evaluation, pp. 463-481. , Geotechnical Special Publication 20, ASCE, New York; Newmark, N.M., Hall, W.J., (1982) Earthquake Spectra and Design, p. 103. , EERI Monograph, Earthquake Engineering Research Institute Berkley, California; Nuttli, O.W., (1979) The relation of sustained maximum ground acceleration and velocity to earthquake intensity and magnitude, , Miscellaneous Paper S-71-1, Report 16, US Army Corps of Engineers, Waterways Experiment Station, Mississippi; Benjamin, J.R., (1988) A criterion for determining exceedance of the operating basis earthquake, , EPRI Report NP-5930, Electric Power Research Institute, Palo Alto, California; Kennedy, R.P., (1980) Ground motion parameter useful in structural design, , Presented at the Conference on Evaluation of Regional Seismic Hazards and Risk, Santa Fe, New Mexico; Sarma, S.K., Yang, K.S., An evaluation of strong motion records and a new parameter A95 (1987) Earthquake Eng. Struct. Dyn., 15, pp. 119-132; Arias, A., A measure of earthquake intensity (1970) Seismic Design for Nuclear Power Plants, pp. 438-483. , MIT Press, Cambridge; Chopra, A.K., (1995) Dynamics of Structures: Theory and Applications to Earthquake Engineering, , Prentice-Hall; Seismosignal, Version 3.2.0, Seismosoft Corporation","Maniyar, M.M.; Department of Structural Engineering, , Mumbai 400 058, India; email: mmmaniyar@yahoo.com",,,,,,,,00113891,,CUSCA,,"English","Curr. Sci.",Article,"Final","",Scopus,2-s2.0-79953040355
"Rane S.A., Kalamkar V.","55815157000;37060998400;","Design of push rod valve train for three cylinder diesel engine",2011,"Journal of the Institution of Engineers (India): Mechanical Engineering Division","91","JAN",,"14","19",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84859588334&partnerID=40&md5=49df6656ff5fd007fcd20ac2334e60e8","Research and Development - Engines, Mahindra and Mahindra (FES), Kandivali, Mumbai 400 101, India; Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri Mumbai 400 058, India","Rane, S.A., Research and Development - Engines, Mahindra and Mahindra (FES), Kandivali, Mumbai 400 101, India; Kalamkar, V., Mechanical Engineering Department, Sardar Patel College of Engineering, Andheri Mumbai 400 058, India","Push rod type valve train was designed for new three cylinder engine. This paper describes the design methodology followed. Air requirement was calculated considering volumetric efficiency. Valve size, valve timing and valve lift was determined to suit gas dynamics. Polydyne cam was used for minimizing vibrations and valve jump. Ramp height is calculated using cold valve clearance and static deflection of pushrod, rocker lever, rocker shaft, rocker support and cylinder head. Cam profile was optimized for acceleration and jerk. Valve spring was designed to take care of valve jump. Finally camshaft was designed considering torque and bending load from valve train.","Diesel engine; Polydyne cam; Value train; Valve timing","Bending load; Cam profile; Cold valves; Cylinder engines; Design Methodology; Static deflections; Value train; Valve lift; Valve size; Valve springs; Valve timing; Valve train; Volumetric efficiency; Cams; Diesel engines; Valves (mechanical); Engine cylinders",,,,,,,,,,,,,,,,"Buuck, B.A., Elementary Design Considerations for Valve Gears, , SAE 821574; Lill, L.R.C., Diesel engine reference book (1984) Butterworth and Co (publisher) Ltd, pp. 6/3; Kolchin, A., Demidov, V., Design of automotive engine (1984) MIR Publishers, p. 308; Rothbert, H.A., (2004) Cam Design Handbook, p. 434. , McGraw-Hill Handbooks; Paul, B., (1979) Kinematics and Dynamics of Planar Machinary, , Prentice-Hall Inc; Welsh, R.J., Plain Bearing Design Handbook","Rane, S.A.; Research and Development - Engines, Mahindra and Mahindra (FES), Kandivali, Mumbai 400 101, India",,,,,,,,00203408,,JEMDA,,"English","J Inst Eng India Mech Eng Div",Article,"Final","",Scopus,2-s2.0-84859588334
"Easowa R., Muleyb P.","36682126300;36683047800;","Micro-trigeneration:-The best way for decentralized power, cooling and heating",2010,"2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply, CITRES 2010",,,"5619812","459","466",,5,"10.1109/CITRES.2010.5619812","https://www.scopus.com/inward/record.uri?eid=2-s2.0-78650357220&doi=10.1109%2fCITRES.2010.5619812&partnerID=40&md5=cbf82782e817cfbc6c9bef33ae7d272e","Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (W), Mumbai-400 058,Maharashtra State, India","Easowa, R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (W), Mumbai-400 058,Maharashtra State, India; Muleyb, P., Department of Mechanical Engineering, Sardar Patel College of Engineering, Bhavan's Campus, Munshi Nagar, Andheri (W), Mumbai-400 058,Maharashtra State, India","Optimum utilization of energy is the need of the hour to alleviate present energy crisis. Micro-Trigeneration system is an effective way of efficient utilization of fuel as an energy source. Around 60% of power in India is generated by conventional methods where 35% of fuel energy is converted into electricity. The rest of the energy is wasted thus affecting economy and environment adversely. Electricity is available for consumer with significant distribution and transmission losses. In such a scenario, generation of electricity at the point of use with maximum utilization of fuel energy is an effective way of avoiding generation and distribution losses. This is the objective of a Micro-Trigeneration system. Trigeneration is a step ahead of cogeneration plants which are used for Combined Heating, Cooling and Production of electricity (CHCP) using single fuel. For experimental proof of the concept, a LPG driven Bajaj 4-stroke IC engine was used as the prime mover. The energy available from engine is utilized for running the compressor of air conditioner and a generator. The former produces cooling of a cabin and the latter generates electricity to illuminate the cabin, run a fan inside the cabin and charge a battery. The heat of exhaust gas from the engine is recovered for water heating by using a heat exchanger. Thus combined heating, cooling and production of electricity is achieved at source to fulfill local requirements. The micro-Trigeneration unit gives an overall efficiency of 96% in terms of fuel energy conversion into other useful forms curtailing energy loss to only 4% thus resulting in economical and environmental benefits. The successful operation of this project proves to be a precursor for the development of a commercial trigeneration system. ©2010 IEEE.","Cogeneration; Micro-trigeneration; Trigeneration","Air conditioners; Cogeneration; Combined heating; Conventional methods; Distribution loss; Energy crisis; Energy loss; Energy source; Environmental benefits; Fuel energy; IC engines; Overall efficiency; Point of use; Prime movers; Single fuels; Transmission loss; Tri-generation; Trigeneration systems; Utilization of fuel; Water heating; Cogeneration plants; Cooling; Electricity; Energy conversion; Energy dissipation; Energy policy; Fuels; Gas engines; Heating; Innovation; Electric generators",,,,,,,,,,,,,,,,"Godefroy, J., Boukhanouf, R., Riffat, S., Design, Testing & Mathematical Modeling of a Small Scale CHP & Cooling System (2007) Journal of Applied Thermal Engineering, 27 (1). , January; De Paepe, M., Herdt, P.D., Mertens, D., Micro-CHP Systems for Residential Applications (2006) Journal of Applied Thermal Engineering, , February; Smith, M.A., Few, P.C., Twidell, J.W., Technical & Operational Performance of a Small Scale Combine Heat & Power (CHP) Plant (2000) Journal of Applied Thermal Engineering, , January","Easowa, R.; Department of Mechanical Engineering, Munshi Nagar, Andheri (W), Mumbai-400 058,Maharashtra State, India; email: r_easow@spce.ac.in",,"Hannover Messe;Clean Energy Council;NewEnergyWorldNetwork.com (NEWNET)",,"2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply, CITRES 2010","27 September 2010 through 29 September 2010","Waltham, MA",82831,,9781424460762,,,"English","IEEE Conf. Innovative Technol. Effic. Reliable Electr. Supply, CITRES",Conference Paper,"Final","",Scopus,2-s2.0-78650357220
"Kalbande D.R., Thampi G.T.","36600660500;36601395300;","(NAHP) Neuro-Analytical Hierarchy Process approach for selecting ERP technologies in a ongoing project settings",2010,"Proceedings - 2010 3rd IEEE International Conference on Computer Science and Information Technology, ICCSIT 2010","4",,"5564949","274","279",,2,"10.1109/ICCSIT.2010.5564949","https://www.scopus.com/inward/record.uri?eid=2-s2.0-77958519671&doi=10.1109%2fICCSIT.2010.5564949&partnerID=40&md5=6960b8bc58e0b4d9b57f2a94c29580da","Dept. of Computer Engg., Sardar Patel Institute of Technology, University of Mumbai, Mumbai, India; Thadomal Shahani Engineering College, Sardar Patel College of Engineering, Mumbai, India","Kalbande, D.R., Dept. of Computer Engg., Sardar Patel Institute of Technology, University of Mumbai, Mumbai, India; Thampi, G.T., Thadomal Shahani Engineering College, Sardar Patel College of Engineering, Mumbai, India","This paper provides a solution for ERP software selection & elimination. ERP is a way to integrate data and processes of an organization into a centralized system that aims to have a single software solution where the information needed for decision making is shared across different departments. The selection or elimination of technology is a multi-criteria, multi-attribute, decision making problem, which involves both tangible and intangible factors that can be solved by Neuro-Analytical Hierarchy Process (NAHP). NAHP, which is based on Neural Networks, is a completely new approach towards solving this problem. We make a pair wise comparison of software (ERP) which helps in determining its relative ability to reach the decision goal. Thus NAHP automates the decision making process by justifying'Why to select one technology?' and'Why to eliminate one technology?' which helps in benefiting the growth prospects of any organization. © 2010 IEEE.","AHP; Enterprise Resource Planning (ERP); Neural networks; Neuro-Anafytical Hierarchy Process (NAHP)","AHP; Analytical Hierarchy Process; Centralized systems; Decision making process; Decision-making problem; Enterprise resources; ERP software; Growth prospects; Hierarchy process; Intangible factors; Multi-attributes; Multi-criteria; New approaches; Pair-wise comparison; Single software solutions; Computer science; Computer software selection and evaluation; Decision making; Hierarchical systems; Information technology; Neural networks; Resource allocation; Enterprise resource planning",,,,,,,,,,,,,,,,"Munir, Z., Hua, N.G., Talib, A., Ilyas, M., eBusiness process-personalization using neuro-fuzzy adaptive control for interactive systems (2006) Review of Business Research Papers, 2 (4), pp. 39-50. , December; The Use of Artificial Neural Networks for Technology Selection in the Presence of Both Continuous and Categorical Data Reza Farzipoor Saen Department of Industrial Management, Faculty of Management and Accounting, Islamic Azad University-Karaj Branch, P.O. Box: 3 I 485-3 I 3, Karaj, Iran; Kar, A.K., Using Fuzzy Neural Networks and Analytic Hierarchy Process for Supplier Classification in e-Procurement, , XLRI School of Business & Human Resources, India; Enkata Rao, R.Y., Springer series in advanced manufacturing (2009) Decision Making in the Advanced Manufacturing Environment Using Graph Theory & Fuzzy MADM Methods; Satty, T., (1980) The Analytic Hierarchy Process: Planning, Priority, Allocation, , McGraw-Hill Book Company, New York; Dickson, G.W., An analysis of vendor selection systems and decisions (1966) Journal of Purchasing, 2, pp. 5-17; Ghodsypour, S.H., O'Brien, C., A decision support system for support selection using an integrated analytic hierarchy process and linear programming (1998) International Journal of Production Economics, 56-57, pp. 199-212; Bernroider, E., Koch, S., ERP selection process in midsized and largeorganizations (2001) Business Process Management Journal, 7 (3), pp. 251-257; Bingi, P., Sharma, M.K., Godla, J.K., Critical issues affecting and ERP implementation (1999) Information Systems Management, 16 (3), pp. 30-36; Alexix Leon. ERP Demystified 2000 Tata McGraw Hill Publishing Company Limited; Sivanandam, S.N., Deepa, S.N., (2007) Principles of Soft Computing, , by, Wiley India Pvt.Ltd; Lacher, R.C., Kuncicky, D.C., Backpropogation learning in expert networks (1992) IEEE Transaction on Neural Networks, , (January)","Kalbande, D. R.; Dept. of Computer Engg., , Mumbai, India; email: k_dhananjay@yahoo.com",,,,"2010 3rd IEEE International Conference on Computer Science and Information Technology, ICCSIT 2010","9 July 2010 through 11 July 2010","Chengdu",81988,,9781424455386,,,"English","Proc. - IEEE Int. Conf. Comput. Sci. Inf. Technol., ICCSIT",Conference Paper,"Final","",Scopus,2-s2.0-77958519671
"Totare N.P., Pandit S.","36348791000;36604990100;","Power sector reform in Maharashtra, India",2010,"Energy Policy","38","11",,"7082","7092",,13,"10.1016/j.enpol.2010.07.027","https://www.scopus.com/inward/record.uri?eid=2-s2.0-77957774468&doi=10.1016%2fj.enpol.2010.07.027&partnerID=40&md5=c060ff0d063316f55ea2a1d9b5b61991","Department of Electrical Engineering, Lokamanya Tilak College of Engineering, Navi Mumbai 400709, Maharashtra, India; Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai 400058, Maharashtra, India","Totare, N.P., Department of Electrical Engineering, Lokamanya Tilak College of Engineering, Navi Mumbai 400709, Maharashtra, India; Pandit, S., Department of Electrical Engineering, Sardar Patel College of Engineering, Mumbai 400058, Maharashtra, India","In early 1990 the power sector in India required an initial set of reforms due to the scarcity of financial resources and its deteriorating technical and commercial efficiency. The Indian power sector is now going through a second stage of reforms in which restructuring of electric supply utilities has taken place. The Maharashtra State Electricity Board (MSEB) initiated reforms in 2005 by dividing the state electricity board into four separate companies. In this paper, the situations that led to the reform of the MSEB and the scope of the work required for an action plan initiated by the state electricity distribution company in the context of the proposed Key Performance Index are discussed. The post-reform status of the distribution company is analyzed with selected key parameters. The study also analyzes the electricity supply model implemented and the effect of a multi-year tariff plan as one of the key milestones of the tariff structure. The various new projects implemented by the distribution company to improve consumer services and the reform experiences of the other states are discussed, along with the future scope of the present reform process. © 2010 Elsevier Ltd.","Electricity supply model; Key Performance Index; Power sector reform","Action plan; Consumer services; Distribution companies; Electric supply; Electricity distribution companies; Electricity supply; Electricity supply model; Financial resources; Key parameters; Key Performance Index; Maharashtra , India; New projects; Power sector; Power sector reform; State electricity boards; Tariff structures; Electric utilities; Electricity; Industry; Electric network analysis; electricity industry; electricity supply; energy policy; industrial restructuring; tariff structure; India; Maharashtra",,,,,,,,,,,,,,,,"(2006), ABPS Infrastructure Advisory, 2006. Introduction of availability based tariff regime at state level within Maharashtra and related issues, November 13; (2007), ABPS Infrastructure Advisory, 2007. Distributed generation based Franchisee for electricity distribution, a discussion paper, February; Bhattacharyya, S.C., An over view of problems and prospects for the Indian power sector (1994) Energy, 19 (7), pp. 795-803; (2003), Central Electricity Authority, 2003. Electricity Bill 2003. Government of India; (2009), Central Electricity Authority, 2009. Operation Performance Monitoring Division. Electrical Energy Generation Review (April 08-Jan. 09); (1998), http://www.cercind.gov.in, Central Electricity Regulatory Commission, 1998. Electricity Regulatory Commission Act, Government of India. Available at; (2002), Central Electricity Regulatory Commission, 2002. Implementation of ABT in Western Region, New Delhi, India; (1998), 33 (17). , Dixit, Shantanu, Sant, Girish., Wagle, Subodh, 1998.Regulation in the WB-Orissa model: cure worse than disease. Economic and Political Weekly April 25; (2001), Kanungo Committee., 2001. Report of the Committee of Independent Experts. Government of Orissa, India; Kirschen, (2004) Starbac Fundamentals of Power System Economics, , John Wily & Sons Ltd; (2009), pp. 59-63. , Mehta, Ajoy, 2009. Face 2 Face. IEEMA, October; (2002), Maharashtra Electricity Regulatory Commission, 2002.Tariff booklet for year 2001-02; (2004), Maharashtra Electricity Regulatory Commission, 2003a.Tariff booklet for year 2003-04; (2003), Maharashtra Electricity Regulatory Commission, 2003b. In the matter of State Government subsidy in respect of agricultural and powerloom consumers, Case no. 60 of; (2004), Maharashtra Electricity Regulatory Commission, 2004a. Trading license conditions regulations; (2004), Maharashtra Electricity Regulatory Commission, 2004b. In the matter of State Govt. subsidy for providing free electricity supply to agricultural consumers, Case no. 13 of; (2004), Maharashtra Electricity Regulatory Commission, 2004c. Transmission license conditions regulations; (2005), Maharashtra Electricity Regulatory Commission, 2005a. Annual Report 2004-05; (2005), Maharashtra, Electricity Regulatory Commission, 2005b. Distribution open access regulation; (2005), Maharashtra Electricity Regulatory Commission, 2005c. Tariff order for year 2006-07, Case no. 54 of; (2005), Maharashtra Electricity Regulatory Commission, 2005d. In the matter of State Govt. subsidy for providing free electricity supply to agricultural consumers, Case no. 28 of; (2005), Maharashtra Electricity Regulatory Commission, 2005e. In the matter of Maharashtra State Electricity Distribution Company Limited petition for approval of rates for power purchase from captive power project holders, Case no. 47 of; (2005), Maharashtra Electricity Regulatory Commission, 2005f. Methodology for computation of Cross-Subsidy Surcharge for Open Access transactions; (2005), Maharashtra Electricity Regulatory Commission, 2006a. Confederation of Indian Industry (CII) Proposal to use Captive Power to mitigate load shedding in Pune Urban Circles of MSEDCL, Case no. 29 of 2005, January 25; (2005), Maharashtra Electricity Regulatory Commission, 2006b. Development of Transmission Pricing Framework for the State of Maharashtra and other related matters, Case no. 58 of 2005, June 27; (2006), Maharashtra Electricity Regulatory Commission, 2006c. Determination of Transmission Tariff for Intra-State Transmission System for FY 2006-07, Case no. 31 of 2006, September 29; (2006), Maharashtra Electricity Regulatory Commission, 2006d. Tariff order for year 2007-08, Case no. 65 of; (2006), Maharashtra Electricity Regulatory Commission, 2006e. State Grid Code Regulations; (2007), Maharashtra Electricity Regulatory Commission, 2007a.Tariff order for year 2008-09, Case no. 72 of; (2010), Maharashtra Electricity Regulatory Commission, 2007b. Determination of Transmission Tariff for Intra-State Transmission System for the first year of the MYT Control Period (2007-08 to 2009-10), April 2; (2008), Maharashtra Electricity Regulatory Commission, 2007c. Determination of Annual Revenue Requirement of Maharashtra State Electricity Distribution Company Ltd, for the Control Period from FY 2007-08 to FY 2009-10 and Tariff for Year 2007-08, May 18; (2008), Maharashtra Electricity Regulatory Commission, 2008a. Appointment of Interim Franchisee and approval of reliability charges to be recovered from Pune consumers. Maharashtra Electricity Regulatory Commission, Case no. 5 of 2008, June 20; (2008), Maharashtra Electricity Regulatory Commission, 2008b. License for Trading of Electricity in the State of Maharashtra License no. 2 of; (2008), Maharashtra Electricity Regulatory Commission, 2009a. MSETCL Annual Performance Review for FY 2008-09 and Aggregate Revenue Requirement for FY 2009-10, Case no. 114 of 2008, May 28; (2009), Maharashtra Electricity Regulatory Commission, 2009b. License for Transmission of Electricity in the State of Maharashtra; (2002), Maharashtra Power Sector Reform, 2002. White Paper, Industries, Energy and Labor Department Manatralaya Government of Maharashtra, Mumbai, India, August 28; (2005), Maharashtra State Electricity Distribution Company Ltd, 2005. Ten Point Action Plan; (2010), http://www.mahadiscom.com/esp, Maharashtra State Electricity Distribution Company Ltd, 2010a. Category wise connected load of MSEDCL. Available at Last visited on 26 February; (2010), http://www.mahadiscom.com/consumer/distribution%20loss%20Circle.pdf, Maharashtra State Electricity Distribution Company Ltd, 2010b. Circle wise distribution loss of MSEDCL. Available at Last visited on 26 February; (2010), http://www.mahagenco.com/installed-capacity-01.shtm, Maharashtra State Electricity Generation Company Ltd, 2010. Installed capacity. Available at Last visited on 26 February; (2010), http://www.mahatransco.com/aboutus/ataglance.shtm, Maharashtra State Electricity Transmission Company Ltd, 2010. MSETCL Infrastructure. Available at Last visited on 26 February; (1995), Ministry of Power, 1995. Private Power Promotion through Captive Power route; (1995), Ministry of Power, 1997. Captive Circular; (2001), http://www.powermin.nic.in/apdrp, Ministry of Power, 2001. Accelerated Power Development and Reform Program. Government of India. Available at; (2006), Ministry of Power, 2006a. The Gazette of India, Extraordinary, Part-I, Section 1, Rural Electrification Policy. Government of India; (2006), Ministry of Power, 2006b. Rural Electrification Policy, Bharatnirman; (2002), Minority Staff, Committee, 2002. Background on Enron's Dabhol Power Project Government Reform. U.S. House of Representatives, February 22; (1997), Policy for Captive Power Generation, 1997. Industries, Energy and Labor Department Manatralaya Government of Maharashtra, Government Resolution No. MISC 1195/CR-8/NRG-7, Mumbai, India, December 20; (2010), Power Exchange India; (2008), Power Finance Corporation Limited, 2009. Report on the performance of the State Power Utilities for the year 2005-06 to 2007-08; (2000), Prayas Energy Group, 2000. Godbole Committee on Enron Project: expose and way-out. Economic and Political Weekly, June; (2006), Prayas Energy Group. 2006. Critical review of the performance of Delhi Privatized Distribution Company and the Regulatory Process. Occasional Report Prayas, Pune, India, May; Rajan, A.T., Power sector reform in Orissa: an ex-post analysis of the casual factors (2000) Energy Policy, 28, pp. 657-669; (2006), http://www.recindia.nic.in/download/T_DCateg.pdf, Rural Electrification Corporation Limited, 2006. Government of India. Available at; Sharma, D.P., Nair, P.S.C., Balasubramanian, R., Performance of Indian Power Sector during a decade under restructuring: critique (2005) Energy Policy, 33, pp. 563-576; (1995), http://www.prayas.com, Sant, Girish, Dixit, Shantanu, 1995. The Enron Controversy Techno-Economic Analysis and Policy Implications. Prayas Energy Group, September. Available at; (1995), Sant, Girish, Dixit, Shantanu, Wagle, Subodh, 1995. The Power Purchase Agreement (PPA) Between Dabhol Power Company and Maharashtra State Electricity Board: the structure and its techno-economic implications. Economic and Political Weekly, June; (2003), http://pesd.stanford.edu/Publications, Tongia, Rahul, 2003. The Political Economy of Indian Power Sector. A working paper 4, available at; Wamukonya, N., Power sector reform in developing countries: mismatched agendas (2003) Energy Policy, 31, pp. 1273-1289","Totare, N.P.; Department of Electrical Engineering, , Navi Mumbai 400709, Maharashtra, India; email: ninadtotre@rediffmail.com",,,,,,,,03014215,,ENPYA,,"English","Energy Policy",Article,"Final","",Scopus,2-s2.0-77957774468
"Sarkar K., Tiwary A., Singh T.N.","35786609000;36127090500;35462660300;","Estimation of strength parameters of rock using artificial neural networks",2010,"Bulletin of Engineering Geology and the Environment","69","4",,"599","606",,68,"10.1007/s10064-010-0301-3","https://www.scopus.com/inward/record.uri?eid=2-s2.0-77957999072&doi=10.1007%2fs10064-010-0301-3&partnerID=40&md5=dd43cebc9553baeb691f13273eef9f28","Department of Civil Engineering, SPCE, Munshi Nagar, Andheri (W), Mumbai 400058, India; Institute of Technology, BHU, Varanasi 221005, India; Department of Earth Sciences, IIT Bombay, Powai 400076, India","Sarkar, K., Department of Civil Engineering, SPCE, Munshi Nagar, Andheri (W), Mumbai 400058, India; Tiwary, A., Institute of Technology, BHU, Varanasi 221005, India; Singh, T.N., Department of Earth Sciences, IIT Bombay, Powai 400076, India","The accurate determination of geomechanical properties such as uniaxial compressive strength and shear strength requires considerable time in collecting appropriate samples, their preparation and laboratory testing. To minimize the time and cost, a number of empirical relations have been reported which are widely used for the estimation of complex rock properties from more easily acquired data. This paper reports the use of an artificial neural network to predict the deformation properties of Coal Measure rocks using dynamic wave velocity, point load index, slake durability index and density. The results confirm the applicability of this method. © 2010 Springer-Verlag.","Artificial neural networks; Rock properties; Strength parameters","Artificial Neural Network; Deformation properties; Empirical relations; Geomechanical properties; Laboratory testing; Point load; Rock properties; Slake durability; Strength parameters; Uniaxial compressive strength; Wave velocity; Compressive strength; Rocks; Shear strength; Wave propagation; Neural networks; artificial neural network; compressive strength; deformation; estimation method; rock mechanics; shear strength; uniaxial strength",,,,,"Council of Scientific and Industrial Research, India, CSIR","Acknowledgments One of the authors is grateful to CSIR, New Delhi, for providing financial assistance to complete the work.",,,,,,,,,,"Hubick, K., ANNs thinking for industry (1992) Process Control Eng, 15 (11), pp. 36-38; Khandelwal, M., Singh, T.N., Evaluation of blast induced ground vibration predictors (2007) Soil Dyn Earthq Eng, 27 (2), pp. 116-125; Kosko, B., (1994) Neural Networks, Fuzzy System; a Dynamical System Approach to Machine Intelligence, p. 1217. , New Delhi: Prentice-Hall of India; Lee, C., Sterling, R., Identifying probable failure modes for underground openings using a neural network (1992) Int J Rock Mech Min Sci Geomech Abstr, 29 (1), p. 4967; Meulenkamp, F., Alvarez, G.N., Application of neural networks for the prediction of the unconfined compressive strength (UCS) from Equotip hardness (1999) Int J Rock Mech Min Sci, 36, pp. 29-39; Millar, D., Clarici, E., Investigation of back-propagation artificial neural networks in modelling the stress-strain behaviour of sandstone rock (1994) IEEE Int Conf Neural Netw, 5, pp. 3326-3331; Narula, P.L., Shanker, R., Chopra, C., Rupture mechanism of Chamoli earthquake of 29th March 1999 and its implications for seismotectonics of Garwal Himalaya (2000) J Geol Soc India, 55 (5), pp. 493-503; Sarkar, K., Singh, T.N., Reddy, D.V., Prediction of strength parameters by dynamic wave (2009) Int J Earth Sci Eng, 2 (1), pp. 12-19; Simpson, P.K., (1990) Artificial Neural System-Foundation, Paradigm Application and Implementations, , New York: Pergamon Press; Singh, T.N., Dubey, R.K., A study of transmission velocity of primary wave (P-Wave) in Coal Measures sandstone (2000) J Sci Ind Res India, 59, pp. 482-486; Singh, V.K., Singh, D., Singh, T.N., Prediction of strength properties of some schistose rocks (2001) Int Rock Mech Min Sci, 38 (2), pp. 269-284; Singh, T.N., Kanchan, R., Saigal, K., Verma, A.K., Prediction of P-wave velocity and anisotropic properties of rock using Artificial Neural Networks technique (2004) J Sci Ind Res, 63 (1), pp. 32-38; Singh, T.N., Kanchan, R., Verma, A.K., Saigal, K., A comparative study of ANN and neuro-fuzzy for the prediction of dynamic constant of rockmass (2005) J Earth Syst Sci, 114 (1), pp. 75-86; Sirat, M., Talbot, C.J., Application of artificial neural networks to fracture analysis at the A. spo. HRL, Sweden: fracture sets classification (2001) Int J Rock Mech Min Sci, 38 (5), p. 62139; Tiryaki, B., Predicting intact rock strength for mechanical excavation using multivariate statistics, artificial neural networks, and regression trees (2008) Eng Geol, 99, pp. 51-60; Yilmaz, I., Yuksek, A.G., Technical note: an example of artificial neural network (ANN) application for indirect estimation of rock parameters (2008) Rock Mech Rock Eng, 41 (5), pp. 781-795","Sarkar, K.; Department of Civil Engineering, Munshi Nagar, Andheri (W), Mumbai 400058, India; email: kripamoy@rediffmail.com",,,,,,,,14359529,,,,"English","Bull. Eng. Geol. Environ.",Article,"Final","",Scopus,2-s2.0-77957999072
"Shrivastava P., O'Mahony M.","7005395057;56186787100;","Integrated approach towards sustainable development",2010,"World Review of Intermodal Transportation Research","3","1-2",,"26","45",,,"10.1504/WRITR.2010.031578","https://www.scopus.com/inward/record.uri?eid=2-s2.0-77951286595&doi=10.1504%2fWRITR.2010.031578&partnerID=40&md5=912d873edc4c7fbf679f2a8f8c83b79e","Department of Civil Engineering, Sardar Patel College of Engineering, Bhavan's Campus, Andheri (W), Mumbai - 400058, India; Department of Civil, Structural and Environmental Engineering, Trinity College, University of Dublin, Dublin-2, Ireland","Shrivastava, P., Department of Civil Engineering, Sardar Patel College of Engineering, Bhavan's Campus, Andheri (W), Mumbai - 400058, India; O'Mahony, M., Department of Civil, Structural and Environmental Engineering, Trinity College, University of Dublin, Dublin-2, Ireland","Public transport systems, both rail and road, have over previous years developed relatively independent of each other and in competition with the private car. In recent years the changes in demand for public transport due to increase in car ownership, changes in land use and wider economic forces have highlighted the importance of integrating existing networks as an alternative to mass development of new transport systems. At the same time, citizens are becoming more demanding. This multi-faceted challenge can only be addressed by adopting an integrated approach to mobility issues with the support of all protagonists. This approach must be based on twin foundations: on the one hand, the coordination of urban policies with journey policies, and, on the other hand, modal integration between transport networks. The integration of different modes including non-motorised transport (NMT) with public transport services is essential for sustainable development and is a real challenge for transport planners. In view of the above the overall concepts of system integration, issues related to integration of NMT services with public transport modes, more effective operations of demand responsive transport (DRT) over conventional bus services in the present scenario, improvement of network characteristics due to integration of modes, etc. have been discussed in this paper. Various policies, issues, challenges and problems to be faced for integrated urban mass transportation system planning towards sustainable development are presented in this paper. Copyright © 2010 Inderscience Enterprises Ltd.","Intermodal coordination; Mass transport; Modal integration; Public transportation; Sustainable development",,,,,,,,,,,,,,,,,"(2001) CfIT Research Report, , http://www.cfit.gov.uk/research/ebp/stage2/, available at, accessed on 06 August 2004; Research report on European best practice in delivering integrated transport (2001) Key Findings, , http://www.cfit.gov.uk/research/ebp/key/03.htm, Commission for Integrated Transport, accessed on 05 August 2004, available at; A platform for change - Summary report (2001) Summary of Integrated Transportation Strategy for Greater Dublin Area, pp. 2000-2016. , Dublin Transport Office; (1999) INTRAMUROS: Integrated Urban Transport Concepts and Systems, , European Commission, European Commission, Directorate General Transport, Office for official publications of the European commission, Luxembourg; Gleave, S.D., (1994) Dublin Transportation Initiative, , Final Report and Technical reports (Ten), Stationery Office, Dublin; (1987) Estimation of Total Road Transport Freight and Passenger Movement in India for the Year 2000 AD, , Government of India, Department of Surface Transport, Government of India, New Delhi; Hutchinson, B.G., (1974) Principles of Urban Transport Systems Planning, pp. 54-80. , McGraw-Hill Book Company, Washington DC; Kadiyali, L.R., (1997) Traffic Engineering and Transport Planning, pp. 709-716. , 6th ed., Khanna Publisher, New Delhi, India; Leake, G.R., Read, M., POTENTIAL OF FEEDER BUS SYSTEMS SERVING COMMUTER RAIL STATIONS. (1979) Traffic Eng Control, 20 (2), pp. 52-58; Lewis, H., (1986) The Impact of Metro and Public Transport Integration in Tyne and Wear, , Metro Monitoring and Development Study, Transport and Road Research Laboratory, University of Newcastle upon Tyne, UK; Marcus, E., Stephen, P., Graham, P., Mark, S., (2004) INTERMODE: Innovations in Demand Responsive Transport, , Department for Transport and Greater Manchester Passenger Transport Executive, Final Report; (1966) Project Metran: An Integrated, Evolutionary Transportation System for Urban Areas, pp. 238-245. , Massachusetts Institute of Technology, MIT press; Mezghami, M., From public transport to integrated mobility (2003) Public Transport International, , http://www.uitp.com/Events/madrid/mediaroom/Backgrounders/ transport_quality.htm, available at, accessed on 05.08.2004; (1984) Integrated Policy and Planning for Transport in A New Ireland, , New Ireland Forum, Stationary Office, New Ireland Forum Sectoral Studies, Dublin; Parkhurst, G., A longer - Range strategy for car - Bus interchange: The 'link-and-ride' concept (2000) Traffic Engineering and Control, pp. 319-324; Patankar, P.G., Public transport in Mumbai - Are we not kidding city commuters (1999) Newsletter, Indian Roads & Transport Development Association, 68 (9), pp. 1-7; Roberta, R., System integration (1979) Public Transportation Planning, Operations and Management, pp. 205-222. , Gray, G.E. and Hoel, L.A. (Ed), Prentice Hall Inc; Shrivastava, P., (1991) Utility of Suburban Railway for Madras City: A Case Study from Beach - Tambaram Section, , Thesis on Master of Technology submitted at Transportation System Engineering Division, Civil Engineering Department, Indian Institute of Technology, Madras, Chennai, India; Shrivastava, P., Dhingra, S.L., Development of a model for operational integration of public transport mode - A case study of Mumbai (2000) Proceedings of All India Seminar on Urban Mass Transit Systems Held during 15-16, pp. 52-61. , by Institution of Engineers, Maharashtra State centre, India; Shrivastava, P., Dhingra, S.L., Urban mass transportation systems (2001) Proceedings of National Seminar on National Connectivity Vision: Surface Transportation & Communication Organized, pp. 119-134. , by Indian National Academy of Engineering on January 19-20, 2001; Shrivastava, P., Dhingra, S.L., Development of coordinated schedules using genetic algorithms (2002) Journal of Transportation Engineering, 128 (1), pp. 89-96. , DOI 10.1061/(ASCE)0733-947X(2002)128:1(89); Shrivastava, P., O'mahony, M., Modeling an integrated public transport system - A case study in Dublin Ireland (2005) 'Transportation' Journal, , Submitted to; Sosslau, A.B., Heanue, K.E., Black, A.J., Evaluation of new modal split procedure (1964) Public Roads, 33 (1). , Washington; Taylor, D., Problems of integration and how they can be overcome (1977) Proceedings of Symposium on 'Integrating Public Transport, pp. 29-31. , organised by Department of Civil Engineering, Division of Transport Engineering, University of Newcastle Upon Tyne; (2001) European Best Practice in the Delivery of Integrated Transport, , WS Atkins Transport Planning Group, Report on Stage 2: Case Studies; White, P.R., (2002) Public Transport: Its Planning, Management and Operation, , 4th ed., Spon, London; Wood, C., (1996) Integrating Cycling and Public Transport, pp. 3-28. , TransPlan Occasional Paper No.1, TransPlan, Transport and Planning Research Network, Norwich, UK","Shrivastava, P.; Department of Civil Engineering, Bhavan's Campus, Andheri (W), Mumbai - 400058, India; email: shrivasp@gmail.com",,,"Inderscience Publishers",,,,,17494729,,,,"English","World Rev.of Intermodal Transp. Res.",Article,"Final","All Open Access, Green",Scopus,2-s2.0-77951286595
"Poojary M.R., Kalamkar V.R.","55184959200;37060998400;","Validating the simulation results for testing of tractor roll-over protective structures (ROPS)",2009,"Journal of the Institution of Engineers (India): Mechanical Engineering Division","90","OCTOBER",,"43","46",,2,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84859769398&partnerID=40&md5=1c6519b2a12203acc2370897b030687a","Tata Technologies, Pune 411 057, India; Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India","Poojary, M.R., Tata Technologies, Pune 411 057, India; Kalamkar, V.R., Department of Mechanical Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India","Operator's safety is one of the most important factors in tractor design. There is always a risk of getting injured or causing death by tractor roll over depending upon the machine characteristics, environment, terrains etc. In the year 1991 in US, nearly 31% of casualties in the agricultural field were occured related to tractor failure. Outofthese, 47% were caused by tractor overturns (National Safety Council, 1992). Many of these fatalities could have been prevented if the tractors had been equipped with roll over protective structures (ROPS). ROPS are designed to protect the operator by absorbing kinetic energy resulting from the impact of the tractor with the ground surface in the event of an overturn. This paper includes a simulation methodology for evaluating the exposure criterion, which must be satisfied by the tested rollover protective structures (ROPS) as per Society of Automotive Engineers (SAE) standard J2194. The exposure criteria describe a failure condition in which the clearance zone is exposed to the ground plane during a tractor overturn. The computer aided engineering (CAE) simulation of the ROPS was carried out using non linear explicit finite element software LS-DYNA and implicit solver ABAQUS to find out the actual deformation of ROPS under loading. During the static test, the ROPS is subjected to static loads in different directions sequentially and the deflection for each loading is found. The Spring back effect of the ROPS after unloading has also been simulated in this study. If the ROPS has absorbed the required amount of energy and also if the deflections are within the exposure criteria, then the ROPS design is considered to be adequate. The simulated results are compared to actual ROPS static tests to evaluate the accuracy of simulation.","CAE; Clearance zone; ROPS; Safety; Tractor","Agricultural fields; Clearance zone; Computer aided engineering simulations; Explicit finite elements; Failure conditions; Ground planes; Ground surfaces; Implicit solvers; National Safety Council; Protective structures; Rollover protective structure; ROPS; Simulated results; Simulation methodology; Society of automotive engineers; Spring back; Static loads; Static tests; Tractor design; Tractor overturn; ABAQUS; Accident prevention; Agricultural machinery; Computer aided engineering; Computer software; Loading; Tractors (truck); Unloading; Tractors (agricultural)",,,,,,,,,,,,,,,,"Rollover protective structures (ROPS) for wheeled agricultural tractors SAE Standards, pp. J2194; Ayers, P.D., Dickson, M., Warner, S., Computer Design of Roll-over Protective Structures for Agricultural Tractors; Stockton, A.D., Neill, Hampson, C.J., Bedford MK45.4HS United Kingdom: Methods for optimising the effectiveness of roll over protective systems Silsoe Research Institute, , Silsoe; Effectiveness of rollover protective structures for preventing injuries associated with agricultural tractors Morbidity & Mortality Weekly Report MMWR, 42 (3), p. 57","Poojary, M.R.; Tata Technologies, Pune 411 057, India",,,,,,,,00203408,,JEMDA,,"English","J Inst Eng India Mech Eng Div",Article,"Final","",Scopus,2-s2.0-84859769398
"Madane A.R.","24829546200;","Watermark image recognition from local scale-Invariant feature",2009,"11th International Conference on Computer Modelling and Simulation, UKSim 2009",,,"4809774","258","263",,1,"10.1109/UKSIM.2009.63","https://www.scopus.com/inward/record.uri?eid=2-s2.0-69649091909&doi=10.1109%2fUKSIM.2009.63&partnerID=40&md5=a8d6bf0411d28dcf70a26d5de72804c7","Sardar Patel College of Engineering, Mumbai-58, India","Madane, A.R., Sardar Patel College of Engineering, Mumbai-58, India","This paper explains algorithm of digital image watermarking using DWT for copyright protection. The detail coefficients of second level host image after taking DWT is used as a watermark key for the watermark logo insertion and extraction process. A watermark image recognition system has been developed that uses new class of local image features. These local features of image are invariant to rotation, scaling and are shown to provide robust matching across a substantial range of affine distortion, change in 3D viewpoint, addition of noise, and change in illumination. The recognition proceeds by matching individual features to a database of features from known watermark images using a fast nearestneighbor algorithm, followed by Hough transform to identify clusters belonging to a single object. The effectiveness of local scale invariant feature is tested on original watermark logo, extracted watermark logo. We were able to design a prototype system, which provides user authentication. © 2009 IEEE.","Correlation coefficient; Discrete wavelet transform; Mean square error; Peak signal to noise ratio; Scale invariant feature transform","3D viewpoint; Copyright protections; Correlation coefficient; Detail coefficients; Digital image watermarking; Extraction process; Host images; Image features; Local feature; Local scale; Nearest-neighbors; Peak signal to noise ratio; Prototype system; Robust matching; Scale invariant feature transform; Second level; Single object; User authentication; Watermark images; Watermark key; Authentication; Block codes; Copyrights; Digital watermarking; Discrete wavelet transforms; Hough transforms; Image recognition; Mean square error; Signal to noise ratio; Three dimensional; Watermarking; Image matching",,,,,,,,,,,,,,,,"Lowe, D.G., Distinctive image feature from scale-invariant keypoints (2004) Published in the International Journal of Computer Vision; Lowe, D.G., Object recognition from local scale-invariant features (1999) Proceedings of International Conference on Computer Vision, , Corfu Sept; Lowe, D.G., Local feature view clustering for 3D object recognition (2001) Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, , Kauai, Hawaii, Dec; Madane, A.R., Shah, M.M., Watermark image recognition using principal component analysis (2008) Proceedings of International Conference ICETET 2008, , Nagpur; Madane, A.R., Talele, K.T., Shah, M.M., Watermark logo in digital image using DWT (2008) Proceedings of International Conference SPITIEEE Colloquium 2008, , Mumbai; Madane, A.R., Talele, K.T., Shah, M.M., Insertion algorithm for digital image watermarking using discrete wavelet transform (2007) Proceedings of ICICOT 2007, , International conference, Manipal; Ghouti, L., Bouridane, A., Ibrahim, M.K., Boussakta, S., Digital image watermarking using balanced multiwavelets (2006) IEEE Transactions on Signal Processing, 54 (4). , April; Bao, P., Ma, X., Image adaptive watermarking using wavelet dOmain singular value decomposition (2005) IEEE Transactions on Circuits and Systems for Video Technology, 15 (1), pp. 96-102. , DOI 10.1109/TCSVT.2004.836745; Zhang, F., Zhang, H., Image digital watermarking capacity and reliability analysis in wavelet domain (2004) Midwest Symposium on Circuits and Systems, 3, pp. III101-III104. , The 2004 47th Midwest Symposium on Circuits and Systems - Conference Proceedings; Chan, K.-M., Chang, L.-W., A novel public watermarking system based on advanced encryption system Proceedings of the 18th International Conference on Advanced Information Networking and Application (AINA'04); Zhang, F., Zhang, H., Image Digital Watermarking Capacity and Reliability Analysis in Wavelet Domain (2004) IEEE 2004","Madane, A. R.; Sardar Patel College of Engineering, Mumbai-58, India; email: amol.madane@gmail.com",,"University of Technology Malaysia;Norwegian University of Science and Technology;Nottingham Trent University;Imperial College of Science, Technology and Medicine;Kingston University",,"11th International Conference on Computer Modelling and Simulation, UKSim 2009","25 March 2009 through 27 March 2009","Cambridge",76669,,9780769535937,,,"English","Int. Conf. Comput. Model. Simul., UKSim",Conference Paper,"Final","",Scopus,2-s2.0-69649091909
"Maniyar M.M., Khare R.K., Dhakal R.P.","24367035200;8364885000;6602644788;","Probabilistic seismic performance evaluation of non-seismic RC frame buildings",2009,"Structural Engineering and Mechanics","33","6",,"725","745",,17,"10.12989/sem.2009.33.6.725","https://www.scopus.com/inward/record.uri?eid=2-s2.0-73349099353&doi=10.12989%2fsem.2009.33.6.725&partnerID=40&md5=0d867323cd822dd45b2db50ba9c77179","Department of Structural Engineering, S.P.C.E., Mumbai - 400058, India; Department of Civil Engineering, S.G.S., Institute of Technology and Science, Indore - 452003, India; Department of Civil and Natural Resources Engineering, University of Canterbury, Private Bag 4800, Christchurch, New Zealand","Maniyar, M.M., Department of Structural Engineering, S.P.C.E., Mumbai - 400058, India; Khare, R.K., Department of Civil Engineering, S.G.S., Institute of Technology and Science, Indore - 452003, India; Dhakal, R.P., Department of Civil and Natural Resources Engineering, University of Canterbury, Private Bag 4800, Christchurch, New Zealand","In this paper, probabilistic seismic performance assessment of a typical non-seismic RC frame building representative of a large inventory of existing buildings in developing countries is conducted. Nonlinear time-history analyses of the sample building are performed with 20 large-magnitude medium distance ground motions scaled to different levels of intensity represented by peak ground acceleration and 5% damped elastic spectral acceleration at the first mode period of the building. The hysteretic model used in the analyses accommodates stiffness degradation, ductility-based strength decay, hysteretic energy-based strength decay and pinching due to gap opening and closing. The maximum inter story drift ratios obtained from the time-history analyses are plotted against the ground motion intensities. A method is defined for obtaining the yielding and collapse capacity of the analyzed structure using these curves. The fragility curves for yielding and collapse damage levels are developed by statistically interpreting the results of the time-history analyses. Hazard-survival curves are generated by changing the horizontal axis of the fragility curves from ground motion intensities to their annual probability of exceedance using the log-log linear ground motion hazard model. The results express at a glance the probabilities of yielding and collapse against various levels of ground motion intensities.","Collapse; Fragility curves; Hazard survival; Incremental dynamic analysis (ida); Non-seismic; Rc frames; Seismic performance; Yielding","Buildings; Developing countries; Earthquake engineering; Hazards; Hysteresis; Seismic waves; Stiffness; Collapse; Fragility curves; Incremental dynamic analysis; Non-seismic; RC frames; Seismic Performance; Yielding; Seismology",,,,,,,,,,,,,,,,"Aslani, H., Miranda, E., Probability based seismic response analysis (2005) Eng. Struct, 27, pp. 1151-1163; ATC-40 Report (1996), Seismic Evaluation and Retrofit of Concrete Buildings, 1, 2, Applied Technology Council, Redwood City, California; Bertero, V.V., Strength and deformation capacities of buildings under extreme environments (1977) Structural Engineering and Structural Mechanics, pp. 211-215. , K. S. Pister, ed, Prentice Hall, Englewood Cliffs, NJ; Bradley, B.A., Dhakal, R.P., Mander, J.B., Li, L., Experimental multi-level seismic performance assessment of 3D RC frame designed for damage avoidance (2008) Earthq. Eng. Struct. Dyn, 37 (1), pp. 1-20; Chopra, A.K., (1995) Dynamics of Structures: Theory and Applications to Earthquake Engineering, , Prentice-Hall: Upper Saddle River, NJ; Chopra, A.K., Goel, R.K., A modal pushover analysis procedure for estimating seismic demands for buildings (2002) Earthq. Eng. Struct. Dyn, 31 (3), pp. 561-582; Chopra, A.K., Goel, R.K., Evaluation of modal and FEMA pushover analyses: Vertically 'regular' and irregular generic frames (2004) Earthq. Spectra, 20 (1), pp. 255-271; Dhakal, R.P., Mander, J.B., Mashiko, N., Identification of critical ground motions for seismic performance assessment of structures (2006) Earthq. Eng. Struct. Dyn, 35 (8), pp. 989-1008; Dhakal, R.P., Singh, S., Mander, J.B., Effectiveness of earthquake selection and scaling method in New Zealand (2007) Bulletin New Zealand Soc. Earthq. Eng, 40 (3), pp. 160-171; FEMA-273 (1997), NEHRP guidelines for the seismic rehabilitation of buildings, Federal Emergency Management Agency, Washington, D. C; FEMA-350 (2000), Recommended seismic design criteria for new steel moment frame buildings, Federal Emergency Management Agency Washington, D. C; FEMA-356 (2000), Prestandard and commentary for the seismic rehabilitation of buildings, Federal Emergency Management Agency, Washington, D. C; FEMA-440 (2005), Improvement of nonlinear static seismic analysis procedures, Federal Emergency Management Agency, Redwood City, California; Goel, R.K., Chopra, A.K., Extension of modal pushover analysis to compute member forces (2005) Earthq. Spectra, 21 (1), pp. 125-139; Gupta, B., Kunnath, S.K., Adaptive spectra-based pushover procedure for seismic evaluation of structures (2000) Earthq. Spectra, 6 (2), pp. 367-391; Earthquake loss estimation methodology (1999) Technical Manual, , HAZUS , National Institute of Building Sciences for Federal Emergency Management Agency, Washington, DC; Ibarra, L.F., Krawinkler, H., Global collapse of deteriorating MDOF systems (2004) Proc. 13th World Conf. on Earthquake Engineering, , Vancouver, B. C, Canada, Paper No. 116; IS:1893 (Part 1) (2002), Indian standard criteria for earthquake resistant design of structures, Part 1-General provisions and buildings, Indian Standards Institution, New Delhi; IS:456 (1978), Indian standard code of practice for plain and reinforced concrete for general building construction, Indian Standards Institution, New Delhi; Jaiswal, K. S., Sinha, R. and Goyal, A. (2002), World Housing Encyclopedia Report. Country: India. Housing type: Reinforced concrete frame building with masonry infill walls designed for gravity loads, EERI, Created on: 6/5/2002, Last Modified: 7/2/2003; Kent, D.C., Park, K.R., Flexural members with confined concrete (1971) J. Struct. Div., ASCE, 97 (ST7), pp. 1969-1989; Kircil, M.S., Polat, Z., Fragility analysis of mid-rise RC frame buildings (2006) Eng. Struct, 28, pp. 1335-1345; Mander, J.B., Dhakal, R.P., Mashiko, N., Solberg, K.M., Incremental dynamic analysis applied to seismic financial risk assessment of bridges (2007) Eng. Struct, 29 (10), pp. 2662-2672; Murty, C.V.R., Rai, D.C., Bajpai, K.K., Jain, S.K., Anchorage details and joint design in seismic RC frames (2001) Ind. Concrete J, pp. 274-280; Park, Y.J., Reinhorn, A.M., Kunnath, S.K., IDARC: Inelastic damage analysis of reinforced concrete frame - shear-wall structures (1987), Technical Report NCEER-87-0008, State University of New York at Buffalo; Park, Y.J., Reinhorn, A.M., Kunnath, S.K., (2006) IDARC-2D V6.0 computer program, Inelastic damage analysis of RC building structures, , State University of New York; Porter, K., Kennedy, R., Bachman, R., Creating fragility functions for performance based earthquake engineering (2007) Earthq. Spectra, 23 (2), pp. 471-489; Rai, D.C., Thakkar, S.K., Ramesh, U., Behavior of seismic and non-seismic RC frames under cyclic loads (2006) Ind. Concr. J, pp. 46-52; Shinozuka, M., Feng, M.Q., Lee, J., Naganuma, T., Statistical analysis of fragility curves (2000) J. Eng. Mech, 126 (12), pp. 1224-1231; Shome, N., Probabilistic seismic demand analysis of nonlinear structures (1999), Ph. D. dissertation, Stanford University; Sivaselvan, M. V. and Reinhorn, A. M. (1999), Hysteretic models for cyclic behavior of deteriorating inelastic structures, Tech. Rep. MCEER-99-0018, Multidisciplinary Ctr. for Earthquake Engrg. Res., State University of New York at Buffalo, N. Y; Smyth, A., Altay, G., Deodatis, G., Erdik, M., Franco, G., Gulkan, P., Benefit-cost analysis for earthquake mitigation: Evaluating measures for apartment houses in Turkey (2004) Earthq. Spectra, 20 (1), pp. 171-203; Solberg, K.M., Dhakal, R.P., Mander, J.B., Bradley, B.A., Rapid expected annual loss estimation methodology for structures (2008) Earthq. Eng. Struct. Dyn, 37 (1), pp. 81-101; Vamvatsikos, D., Cornell, A.C., Incremental dynamic analysis (2002) Earthq. Eng. Struct. Dyn, 31 (3), pp. 491-514","Maniyar, M. M.; Department of Structural Engineering, , Mumbai - 400058, India; email: mmmaniyar@yahoo.com",,,"Techno-Press",,,,,12254568,,SEGME,,"English","Struct Eng Mech",Article,"Final","All Open Access, Green",Scopus,2-s2.0-73349099353
"Shrivastava P., O'Mahony M.","7005395057;56186787100;","Use of a hybrid algorithm for modeling coordinated feeder bus route network at suburban railway station",2009,"Journal of Transportation Engineering","135","1",,"1","8",,29,"10.1061/(ASCE)0733-947X(2009)135:1(1)","https://www.scopus.com/inward/record.uri?eid=2-s2.0-57949096356&doi=10.1061%2f%28ASCE%290733-947X%282009%29135%3a1%281%29&partnerID=40&md5=67ffe6d92e1f138acda1a3ad1d0fee1f","Civil Engineering Dept., Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Dept. of Civil, Structural and Environmental Engineering, Centre for Transportation Research, Trinity College, Dublin 2, Ireland","Shrivastava, P., Civil Engineering Dept., Sardar Patel College of Engineering, Andheri (W), Mumbai, India; O'Mahony, M., Dept. of Civil, Structural and Environmental Engineering, Centre for Transportation Research, Trinity College, Dublin 2, Ireland","In the metropolitan cities of developed and developing countries, longer journeys are mostly performed by two or more modes. In the event of availability of suburban trains and public buses, commuters prefer to travel a longer stretch of their journeys by train, so as to avoid traffic congestion on roads, and the remaining part by buses to reach local areas if their final destination is not in close proximity to railway stations. Normally suburban trains have fixed corridors and buses have the flexibility to serve remote local areas. Thus design of feeder routes from railway stations to various destinations and the transfer time from trains to buses plays a very important role and can be controlled by transport planners. A considerable amount of research has been done on the independent design of a bus route network without considering the effect of train services. Researchers have made attempts using heuristics, simulation, expert systems, artificial intelligence, and optimization techniques for design of routes and schedules. So far, limited effort has been made in modeling coordinated operations. In this research, a new hybrid algorithm which exploits the benefits of genetic algorithms and a well tested heuristic algorithm for the study area is discussed. More convincing results in terms of feeder routes and coordinated schedules at the selected railway station are obtained by the proposed hybrid algorithm as compared to earlier approaches adopted by the writers for the same study area. © 2009 ASCE.","Algorithms; Hybrid methods; Optimization; Railroad station; Scheduling; Suburbs","Administrative data processing; Artificial intelligence; Buses; Circuit theory; Computational methods; Decision support systems; Developing countries; Expert systems; Feeding; Genetic algorithms; Heuristic algorithms; Heuristic methods; Hybrid sensors; Locomotives; Metropolitan area networks; Optimization; Railroad cars; Railroad stations; Railroad transportation; Railroads; Scheduling; Scheduling algorithms; Traffic congestion; Transportation routes; Bus routes; Close proximities; Coordinated operations; Design of feeders; Feeder buses; Feeder routes; Hybrid algorithms; Hybrid methods; Independent designs; Metropolitan cities; Optimization techniques; Railway stations; Study areas; Suburban trains; Suburbs; Train services; Transfer times; Transport planners; Routing algorithms; accessibility; artificial intelligence; bus transport; commuting; developing world; genetic algorithm; optimization; railway transport; research work; traffic congestion; traffic management; transportation mode; transportation planning; urban transport",,,,,,,,,,,,,,,,"Baaj, M.H., Mahmassani, H.S., ""Hybrid route generation heuristic algorithm for the design of transit networks"" (1995) Transp. Res., Part C: Emerg. Technol., 3 (1), pp. 31-50. , TRCEFH0968-090X10.1016/0968-090X(94)00011-S; Chambers, L., (1995) Practical Handbook of Genetic Algorithms Applications, 1. , CRC Press, Boca Raton, Fla; Eppstein, D., ""Finding the k shortest paths"" (1994) Tech. Rept. No. 94-26, , http://www.ics.uci.edu/~eppstein/pubs/Epp-TR-94-26.pdf, Dept. of Information and Computer Science, Univ. of California (Sept. 25, 2004); Geok, K., Perl, J., ""Optimization of feeder bus routes and bus stop spacing"" (1988) J. Transp. Eng., 114 (3), pp. 341-354. , JTPEDI0733-947X; Reklaitis, G.V., Ravindran, A., Ragsdell, K.M., (1983) Engineering Optimization - Methods and Applications, , Wiley, New York; Shrivastava, P., Dhingra, S.L., ""An overview of bus routing and scheduling techniques"" (2000) Highway Research Bulletin No. 62, pp. 65-90; Shrivastava, P., Dhingra, S.L., ""Development of feeder routes for suburban railway stations using heuristic approach"" (2001) J. Transp. Eng., 127 (4), pp. 334-341. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(2001)127:4(334); Shrivastava, P., Dhingra, S.L., Gundaliya, P.J., ""Application of genetic algorithm for scheduling and schedule co-ordination problems"" (2002) J. Adv. Transp., 36 (1), pp. 23-41. , JATRDC0197-6729; Shrivastava, P., O'Mahony, M., ""A model for development of optimized feeder routes and coordinated schedules - A genetic algorithms approach"" (2006) Transp. Policy, 13 (5), pp. 413-425. , ZZZZZZ0967-070X; Shrivastava, P., O'Mahony, M., ""Design of feeder route network using combined genetic algorithm and specialized repair heuristic"" (2007) Journal of Public Transportation, 10 (2), pp. 99-123; Wilson, S., (2000) ""Final Report on Bus Network Strategy Appraisal Report for Greater Dublin Area"", , www.dublinbus.ie/about_us-pdf/swilson.pdf, (May 13, 2004); Wirasinghe, S.C., ""Nearly optimal parameters for a rail feeder bus system on a rectangular grid"" (1980) Transp. Sci., 14 A (1), pp. 33-40. , TRSCBJ0041-1655; Zhao, F., Ubaka, I., ""Transit network optimization - Minimizing transfers and optimizing route directness"" (2004) Journal of Public Transportation, 7, pp. 67-82","O'Mahony, M.; Dept. of Civil, Structural and Environmental Engineering, , Dublin 2, Ireland; email: margaret.omahony@tcd.ie",,,,,,,,0733947X,,,,"English","J. Transp. Eng.",Article,"Final","All Open Access, Green",Scopus,2-s2.0-57949096356
"Nagrale P.P., Chandra S., Viladkar M.N.","23100800600;7401671278;6701684084;","Elasto-plastic analysis of fibre reinforced flexible pavements",2008,"Journal of the Institution of Engineers (India): Civil Engineering Division","89","NOVEMBER",,"49","54",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84859774800&partnerID=40&md5=0bc4a5f3a108c38c34222e3cfb35d076","Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, 400 058, India; Department of Civil Engineering, IIT Roorkee, Roorkee 247 667, India","Nagrale, P.P., Department of Civil Engineering, Sardar Patel College of Engineering, Mumbai, 400 058, India; Chandra, S., Department of Civil Engineering, IIT Roorkee, Roorkee 247 667, India; Viladkar, M.N., Department of Civil Engineering, IIT Roorkee, Roorkee 247 667, India","The experimental investigations on randomly distributed fibre reinforced soils and modelling of a flexible pavement resting on unreinforced and reinforced subgrade soils are presented in this paper. The investigation includes two aspects. First, the CBR tests were conducted on three type of soils reinforced with different percentage of synthetic fibres varying from 0.75% to 3% having the aspect ratio of 50, 84 and 100. The optimum quantity of fibre was decided based on CBR value and ease of compaction. Triaxial tests were conducted on unreinforced and reinforced soils as well as other pavement layer materials at a confining pressure of 40 kPa. These stress-strain curves were used as input parameters in elasto-plastic finite element analysis.The pavement sections were modelled for a traffic intensity of 150 msa as a two-dimensional axisymmetric finite element problem. The thickness of each layer above the subgrade for different traffic intensity was decided as per the Indian Practice code (IRC 37-2001). The vertical compressive strain developed at the top of unreinforced and reinforced subgrade soils were used for estimating the increase in service life of pavement due to reinforcement of subgrade soils.","Elasto-plastic finite element analysis; Fibre reinforcement; Flexible pavements; Subgrade soils; Triaxial tests","Elasto-plastic; Fibre reinforcements; Flexible pavements; Subgrade soil; Triaxial test; Aspect ratio; Elastoplasticity; Finite element method; Pavements; Soils; Stress-strain curves; Synthetic fibers; Reinforcement",,,,,,,,,,,,,,,,"Setty, K.R., Swamy, N., Rao, S.V.G., Characterization of fibre reinforced laterite soil (1987) Proceeding Indian Gotechnical Conference, 1, p. 329. , Banglore; Lawton, E.C., Fox, N.S., Field experiment on soils reinforced with multioriented geosynthetic inclusions (1992) Journal of Transportation Research Board, p. 44. , Washington, dc; Ranjan, G., Vasan, R.M., Charan, H.D., Randomly distributed discrete fibre reinforced silt (1994) Proceeding Indian Geotechnical Conference, 1, p. 325; Ranjan-, G., (1995) Recent Trends in Subgrade Improvement for Highway Pavements, p. 704. , ICORT-95; Tingle, S.J., Santoni, R.L., Webster, S.L., Full scale field tests of discrete fibre-reinforced sand (2002) Journal of Transportation Engineering, ASCE, 128, pp. 9-16; Gosavi, M., Patil, K.A., Mittal, S., Saran, S., Improvement of properties of black cotton soil subgrade through natural reinforcement (2003) Proceeding of the Indian Geotechnical Conference, 1, p. 379. , Roorkee; Murugesan, S., A study of fibres as a reinforcement for subgrade of flexible pavement Proceeding ICGGE-2004, p. 163. , IIT, Mumbai; Kaniraj, S.R., Gayathri, V., Geotechnical behavior of flyash mixed with randomly oriented fibre inclusive (2003) Journal of Geotextile and Geomembranes, 21, p. 123; Michalowski, R.L., Cermak, J., Triaxial compression of sand reinforced with fibres (2003) Journal of the Geotechnical and Geoenvironmental Engineering, ASCE, 129, p. 125; Santoni, R.L., Webster, S.L., Airfields and roads construction using fibre stabilization of sands (2001) Journal of the Transportation Engineering, ASCE, 127, p. 96; Nagrale, P.P., Chandra, S., Viladkar, M.N., Benefits of fibre reinforced subgrade soils in flexible pavement (2006) Journal of the Institutes of Engineers India, 87, p. 53. , May; (2002) Standard Test Method for Laboratory Compaction Characteristics of Soil Using Modified Effort, , ASTM D 1557. American Society for Testing and Materials, West Conshohocken, Pennsylvania, USA; Chandra, S., Mehndiratta, H.C., Effect of shoulder on life of flexible pavements (2002) Indian Road Congress, p. 37. , HRB-67, New Delhi; Specifications for road and bridge works Indian Roads Congress, , Ministry of Road Transport and Highways (MoRTH). New Delhi; Guideline for the Design of Flexible Pavements, 1. , IRC37-2001. New Delhi","Nagrale, P.P.; Department of Civil Engineering, , Mumbai, 400 058, India",,,,,,,,0020336X,,JECVA,,"English","J Inst Eng India: Civ Eng Div",Article,"Final","",Scopus,2-s2.0-84859774800
"Madane A.R., Shah M.M.","24829546200;57203480732;","Watermark image recognition using principle component analysis",2008,"Proceedings - 1st International Conference on Emerging Trends in Engineering and Technology, ICETET 2008",,,"4579880","124","127",,1,"10.1109/ICETET.2008.86","https://www.scopus.com/inward/record.uri?eid=2-s2.0-51949117731&doi=10.1109%2fICETET.2008.86&partnerID=40&md5=ff4548f2961736fe20ad4a25fdf5e254","Multimedia Research Group, Innovation Labs., Tata Consultancy Services, New Delhi, India; Sardar Patel College of Engineering, Andheri (W), Mumbai-58, India","Madane, A.R., Multimedia Research Group, Innovation Labs., Tata Consultancy Services, New Delhi, India; Shah, M.M., Sardar Patel College of Engineering, Andheri (W), Mumbai-58, India","In this paper, the algorithm of digital image watermarking is proposed using discrete wavelet transform (DWT) for copyright protection. The detail coefficients of second level host image after taking DWT is used as a watermark key for the watermark logo insertion or addition and extraction process. We have proposed the learning of low dimensional representation in the context of image recognition using Principle Component Analysis (PCA). It is based on the second order statistics of image set. The PCA aims to find second order correlation of patterns. The effectiveness of PCA is tested on original watermark logo, extracted watermark logo. We were able to design a prototype system, which provides user authentication. The proposed system of watermark image recognition may be applied in identification systems, document control and access control. © 2008 IEEE.","Discrete wavelet transform; Eigen value; Pattern analysis; Principle Component Analysis (PCA)","Copyright protections; Digital image watermarking; Discrete wavelet transform; Document control; Eigen value; Emerging trends; Extraction processing; Host images; Identification systems; Image sets; International conferences; Low-dimensional representation; Pattern analysis; Principle component analysis; Principle Component Analysis (PCA); Prototype systems; Second orders; Second-level; Second-order statistics; User authentication; Watermark images; Watermark key; Watermark logo; Access control; Control systems; Copyrights; Digital watermarking; Discrete wavelet transforms; Electric fault currents; Identification (control systems); Image recognition; Mathematical transformations; Mobile telecommunication systems; Papermaking; Principal component analysis; Regression analysis; Security of data; Technology; Wavelet transforms; Watermarking",,,,,,,,,,,,,,,,"Amol, R., Madane, K.T., Talele, M.M.S., Insertion Algorithm for Digital Image Watermarking using Discrete Wavelet Transform (2007) Proceedings of ICICOT, , International conference, Manipal; Amol, R., Madane, K.T., Talele, M.M.S., Watermark Logo in Digital Image Using DWT (2008) Proceedings of International Conference SPIT-IEEE Colloquium, , Mumbai; Yambor, W.S., Principle component analysis and Fisher discriminant based face recognition, (2000), Technical Report Cs-00-103, July, Computer science department, Colorado State University; Moon, H., Phillips, J., Analysis of PCA-based Faced Recognition Algorithms (1998) Computer Vision, IEEE Computer Society Press, , Los Alamitos, Ca; Kirby, M., Sirovich, L., Application of the Karhunen-Loeve Procedure for the characterization of Human Faces IEEE trans. PAMI, 12 (1), pp. 103-108; Rama Chellappa, Charles L. Wilson and Saad Sirohey, Human and machine recognition of faces: A survey,Proceedings of the IEEE 83, May1995; Yao, Y., (2003) Face Feature Extraction with PCA and Kernel PCA, , School of Computer Engineering, September 17; B. Scholkopf, Smola and Muller, Ian Fasel, Kernel PCA, Nonlinear Component Analysis as a Kernel Eigenvalue Problem, September 25, 2001; Jordan, M.I., (2004) Properties of Kernels and the Gaussian Kernel, , November 2; Hee Park, C., Park, H., (2004) Nonlinear Discriminant Analysis Using Kernel Functions And The Generalized Singular Value Decomposition; Scholkopf, B., Smola, A., Muller, K., Nonlinear Component Analysis as a Kernel Eigenvalue Problem (1998) Neural computation, 10, pp. 1299-1319; Liu, C., Gabor- Based Kernel PCA with Fractional Power Polynomial Models for Face Recognition (2004) IEEE Transaction on Pattern Analysis and machine Intelligence, 26 (5). , May; Yang, M.-H., Ahuja, N., Kriegman, D., Face Recognition Using Kernel Eigenfaces (2000) IEEE Trans; Chan, K.-M., Chang, L.-W., A Novel Public Watermarking System based on Advanced Encryption System Proceedings of the 18th International Conference on Advanced Information Networking and Application (AINA'04); Wang, H.-J., Jay Kuo, C.-C., Image Protection via Watermarking on Perceptually Significant Wavelet Coefficients (1998) IEEE 1998 Workshop on Multimedia Signal Processing, , Redondo Beach, CA. Dec. 7-9; Liu Yongliang1, Xiaolin Yang1, Hongxun Yao1, Tiejun Huang2, Wen Gao2, Watermark Detection Schemes with High Security, Proceedings of the International Conference on Information Technology: Coding and Computing (ITCC'05) IEEE; Zhang, F., Zhang, H., Image Digital Watermarking Capacity and Reliability Analysis in Wavelet Domain IEEE2004","Madane, A. R.; Multimedia Research Group, , New Delhi, India; email: amol.madane@tcs.com",,,,"1st International Conference on Emerging Trends in Engineering and Technology, ICETET 2008","16 July 2008 through 18 July 2008","Nagpur, Maharashtra",73554,,9780769532677,,,"English","Int. Conf. Emerg. Trends Eng. Technol., ICETET",Conference Paper,"Final","",Scopus,2-s2.0-51949117731
"Hameed S., Mane S.S.","38762261300;24278757600;","TCAD for SiGe MOSFET: Modeling of diffusion kinetics and device simulation",2008,"AIP Conference Proceedings","1004",,,"152","156",,,"10.1063/1.2927543","https://www.scopus.com/inward/record.uri?eid=2-s2.0-43649099820&doi=10.1063%2f1.2927543&partnerID=40&md5=0d75eb50bda8e757a82036ce11c74d1d","Dept. of Electronics and Communication Engineering, T.K.M.College of Engineering, Kollam-691005, India; Dept. of Electronics and Communication Engineering, Sardar Patel College of Engineering, Mumbai, India","Hameed, S., Dept. of Electronics and Communication Engineering, T.K.M.College of Engineering, Kollam-691005, India; Mane, S.S., Dept. of Electronics and Communication Engineering, Sardar Patel College of Engineering, Mumbai, India","Considering a semi-infinite surface, fitting the solution of diffusion equation for SiGe so that prediction of the annealed profile in terms of its concentration and depth might be a pointer for researchers. An analytical model of dopant diffusion in SiGe is presented. Excellent matches have been observed between the reported data and simulation results. The model parameters included in device simulation software and device characteristics of n channel SiGe MOSFET have been observed © 2008 American Institute of Physics.","ATHENA/ATLAS; Constant dose diffusion; Constant source diffusion; nMOSFET; SiGe; TCAD",,,,,,,,,,,,,,,,,"Ghez, R., Oehrlein, G.S., Sedgwick, T.O., Morehead, F.F., Lee, Y.H., (1984) Applied Physics Letters, 45 (8). , October; Eguchi, S., Lee, J.J., Rhee, S.J., Kwong, D.L., Lee, M.L., Fitzgerald, E.A., Aberg, I., Hoyt, J.L., (2004) Applied Surface Science, 224, pp. 59-62; Mitchell, M.J., Ashburm, P., Bonar, J.M., Hemment, P.L.F., (2003) J. Applied Physics, 93 (8); Uppal, S., Bonar, J.M., Zhang, J., Willoughby, A.F.W., (2004) Material Science and Engineering B, 114-115, pp. 349-351","Hameed, S.; Dept. of Electronics and Communication Engineering, , Kollam-691005, India; email: shahul.iitkgp@gmail.com",,"Thermophysical Society of India;Sree Narayana College, Condensed Matter Physics Laboratory;Centre for Advanced Scientific Research;Amrita Vishwa Vidyapeetham;Department of Science and Technology",,"4th National Conference on Thermophysical Properties, NCTP 2007","20 September 2007 through 23 September 2007","Kollam, Kerala",,0094243X,9780735405233,,,"English","AIP Conf. Proc.",Conference Paper,"Final","",Scopus,2-s2.0-43649099820
"Maniyar M.M., Khare R.K.","24367035200;8364885000;","Seismic vulnerability of existing non-seismic reinforced concrete framed buildings",2008,"Indian Concrete Journal","82","4",,"27","35",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-49249116776&partnerID=40&md5=00272863ca913a5e99505bb61416cfb8","Shri G.S. Institute of Technology and Science, Indore, India; Structural Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Department of Civil Engineering and Applied Mechanics, Shri G.S. Institute of Technology and Science, Indore, India","Maniyar, M.M., Shri G.S. Institute of Technology and Science, Indore, India, Structural Engineering Department, Sardar Patel College of Engineering, Mumbai, India; Khare, R.K., Department of Civil Engineering and Applied Mechanics, Shri G.S. Institute of Technology and Science, Indore, India","The fragility curves for yielding and collapse damage levels are developed with lognormal distribution assumption. A method for obtaining the fragility curves of existing non-seismic, nonductile, gravity load designed typical midrise, four storeyed reinforced concrete frame buildings is defined. The fragility curves are constructed in terms of peak ground acceleration and elastic spectral acceleration under the effect of ten ground motions. Incremental Dynamic Analysis procedure is adopted here for the analysis of the sample building. The yielding and collapse damage levels are considered as they can be determined analytically with reasonable accuracy. These fragility curves express at a glance the probability of yielding and collapse against various selected intensity values. Hazard survival curves are plotted by changing the horizontal axis of fragility curves from intensity values to annual probability of occurrence of earthquakes using the earthquake recurrence relationship. The analysis quantifies the vulnerability of the sample building under the probable earthquakes.","Collapse; Damage; Earthquake recurrence; Fragility curves; Hazard survival curves; Incremental dynamic analysis; Performance; Reinforced concrete frames; Yielding","Collapse; Concrete frames; Damage; Damage levels; Earthquake recurrence; Fragility curves; Gravity load designed; Ground motions; Hazard survival curves; Horizontal axis; Incremental dynamic analysis; Intensity values; Log-normal distributions; Peak ground acceleration; Performance; Probability of occurrence; Reasonable accuracy; Reinforced concrete frames; Seismic vulnerability; Spectral acceleration; Survival curves; Yielding; Building materials; Buildings; Classification (of information); Composite beams and girders; Concrete buildings; Dynamic analysis; Earthquakes; Probability; Probability distributions; Reinforced concrete; Risk assessment; Seismology",,,,,,,,,,,,,,,,"Mahashabde, A.V., Dasgupta, K., Murty, C.V.R., Seismic strengthening of gravity load designed RC frame buildings (2003) Fourth International Conference of Earthquake Engineering and Seismology, , 12-14 May, Tehran, Iran; _Indian standard code of practice for plain and reinforced concrete for general building construction, IS 456 : 1978, Bureau of Indian Standards, New Delhi; Kircil, M.S., Polat, Z., Fragility analysis of mid-rise RC frame buildings (2006) Engineering Structures, 28, pp. 1335-1345; Vamvatsikos, D., Cornell, A.C., Incremental Dynamic Analysis (2002) Earthquake Engineering and Structural Dynamics, 31 (3), pp. 491-514; Shinozuka, M., Feng, M.Q., Lee, J., Naganuma, T., Statistical analysis of fragility curves (2000) Journal of Engineering Mechanics, 126 (12), pp. 1224-1231; Park, R., Priestley, M.J.N., Gill, W.D., Ductility of square confined columns (1982) Journal of Struct. Div., ASCE, 108 (4), pp. 929-950; Shome, N., Probabilistic seismic demand analysis of nonlinear structures. Ph.D. dissertation, Stanford University, 1999; Park, R., Priestley, M.J.N., Gill, W.D., Recommended seismic design criteria for new steel moment-frame buildings (2000), Federal Emergency Management Agency FEMA, Report No. FEMA-350, SAC Joint Venture, Washington D.C, USA; Park, Y.J., Reinhorn, A.M. and Kunnath, S.K., IDARC-2D V6.0 computer program, Inelastic damage analysis of RC building structures, State University of New York, 2004; Rai, D.C., Thakkar, S.K., Ramesh, U., Behaviour of seismic and non seismic RC frames under cyclic loads (2006) The Indian Concrete Journal, 80 (7), pp. 46-52. , July; Rai, D.C., Thakkar, S.K., Ramesh, U., HAZUS, (1999) Earthquake loss estimation methodology, Technical Manual, , National Institute of Building Sciences for Federal Emergency Management Agency, Washington, DC, USA; Smyth, A., Altay, G., Deodatis, G., Erdik, M., Franco, G., Gulkan, P., Benefit-cost analysis for earthquake mitigation: Evaluating measures for apartment houses in Turkey (2004) Earthquake Spectra, 20 (1), pp. 171-203; Kennedy, R.P., Cornell, C.A., Campbell, R.D., Kaplan, S., Perla, H.F., Probabilistic seismic safety study of an existing nuclear power plant (1980) Nuclear Engineering and Design, 59, pp. 315-338; Kennedy, R.P., Cornell, C.A., Campbell, R.D., Kaplan, S., Perla, H.F., ATC - 40. Seismic evaluation and retrofit of concrete buildings (1996), Report No. SSC 96-01, Applied technology council, California; _NZS 1170.5 : 2004 Part-5, Structural Design Actions, Earthquake Actions-New Zealand, Standard Association of New Zealand, Wellington, New Zealand, 2004; Jain, S.K., Opinion: The Indian earthquake problem (2005) Current Science, 89, pp. 1464-1466","Maniyar, M. M.; Shri G.S. Institute of Technology and Science, Indore, India",,,,,,,,00194565,,ICJOA,,"English","Indian Concr J",Article,"Final","",Scopus,2-s2.0-49249116776
"Maniyar M.M., Khare R.K., Ghosh S., Chakrapani T.","24367035200;8364885000;35494147600;24365911400;","Seismic collapse capacity of non-seismic RC frames",2008,"Journal of Structural Engineering (Madras)","35","1",,"1","8",,1,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-45149111301&partnerID=40&md5=115c3690948d037bbd40e9c3cef8aba0","Sardar Patel College of Engineering, Munshi Nagar, Andheri(w), Mumbai 400058, India; Department of Civil Engineering, S.G.S. Institute of Technology and Science, Indore 452003, India; Department of Civil Engineering, IIT Bombay, Powai, Mumbai 400076, India","Maniyar, M.M., Sardar Patel College of Engineering, Munshi Nagar, Andheri(w), Mumbai 400058, India; Khare, R.K., Department of Civil Engineering, S.G.S. Institute of Technology and Science, Indore 452003, India; Ghosh, S., Department of Civil Engineering, IIT Bombay, Powai, Mumbai 400076, India; Chakrapani, T., Department of Civil Engineering, S.G.S. Institute of Technology and Science, Indore 452003, India","A comprehensive review of the two currently available methods to assess the collapse capacity of building structures to resist an earthquake, namely, the nonlinear static procedure and the emerging powerful tool Incremental Dynamic Analysis, is presented. The seismic collapse capacity is found out in terms of peak ground acceleration and elastic spectral acceleration under the effect of twenty LMSR ground motions. Incremental Dynamic Analysis procedure is adopted here for the analysis of sample building. Fragility curves for collapse damage level are developed with the assumption of a lognormal distribution. A method for obtaining the collapse capacity and fragility curves for typical of the inventory of existing non-seismic, non-ductile, four-storied reinforced concrete frame buildings designed for gravity loads, is defined. The hysteretic model used accommodates stiffness degradation, ductility-based strength decay, hysteretic energy-based strength decay and Pinching due to gap opening and closing. The maximum inter story drift ratio is considered as the damage measure. The results express at a glance the probability of collapse against various selected intensity measures. The analysis defines methodology to quantify the vulnerability of non seismic RC frame buildings under the probable earthquakes and to evaluate the maximum Inter Story Drift capacity of the sample building.","Collapse; Damage; Fragility curves; Hysteretic behavior; Incremental dynamic analysis; Non linear dynamic analysis; Non linear static procedure; Performance; Reinforced concrete frames",,,,,,,,,,,,,,,,,,"Maniyar, M. M.; Sardar Patel College of Engineering, Munshi Nagar, Andheri(w), Mumbai 400058, India; email: mmmaniyar@yahoo.com",,,,,,,,09700137,,JSENE,,"English","J Struct Eng",Article,"Final","",Scopus,2-s2.0-45149111301
"Chandra S., Viladkar M.N., Nagrale P.P.","7401671278;6701684084;23100800600;","Mechanistic approach for fiber-reinforced flexible pavements",2008,"Journal of Transportation Engineering","134","1",,"15","23",,42,"10.1061/(ASCE)0733-947X(2008)134:1(15)","https://www.scopus.com/inward/record.uri?eid=2-s2.0-37549032498&doi=10.1061%2f%28ASCE%290733-947X%282008%29134%3a1%2815%29&partnerID=40&md5=d52283c66580524c101de31d3bc5d6b7","Dept. of Civil Engineering, Indian Institute of Technology Roorkee, Roorkee 247 667, India; Dept. of Civil Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India","Chandra, S., Dept. of Civil Engineering, Indian Institute of Technology Roorkee, Roorkee 247 667, India; Viladkar, M.N., Dept. of Civil Engineering, Indian Institute of Technology Roorkee, Roorkee 247 667, India; Nagrale, P.P., Dept. of Civil Engineering, Sardar Patel College of Engineering, Mumbai 400 058, India","The present study investigates the benefits of reinforcing the subgrade soils in flexible pavements. Three types of Soils A, B, and C, and one type of polypropylene fiber having aspect ratios of 50, 84, and 100 were selected. The California bearing ratio (CBR) and unconfined compressive strength tests were conducted on unreinforced and reinforced soils. The optimum quantity of fibers was decided based on CBR, modulus of elasticity (Ei) and failure stress. The static triaxial tests were conducted on unreinforced and reinforced soils as well as on other pavement layers at a confining pressure of 40kPa. These stress-strain data were used as input parameters for evaluating the vertical compressive strain at the top of subgrade soils using elastoplastic finite-element analysis. This vertical compressive strain at the top of unreinforced and reinforced subgrade soils was used for estimating the improvement in service life of the pavement or reduction in thicknesses of different layers for the same service life due to reinforcing the subgrade soils. © 2008 ASCE.","California bearing ratio; Fiber reinforced materials; Flexible pavements; Mechanical properties","Compressive strength; Elastoplasticity; Fiber reinforced materials; Finite element method; Flexible structures; Polypropylenes; Service life; Soils; Stress-strain curves; California bearing ratio; Flexible pavements; Subgrade soils; Pavements; compressive strength; elastic modulus; finite element method; mechanical property; pavement; subgrade; triaxial test",,,,,,,,,,,,,,,,"Al-Wahab, R.M., Al-Ourna, H.H., ""Fiber reinforced cohesive soil for application in compacted earth structures"" (1995) Proc., Geosynthetics-95, 2, pp. 433-446. , St. Paul, Minn; Al-Wahab, R.M., Heckel, G.B., ""Static and dynamic strength properties of a fiber-reinforced compacted cohesive soil"" (1995) Proc., 3rd Int. Conf. on Recent Advances in Geotechnical Earthquake and Soil Dynamics, 2, pp. 1065-1072. , St. Louis; Chandra, S., Mehndiratta, H.C., ""Effect of shoulder on life of flexible pavements"" (2002) Highway Research Bulletin 67, pp. 37-46. , Indian Roads Congress, New Delhi, India; Gray, D.H., ""Role of woody vegetation in reinforcing soils and stabilizing slopes"" (1990) Proc., Symp. on Soil Reinforcing and Stabilizing Technique, pp. 253-306. , Sydney, Australia; Helwany, S., Dyer, J., Leidy, J., ""Finite element analyse of flexible pavements"" (1998) J. Transp. Eng., 124 (5), pp. 491-499. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(1998)124:5(491); ""Guideline for the design of flexible pavements"" (2001) Indian Code of Practice, IRC:37, , Indian Roads Congress (IRC). New Delhi, India; Kown, J., Tutumluer, E., Kim, M., ""Mechanistic analysis of geogrid base reinforcement in flexible pavements considering unbounded aggregate quality"" (2005) Proc., 5th International Conf. on Road and Airfield Pavement Technology, pp. 54-63. , Seoul, Korea; Kumar, R., Kanaujia, V.K., Chandra, D., ""Engineering behaviour of fiber reinforced pond ash and silty sand"" (1999) Geosynthet. Int., 6 (6), pp. 509-518. , GINTFD1072-6349; Lawton, E.C., Fox, N.S., ""Field experiment on soils reinforced with multi-oriented geosynthetic inclusions"" (1992) Transportation Research Record. 1369, pp. 44-53. , Transportation Research Board, Washington, D.C; Michalowski, R.L., Cermak, J., ""Triaxial compression of sand reinforced with fibers"" (2003) J. Geotech. Geoenviron. Eng., 129 (2), pp. 125-136. , JGGEFK1090-024110.1061/(ASCE)1090-0241(2003)129:2(125); (2001) Report of the Committee on Norms for Maintenance of Roads in India, , Ministry of Road Transport and Highways (MORTH). 4th Ed., Indian Roads Congress, New Delhi, India; Murugesan, S., ""A study of fibers as a reinforcement for subgrade of flexible pavement"" (2004) Proc., Int. Conf. on Geosynthetics and Geoenvironmental Engineering, pp. 163-164. , Mumbai, India; Perkins, S.W., Edens, M.Q., ""Finite element and distress models for geosynthetic-reinforced pavements"" (2002) Int. J. Pavement Eng., 3 (4), pp. 29-250. , ZZZZZZ1029-8436; Ranjan, G., Vasan, R.M., Charan, H.D., ""Probabilistic analysis of randomly distributed fiber-reinforced soil"" (1996) J. Geotech. Engrg., 122 (6), pp. 419-426. , JGENDZ0733-941010.1061/(ASCE)0733-9410(1996)122:6(419); Tingle, S.J., Santoni, R.L., Webster, S.L., ""Full-scale field Tests of discrete fiber-reinforced sand"" (2002) J. Transp. Eng., 128 (1), pp. 9-16. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(2002)128:1(9)","Chandra, S.; Dept. of Civil Engineering, , Roorkee 247 667, India; email: satisfce@iitr.ernet.in",,,,,,,,0733947X,,,,"English","J. Transp. Eng.",Article,"Final","",Scopus,2-s2.0-37549032498
"Shankarmani R., Mehta S., Mukri F.","36550572600;55845598900;26424743000;","Issues in open source software development",2007,"16th International Conference on Software Engineering and Data Engineering, SEDE 2007",,,,"338","343",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-84883540812&partnerID=40&md5=b2112ab55e533538a0edcb51d8348cf8","Dept. of Information Technology, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400053, India","Shankarmani, R., Dept. of Information Technology, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400053, India; Mehta, S., Dept. of Information Technology, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400053, India; Mukri, F., Dept. of Information Technology, Sardar Patel College of Engineering, Mumbai, Maharashtra, 400053, India","Open source software development has been steadily gaining momentum over the past few years. Developers from diverse geographic locations work in collaboration in an open source environment with the common goal of finding effective software solutions. However, due to the inherent nature of this environment, there are several issues which come in the way of successful software development. Despite recent progress towards greater ease of use in mature open source projects, many pieces of open software remain somewhat inaccessible to any but the technologically sophisticated. The problems prevalent in the development of open source projects include: • A lack of excellent documentation • Inefficient GUIs • A lack of marketing to make potential users aware of the existence of mature projects • Inconsistent and generally unknowable quality of projects • Complexities of licensing and license proliferation • Lack of knowledgeable and available support staff • Fear, uncertainty and doubt Addressing these open source environment specific issues and developing a process to tackle them will improve the quality of open source projects as well as encourage peoples' participation and use of open source softwares. This paper discusses the issues faced in open source software development and the suggested solutions to tackle these issues at the process level.",,"Gaining momentum; Geographic location; Open source projects; Open Source Software; Open source software development; Potential users; Recent progress; Software solution; Computer software; Software design; Open systems",,,,,,,,,,,,,,,,"Shankarmani, R., Electronics and Communication, , Prof B.E. M. E. in Computer Science, Presently working as Asst. Professor in I. T. Dept. Sardar Patel College of Engineering. Areas of interest include Open Source Development and Enterprise Systems; Mukri, F., Currently in Final Year Computer Engineering, , Ms Sardar Patel College of Engineering., intend to pursue M.S. in Computer Science; Mehta, S., Currently in Final Year Computer Engineering, , Ms Sardar Patel College of Engineering, intend to pursue M.S. in Computer Science","Dept. of Information Technology, , Mumbai, Maharashtra, 400053, India",,"The International Society for Computers and;Their Applications (ISCA)",,"16th International Conference on Software Engineering and Data Engineering, SEDE 2007","9 July 2007 through 11 July 2007","Las Vegas, NV",99066,,9781604231847,,,"English","Int. Conf. Softw. Eng. Data Eng., SEDE",Conference Paper,"Final","",Scopus,2-s2.0-84883540812
"Pandya B.N., Faroz R.S.","57197478034;51563545800;","Effect of various parameters on fundamental natural period of reinforced concrete space framed structures",2006,"Journal of the Institution of Engineers (India): Civil Engineering Division","87","AUG.",,"38","43",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-42149156025&partnerID=40&md5=93f5f11738578e67ffc8e6880ea8cc14","Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai 400 058, India; TCE Consulting Engineers Limited, Prabhadevi, Mumbai 400 025, India","Pandya, B.N., Department of Structural Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai 400 058, India; Faroz, R.S., TCE Consulting Engineers Limited, Prabhadevi, Mumbai 400 025, India","This paper describes a study carried out to compare the fundamental natural period (FNP) obtained by free vibration analysis of reinforced concrete buildings considering various configuration irregularities with the values of FNP obtained from empirical formulae given by Indian Standard Code IS 1893 (Part 1): 2002, International Building Code IBC 2000 and Federal Emergency Management Agency FEMA 368. It was found that structural configuration irregularities tend to increase the FNP and that the IS 1893 (Part 1): 2002 empirical formula gives FNP which is almost haf the computed values. The IBC 2000 and FEMA 368 empirical formula gives FNP, which varies marginally from the computed values.","3-dimensional RC space frame; Free vibration analysis; Skyline technique; Structural configuration irregularities; Subspace iteration method","Free vibration analysis; Skyline techniques; Space frames; Structural configuration irregularities; Subspace iteration method; Building codes; Computability and decidability; Iterative methods; Reinforced concrete; Vibration analysis; Structural frames",,,,,,,,,,,,,,,,"IS 1893 (Part 1): 2002. 'Criteria for Earthquake Resistant Design of Structures, Part 1 General Provisions and Buildings'. Fifth Revision, Bureau of Indian Standards, June 2002; 'International Building Code'. IBC2(XX) Edition, International Code Council, INC; 'Provisions for Seismic Regulations for New Buildings and other Structures'. Part 1: Provisions, FIiMA 368, NEHRP (National earthquake Hazards Reduction Program), Building Seismic Safely Council for the Federal Emergency Management Agency (YIiMA), Washington, DC, 2000; Bathe, K.J., Finite Element Procedures (2002) Prentice-Hall of India, , New Delhi, April; STAAD, P., (2002) Research Engineers International; Structural Analysis Program, SAP 2(M)O Nonlinear Version 7.42, Computers and Structures Inc, Berkeley, California; Weaver, W.R., Cere, J.M., (2000) Matrix Analysis of Framed Structures, , Second Edition, CBS Publishers & Distributors, New Delhi; Chopra, A.K., Dynamics of Structures -Theory and Applications to Earthquake Engineering (2001) Second lidition, , Pearson Education Asia; Paz, M., Structural Dynamics -Theory and Computation (2001) Second lidition, , CBS Publishers & Distributors, New Delhi; B Stafford-Smith and A Coull. Tall Building Structures: Analysis and Design'. John Wiley &Sons, Inc, 1992; NEHRP Guidelines for the Seismic Rehabilitation of Buildings (1997) FEMA, Applied Technology Council (ATC-H Project), 273. , Redwood City, California, Washington, DC, October; Jain, S.K., Saraf, V.K., Mehrotra, B., Experimental livaluation of Fundamental Period of RC Frame Buildings with Brick Infills (1996) Short Course on Seismic Design of Reinforced Concrete Buildings, pp. 301-327. , Mumbai, December 3-7; Earthquake Resistant Buildings (2002) A Special Issue of Journal of The Institution of Engineers (India), 83. , August; The Seismic Design Handbook (2001) Kluwer Academic Publislxrs, , Second lidition, ed; Plain and Reinforced Concrete - Code of Practice'. F'ourth Revision (2000), IS 456, Bureau of Indian Standard, July; Ductile Detailing of Reinforced Concrete Structures Subjected to Seismic Forces -Code of Practice (1993), IS 13920:, Bureau of Indian Standards","Pandya, B. N.; Department of Structural Engineering, , Andheri (West), Mumbai 400 058, India",,,,,,,,03731995,,JECVA,,"English","J Inst Eng India: Civ Eng Div",Article,"Final","",Scopus,2-s2.0-42149156025
"Shrivastava P., Dhingra S.L.","7005395057;56186332400;","Operational integration of suburban railway and public buses - Case study of Mumbai",2006,"Journal of Transportation Engineering","132","6",,"518","522",,9,"10.1061/(ASCE)0733-947X(2006)132:6(518)","https://www.scopus.com/inward/record.uri?eid=2-s2.0-33646708993&doi=10.1061%2f%28ASCE%290733-947X%282006%29132%3a6%28518%29&partnerID=40&md5=3f6185b5adb287bc6a56b1c65c059d4d","Dept. of Civil Engineering, Sardar Patel College of Engineering, Mumbai 58, India; Civil Eng. Dept., IIT Bombay, Mumbai 76, India","Shrivastava, P., Dept. of Civil Engineering, Sardar Patel College of Engineering, Mumbai 58, India; Dhingra, S.L., Civil Eng. Dept., IIT Bombay, Mumbai 76, India","In this research feeder routes and coordinated schedules were developed for integration of feeder public buses with suburban trains. A Heuristic Feeder Route Generation Algorithm was developed for generation of feeder routes. Optimal coordinated schedules for feeder buses were developed in coordination with the existing given schedules of suburban trains. Genetic algorithm, which is a robust optimization technique, is used for the optimizing coordinated schedules. Andheri and Vileparle suburban railway stations of Mumbai, India were selected as study areas. Feeder routes for public buses and coordinated schedules of public buses for the existing given schedules of suburban trains at the two suburban railway stations were successfully developed in this research. © 2006 ASCE.","Algorithms; Buses; India; Public transportation; Rail transportation; Routing; Scheduling","Algorithms; Bus transportation; Heuristic methods; Optimization; Railroad transportation; Scheduling; Feeder routes; Heuristic feeder route generation algorithm; Public transportation; Rail transportation; Suburban railway; Transportation routes; bus transport; public transport; railway transport; routing; transportation planning; Asia; Eurasia; India; Maharashtra; Mumbai; South Asia",,,,,,,,,,,,,,,,"(1999) Monthly Statistical Review on Bus Operation: Parts I and II, 39. , Bombay Electric Supply and Transport (BEST). Bulletin V, Planning and Control Section, Traffic Department, BEST, Bombay, India; Chakroborthy, P., Kalyanmoy, D., Subrahmanyam, S., ""Optimal scheduling of urban transit systems using genetic algorithms"" (1995) J. Transp. Eng., 121 (6), pp. 544-553. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(1995)121:6(544); Dhingra, S.L., Shrivastava, P., ""An overview of bus routing and scheduling techniques"" (2000) Highway Res. Bull., 62, pp. 65-90; Goldberg, D.E., (1989) Genetic Algorithm in Search, Optimization and Machine Learning, , Addison-Wesley, Reading, Mass; Kalyanmoy, D., (1995) Optimization for Engineering Design, Algorithms, and Examples, , Prentice-Hall, New Delhi, India; Kikuchi, S., Parmeswaran, J., ""Solving a schedule coordination problem using a fuzzy control technique"" (1993) Proc., Symp. on Intelligent Scheduling Systems, , ORSA-TIMS, San Francisco; Shrivastava, P., ""Modeling for coordinated bus route network of suburban railway corridors"" (2001), Ph.D. thesis, Indian Institute of Technology, Bombay, Mumbai, India; Shrivastava, P., Dhingra, S.L., ""Development of feeder routes for suburban railway stations using heuristic approach"" (2001) J. Transp. Eng., 127 (4), pp. 334-341. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(2001)127:4(334); Shrivastava, P., Dhingra, S.L., ""Development of coordinated schedules using genetic algorithms"" (2002) J. Transp. Eng., 128 (1), pp. 89-96. , JTPEDI0733-947X10.1061/(ASCE)0733-947X(2002)128:1(89)","Shrivastava, P.; Dept. of Civil Engineering, , Mumbai 58, India; email: prabhat_shri@vsnl.net",,,,,,,,0733947X,,,,"English","J. Transp. Eng.",Article,"Final","",Scopus,2-s2.0-33646708993
"Nichani V., Li W.-I., Smith M.A., Noonan G., Kulkarni M., Kodavor M., Naeher L.P.","57211874769;57213858430;55574214708;6603714118;7202901436;14060591800;6602753551;","Blood lead levels in children after phase-out of leaded gasoline in Bombay, India",2006,"Science of the Total Environment","363","1-3",,"95","106",,59,"10.1016/j.scitotenv.2005.06.033","https://www.scopus.com/inward/record.uri?eid=2-s2.0-33746869703&doi=10.1016%2fj.scitotenv.2005.06.033&partnerID=40&md5=d9345f5e74483a917a6779da91593543","The University of Georgia (UGA), College of Public Health, Department of Environmental Health Science, (EHS) Building, Athens, GA 30602-2102, United States; UGA, Department of Physiology and Pharmacology, Athens, GA, United States; Centers for Disease Control and Prevention, National Center for Environmental Health, Atlanta, GA, United States; Sardar Patel College of Engineering, Bombay, India; Panchsheel Hospital, Bombay, India","Nichani, V., The University of Georgia (UGA), College of Public Health, Department of Environmental Health Science, (EHS) Building, Athens, GA 30602-2102, United States; Li, W.-I., UGA, Department of Physiology and Pharmacology, Athens, GA, United States; Smith, M.A., The University of Georgia (UGA), College of Public Health, Department of Environmental Health Science, (EHS) Building, Athens, GA 30602-2102, United States; Noonan, G., Centers for Disease Control and Prevention, National Center for Environmental Health, Atlanta, GA, United States; Kulkarni, M., Sardar Patel College of Engineering, Bombay, India; Kodavor, M., Panchsheel Hospital, Bombay, India; Naeher, L.P., The University of Georgia (UGA), College of Public Health, Department of Environmental Health Science, (EHS) Building, Athens, GA 30602-2102, United States","The objective of this study was to test for reduction in pediatric blood lead levels (BLLs) in Bombay, India, by comparing BLLs collected in 2002 (after use of leaded gasoline was phased out in Bombay) to those collected in a study conducted by the George Foundation in 1997 (when leaded gasoline was still used in Bombay). We analyzed BLL in a total of 754 children under 12 years of age in two separate sampling campaigns (276 from December 2002 to January 2003 [non-monsoon season]; 478 in June to August 2003 [monsoon season]). BLL was measured using an ESA Lead Care Portable Analyzer. We also measured lead in PM10 samples collected in the study region. These data were compared with a study done by the George Foundation in 1997 before the phase out of leaded gasoline. The George Foundation study reported that 61.8% of the 291 children tested in Bombay had elevated blood lead levels (BLL ≥ 10 μg/dL). In the present study, 33.2% of the 754 tested children had elevated blood lead levels. The average BLL for the current study population (Geometric Mean = 8.36 μg/dL, SD = 5.23 μg/dL) was lower than the CDC level of concern (10 μg/dL), with one child diagnosed with lead poisoning (BLL &gt; 65 μg/dL). A seasonal trend of BLLs was suggested, with BLL in monsoon season (Geometric Mean = 9.1 μg/dL, SD = 5.7 μg/dL) higher than that in the non-monsoon season (Geometric Mean = 7.3 μg/dL, SD = 4.0 μg/dL). A seasonal periodicity of lead in PM10 was found, with lead in monsoon season (Geometric Mean = 0.04 μg/m3, SEM = 0.000667 μg/m3) lower than that in the non-monsoon season (Geometric Mean = 0.38 μg/m3, SEM = 0.10 μg/m3). The overall level of airborne dust (PM10) in monsoon season (56.2 μg/m3) was lower than in the non-monsoon season (273.0 μg/m3), presumably due to precipitation. The comparatively higher BLLs in the monsoon season, in the presence of lower air lead levels, suggest ingestion of water or food, with greater lead contamination in the monsoon season, as a possible pathway contributing to elevated BLLs in these children in the monsoon season. These results demonstrate a significant success of the public health system in Bombay, India-achieved by the removal of lead from gasoline. The emphasis should shift in the study region towards sources of lead exposure other than leaded gasoline (lead in paints, lead in Herbal medicines and lead in Kohl). © 2005 Elsevier B.V. All rights reserved.","Airborne lead; Blood lead; Particulate matter; Pediatric; PM10","Gasoline; Health care; Lead; Pediatrics; Precipitation (meteorology); Airborne lead; Blood lead; Particulate matters; PM10; Blood; gasoline; lead; gasoline; analytical method; blood; child health; comparative study; lead; monsoon; particulate matter; periodicity; population characteristics; precipitation (climatology); public health; seasonal variation; airborne particle; article; blood analysis; chemical analysis; child; controlled study; dust; female; human; human experiment; India; infant; lead blood level; lead poisoning; male; newborn; particulate matter; precipitation; priority journal; seasonal variation; adolescent; blood; environmental exposure; environmental monitoring; exhaust gas; health; lead poisoning; season; water supply; Asia; Eurasia; India; Maharashtra; Mumbai; South Asia; Adolescent; Child; Environmental Exposure; Environmental Monitoring; Gasoline; Humans; India; Lead; Lead Poisoning; Seasons; Urban Health; Vehicle Emissions; Water Supply",,"gasoline, 86290-81-5; lead, 7439-92-1; Gasoline; Lead, 7439-92-1; Vehicle Emissions",,,,,,,,,,,,,,"(1999) Toxicological profile for lead, , US Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, Atlanta, GA; Albalak, R., Noonan, G., Buchanan, S., Flanders, W.D., Crawford-Gotway, C., Kim, D., Blood lead levels and risk factors for lead poisoning among children in Jakarta, Indonesia (2003) Sci Total Environ, 301, pp. 75-85; Aro, S.O.A., Hu, H., Season modifies the relationship between bone and blood lead levels: the normative aging study (2002) Arch Environ Health, 57 (5), pp. 466-472; Bitto, A., Horvath, A., Sarkany, E., Monitoring of blood lead levels in Hungary (1997) Cent Eur J Public Health, 5 (2), pp. 75-78; Canfield, R.L., Henderson, C.R., Slechta-Cory, D.A., Cox, C., Jusko, T.A., Lanphear, B.P., Intellectual impairment in children with blood lead concentrations below 10 μg per deciliter (2003) N Engl J Med, 348 (16), pp. 1517-1526; Centers for Disease Control, (1991) Preventing lead poisoning in young children: a statement by the Centers for Disease Control, , US Department of Health and Human Services, Public Health Service, Atlanta, GA; Centers for Disease Control, (1997) Screening young children for lead poisoning: guidance for state and local public health officials, , US Department of Health and Human Services, Public Health Service, Atlanta; Central Pollution Control Board, (2005) National Ambient Air Quality Standards, , http://www.cpcb.nic.in/as.htm, http://www.cpcb.nic.in/as.htm; Chiodo, L.M., Jacobson, S.W., Jacobson, J.L., Neurodevelopmental effects of postnatal lead exposure at very low levels (2004) Neurotoxicol Teratol, 26 (3), pp. 359-371; Cikrt, M., Smerhovsky, Z., Blaha, K., Nerudova, J., Sediva, V., Fornuskova, H., Biological monitoring of child lead exposure in the Czech Republic (1997) Environ Health Perspect, 105 (4), pp. 406-411; Dupont, W.D., Plummer, W.D., Power and sample size calculations: a review and computer program (1990) Control Clin Trials, 11, pp. 116-128; Espinoza, R., Hernandez-Avila, M., Narciso, J., Castanaga, C., Moscoso, S., Ortiz, G., Determinants of blood-lead levels in children in Callao and Lima metropolitan area (2003) Salud Publica Mex, 45 (2), pp. S209-S219; Heinze, I., Gross, R., Stehle, P., Dillon, D., Assessment of lead exposure in school children from Jakarta (1998) Environ Health Perspect, 106 (8), pp. 499-501; Jacob, B., Ritz, B., Heinrich, J., Hoelscher, B., Wichmann, H.E., The effect of low-level blood lead on hematologic parameters in children (2000) Environ Res Sect A, 82, pp. 150-159; Jarosinska, D., Peddada, S., Rogan, W.J., Assessment of lead exposure and associated risk factors in urban children in Silesia, Poland (2004) Environ Res, 95 (2), pp. 133-142; Jeffery, G.H., Bassett, J., Mendham, J., Denney, R.C., (1989) Vogel's textbook of quantitative chemical analysis, atomic absorption and flame emission spectroscopy. 5th edition, pp. 779-816; Kaiser, R., Henderson, A.K., Daley, W.R., Naughton, M., Khan, M.H., Rahman, M., Blood lead levels of primary school children in Dhaka, Bangladesh (2001) Environ Health Perspect, 109 (6), pp. 563-566; Lee, C.R., Lee, J.H., Ryul-Kim Sung, C.I.Y., Trend of blood lead levels in children in an industrial complex and its suburban area in Ulsan, Korea (2002) Int Arch Occup Environ Health, 75, pp. 507-510; Leroyer, A., Nisse, C., Hemon, D., Gruchociak, A., Salomez, J.L., Haguenoer, J.M., Environmental lead exposure in a population of children in Northern France: factors affecting lead burden (2000) Am J Ind Med, 38 (3), pp. 281-289; Litvak-Factor, P., Wasserman, G., Kline, J.K., Graziano, J., The Yugoslavia prospective study of environmental lead exposure (1999) Environ Health Perspect, 107 (1), pp. 9-15; Lovei, M., Eliminating a silent threat: World bank support for the global phase out of lead from gasoline (1999) Proceedings of the international conference on lead poisoning prevention and treatment February 8-10, 1999, pp. 169-180. , The George Foundation, Bangalore, India; Manton, W.I., Angle, C.R., Stanek, K.L., Reese, Y.R., Kuehnemann, T.J., Acquisition and retention of lead by young children (2000) Environ Res Sect A, 82, pp. 60-80; Nuwayhid, I., Nabulsi, M., Muwakkit, S., Kouzi, S., Salem, G., Mikati, M., Blood lead concentrations in 1-3 year old Lebanese children: a cross-sectional study (2003) Environ Health Glob Access Sci Source, 2 (5), pp. 1-9; Pirkle, J.L., Kaufmann, R.B., Brody, D.J., Hickman, T., Gunter, E.W., Paschal, D.C., Exposure of the U.S. population to lead, 1991-1994 (1998) Environ Health Perspect, 106 (11), pp. 745-750; Ponka, A., Lead in the ambient air and blood of children in Helsinki (1998) Sci Total Environ, 219, pp. 1-5; Raghunath, R., Tripathi, R.M., Kumar, A.V., Sathe, A.P., Khandekar, R.N., Nambi, K.S.V., Assessment of Pb, Cd, Cu and Zn exposures of 6- to 10-year-old children in Mumbai (1999) Environ Res Sect A, 80, pp. 215-221; Rahbar, M.H., White, F., Agboatwalla, M., Hozhabri, S., Luby, S., Factors associated with elevated blood lead concentrations in children in Karachi, Pakistan (2002) Bull World Health Organ, 80 (10), pp. 769-775; Rahman, A., Yousuf, F.A., Lead levels in primary teeth of children in Karachi (2002) Ann Trop Paediatr, 22, pp. 79-83; Romieu, I., Carreon, T., Lopez, L., Palazuelos, E., Rios, C., Manuel, Y., Environmental urban lead exposure and blood lead levels in children of Mexico City (1995) Environ Health Perspect, 103 (11), pp. 1036-1040; Rubin, C.H., Esteban, E., Reissman, D.B., Daley, W.R., Noonan, G.P., Karpati, A., Lead Poisoning among young children in Russia: concurrent evaluation of childhood lead exposure in Ekaterinburg, Krasnouralsk, and Volgograd (2002) Environ Health Perspect, 110 (6), pp. 559-562; Schuhmacher, M., Belles, M., Rico, A., Domingo, J.L., Corbella, J., Impact of reduction of lead in gasoline on the blood and hair lead levels in the population of Tarragona Province, Spain, 1990-1995 (1996) Sci Total Environ, 184, pp. 203-209; Schutz, A., Barregard, L., Sallsten, G., Wilske, J., Manay, N., Pereira, L., Blood lead in Uruguayan children and possible sources of exposure (1997) Environ Res, 74, pp. 17-23; Shankar, C., Ayyar, P.V.R., Lead phase out from motor gasoline at ''Indian Oil'' refineries. A study of lead poisoning in major Indian cities (1999) Proceedings of the international conference on lead poisoning prevention and treatment February 8-10, 1999, pp. 277-285. , The George Foundation, Bangalore, India; Tandon, S.K., Empirical evidence on lead sources and pathways in India (1999) Proceedings of the international conference on lead poisoning prevention and treatment February 8-10, 1999, pp. 221-224. , The George Foundation, Bangalore, India; (1999) Proceedings of the international conference on lead poisoning prevention and Treatment February 8-10, 1999, pp. 79-85. , The George Foundation, Bangalore, India; Thomas, V.M., Socolow, R.H., Fanelli, J.J., Spiro, T.G., Effects of reducing lead in gasoline: an analysis of the international experience (1999) Environ Sci Technol, 33 (22), pp. 3942-3948; Tripathi, R.M., Raghunath, R., Krishnamoorthy, T.M., Dietary intake of heavy metals in Bombay city, India (1997) Sci Total Environ, 208, pp. 149-159; Tripathi, R.M., Raghunath, R., Kumar, A.V., Sastry, V.N., Sadasivan, S., Atmospheric and children's blood lead as indicators of vehicular traffic and other emission sources in Mumbai, India (2001) Sci Total Environ, 267, pp. 101-108; Tyagi, S.K., Sengupta, B., Phasing-out leaded petrol in Delhi (1999) Proceedings of the international conference on lead poisoning prevention and treatment February 8-10, 1999, pp. 273-276. , The George Foundation, Bangalore, India; Yiin, L.M., Rhoads, G.G., Lioy, P.J., Seasonal influences on childhood lead exposure (2000) Environ Health Perspect, 108 (2), pp. 177-182","Naeher, L.P.; The University of Georgia (UGA), (EHS) Building, Athens, GA 30602-2102, United States; email: LNaeher@uga.edu",,,,,,,,00489697,,STEVA,"16181659","English","Sci. Total Environ.",Article,"Final","",Scopus,2-s2.0-33746869703
"Ghosh M.","8592498100;","The public library system in India: Challenges and opportunities",2005,"Library Review","54","3",,"180","191",,26,"10.1108/00242530510588935","https://www.scopus.com/inward/record.uri?eid=2-s2.0-19644393514&doi=10.1108%2f00242530510588935&partnerID=40&md5=085f51529b963c996df81449a4f34521","Sardar Patel College of Engineering, University of Mumbai, Mumbai, Maharashtra, India","Ghosh, M., Sardar Patel College of Engineering, University of Mumbai, Mumbai, Maharashtra, India","Purpose - The current situation of Indian public libraries has been viewed by some as follows: The public library system in India is condemned to remain peripheral to the actual information needs of the masses; that it is in a depressed state, and serves as little more than a warehouse of recreational reading materials, a majority of which are in regional languages. This paper suggests possible remedies on how to transform the situation, and details new technological developments which are already showing the potential to change public libraries in rural India for the better. Design/methodology/approach - A descriptive account of the contemporary situation in India with regard to public libraries, digital technologies and development possibilities, using official statistics and the LIS literature. Findings - The challenges that face public libraries in India are listed and a vision for their future based on the concept of ""ICT for development"" is sketched out. Research limitations/implications - It is difficult to get an overall view of this topic: authorized statistics on public libraries in India as a whole are not collected, because these libraries are the responsibility of a variety of agencies who, for various reasons, never disclose such information on a national scale. Practical implications - The author details new technological developments, the practical outcome of which would in particular facilitate the establishment of digital library services in rural India. Originality/value - This paper provides a useful overview of a library scenario on which aggregated statistical data is hard to find; and, from this summary of the present situation, goes on to suggest possible ways to transform the ""digital divide"" into ""digital opportunities"". © Emerald Group Publishing Limited.","Economic development; India; Public libraries; Rural economies",,,,,,,,,,,,,,,,,"Arora, J., ""Indian National digital library in Engineering Science and Technology (INDEST): A proposal for strategic cooperation for consortia-based access to electronic resources"" (2001) International Information and Library Review, 33, pp. 149-165; Bhattacharjee, R., ""Public library services in India: Systems and deficiencies"" (2002) Proceedings of the 68th IFLA International Congress and Council, , Glasgow, 1-9 August 2002, available at: www.ifla.org/VII/s8/annual/cr02-in.htm (accessed 19 December 2004); Edwards, C., ""Global knowledge: A challenge for librarians"" (2001) IFLA Journal, 27 (2), pp. 65-69; Evald, P., ""Information technology in Danish public libraries"" (1996) Program, 30 (2), pp. 121-131; Fors, M., Moreno, A., ""The benefits and obstacles of implementing ICTs: Strategies for development from a bottom up approach"" (2002) Aslib Proceedings, 54 (3), pp. 198-206; Grimshaw, A., ""Records, document and content management in local Government: A look at the some of the latest e-government initiatives"" (2003) Information Management & Technology, pp. 14-20. , January-March and 31; Kaul, H.K., ""Knowledge centres: The key to self employment and poverty alleviation"" (2002) Delnet Newsletter, 9 (2), pp. 17-18; Lancaster, K., ""Patient empowerment"" (2003) Library and Information Update, 2 (3), pp. 36-37; Miao, Q., ""To be or not to be: Public libraries and the global knowledge revolution, (conference paper)"" (1998) Proceedings of the 64th IFLA International Congress and Council, , available at: www.ifla.org/IV/ifla64/082-78e.htm (accessed 17 December); Nath, V., ""Empowerment and governance through information and communication technologies: Women's perspective"" (2001) International Information and Library Review, 33, pp. 317-339; Nicholas, D., ""An evaluation of the use of NHS touch-screen health kiosks: A national study"" (2002) Aslib Proceedings, 54 (6), pp. 372-383; Noronha, F., ""Community radio: Too many obstacles"" (2003) Economic and Political Weekly, pp. 1628-1630; Pasha, A., ""Wireless MAN for rural development"" (2002) Network Magazine, pp. 42-45. , September; Pasha, A., ""Akshaya for rural India"" (2004) Network Magazine, pp. 49-51; Shourie, A., ""Information society: Go beyond declarations"" (2003) Indian Express, p. 7. , 15 December; Stoker, D., ""Social exclusion, joined-up government, public libraries and the internet"" (2000) Journal of Librarianship and Information Science, 32 (2), pp. 53-55. , Editorial; (2004) The UNESCO Public Library Manifesto, , UNESCO available at: www.unesco.org/webworld/libraries/manifestos/ libraman.html (accessed 17 December 2004); Williamson, K., ""The role of the internet for people with disabilities: Issues of access and equity for public libraries"" (2001) Australian Library Journal, pp. 157-174. , May; Yilmaz, B., ""Social change, industrialization and public libraries: A theoretical approach"" (2002) Aslib Proceedings, 54 (5), pp. 326-334; Sharma, A., Yurcik, W., ""The emergence of rural digital libraries in India: The Gyandoot digital library"" (2000) Proceedings of the ASIS Annual Conference (ASIS 2000), , Chicago, IL November, available at: www.asis.org/Bulletin/May-01/ sharmayurcik.htm. (accessed 17 December 2004)","Ghosh, M.; Sardar Patel College of Engineering, , Mumbai, Maharashtra, India",,,,,,,,00242535,,,,"English","Libr. Rev.",Review,"Final","",Scopus,2-s2.0-19644393514
"Chawande P., Soman S.A., Apte P.R., Pandit S.","15922360800;7004217094;55725529100;36604990100;","Experimental evaluation of current transformer performance under saturation",2005,"7th International Power Engineering Conference, IPEC2005","2005",,"1627171","","",,5,"10.1109/ipec.2005.206882","https://www.scopus.com/inward/record.uri?eid=2-s2.0-33947129590&doi=10.1109%2fipec.2005.206882&partnerID=40&md5=0f23d15392ef8b942252c260b281281f","Indian Institute of Technology Bombay, Mumbai, India; Department of Electrical Engineering, Indian Institute of Technology Bombay, Mumbai, India; Sardar Patel College of Engineering, Mumbai, India","Chawande, P., Indian Institute of Technology Bombay, Mumbai, India; Soman, S.A., Department of Electrical Engineering, Indian Institute of Technology Bombay, Mumbai, India; Apte, P.R., Department of Electrical Engineering, Indian Institute of Technology Bombay, Mumbai, India; Pandit, S., Sardar Patel College of Engineering, Mumbai, India","Current transformers form an integral part of protective systems. Ideal Current Transformers (CTs) are expected to reproduce the primary current faithfully on the secondary side. Often, during fault conditions an important component of current is exponentially decaying DC offset current. Under such conditions the CT saturates, and hence it cannot reproduce the primary current faithfully. This paper deals with experimental methods for determining CT performance under saturation. A laboratory setup has been developed to observe CT response under steady state and fault conditions. Thus, it is now possible to experimentally evaluate the CT performance under fault conditions.","CT saturation; Education; Power system protection","Electric fault currents; Electrical engineering; Power plant laboratories; CT saturation; Laboratory setup; Power system protection; Protective systems; Electric instrument transformers",,,,,,,,,,,,,,,,"Arun. G. Phadke, and James S. Thorp, Computer Relaying for Power Systems, Research Studies Press Ltd. Taunton, Somerset, England 1988; IEEE Guide for the Application of CT used for Protective Relaying Purpose, (C37.110-1996). , IEEE Standard; IEEE Guide for the Field Testing of Relaying Current Transformer, , IEEE Standard C57.13.1-1981; Stringer, N.T., The Effect of DC offset on Current-Operated Relays (1998) IEEE Transactions on Industry Applications, 34 (1), pp. 154-159. , Jan/Feb; Lewis Blackburn, J., (1987) Protective Relaying, Principles and Applications, , New York: Marcel Dekker; Kezunovic, M., Fromen, C.W., Philips, F., Experimental Evaluation of EMTP-based Current Transformer Models for Protective Relay Transient Studies (1994) IEEE Transaction on Power Delivery, 9 (1), pp. 405-412. , Jan","Chawande, P.; Indian Institute of Technology Bombay, Mumbai, India; email: pvchawande@ee.iitb.ac.in",,,"IEEE Computer Society","7th International Power Engineering Conference, IPEC2005","29 November 2005 through 2 December 2005","Singapore",69326,,9810544693; 9789810544690,,,"English","Int. Power Eng. Conf.",Conference Paper,"Final","",Scopus,2-s2.0-33947129590
"Ghosh M.","8592498100;","“Library as a Portal” – IFLA 69th Conference in Deutschland: A Rewarding Experience",2004,"Library Hi Tech News","21","1",,"3","5",,,"10.1108/07419050410526402","https://www.scopus.com/inward/record.uri?eid=2-s2.0-84993054526&doi=10.1108%2f07419050410526402&partnerID=40&md5=9d636a5dba3b1397d038e3184dfc577f","Sardar Patel College of Engineering, University of Mumbai, Andheri (West), Mumbai, India","Ghosh, M., Sardar Patel College of Engineering, University of Mumbai, Andheri (West), Mumbai, India","Reports on some of the papers presented at the Interrnational Federation of Library Associations and Institutions] 2003 conference which had the theme of Library as a portal. © 2004, Emerald Group Publishing Limited. All rights reserved.","Conferences; Libraries; Portals",,,,,,,,,,,,,,,,,"IFLA Express (2003), (1). , February; Pors, N.O., BERLIN 2003: Evaluation of the IFLA World Library and Information Congress (2003), pp. 1-21. , The Royal School of Library & Information Science, Copenhagen, October; Rusch-Feja, D., (translator), “Portals to the past and to the future libraries in Germany (2003), pp. 1-12. , 2003 Federal Union of German Library Association, Hildesheim","Ghosh, M.; Sardar Patel College of Engineering, , Andheri (West), Mumbai, India",,,,,,,,07419058,,,,"English","Libr. Hi Tech News",Article,"Final","",Scopus,2-s2.0-84993054526
"Kulkarni M.M., Patil R.S.","7202901436;7101770684;","Personal exposure to toxic metals in an Indian metropolitan region",2003,"Journal of the Institution of Engineers (India): Environmental Engineering Division","84","1",,"23","29",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-30444456252&partnerID=40&md5=4a4ae4ca92eaaf356eb70504cb16f2dd","Department of Sardar Patel College of Engineering, Andheri (West), Mumbai 400 058, India; Centre for Environment Science and Engineering, Indian Institute of Technology, Powai, Mumbai 400 076, India","Kulkarni, M.M., Department of Sardar Patel College of Engineering, Andheri (West), Mumbai 400 058, India; Patil, R.S., Centre for Environment Science and Engineering, Indian Institute of Technology, Powai, Mumbai 400 076, India","It is now being realised that estimation of personal exposure of population to air pollutants is more relevant than the ambient air quality, since it gives a better indication of health risk. Outdoor workers in the urban region are generally of low income group and are exposed to high levels of both indoor and outdoor air pollution. Hence twenty four respondents from this population sub-group have been selected for this study. The study is carried out in a residential cum industrial area of Mumbai. The daily integrated exposure of the outdoor workers consists of two major microenvironments, namely, occupational and indoor residential. Twenty-four respondents were monitored for a continuous 48 h period. Paired samples of PM10 (ambient) and RPM (personal) were collected to establish correlation between them. The filter papers with collected dust during ambient air and personal exposure monitoring were analyzed for Lead, Nickel, Cadmium, Copper, Chromium, Potassium, Iron and Manganese. Atomic absorption spectrophotometry was used to measure the concentration of all metals except Lead for which voltametry was used. All the metals were detected in the ambient air where as only Lead, Cadmium, Manganese and potassium were detected in personal exposure. The results show that mean daily exposure to lead (4.2 μg/m 3) exceeds the corresponding Indian NAAQS (1.0 μg/m 3) by a factor of 4.2. However, ambient concentration of lead confirms to this standard. Personal exposure to toxic metals exceeds the corresponding ambient levels by a large factor ranging from 6.1 to 13.2. Thus, ambient concentrations of toxic metals grossly underestimate health risk due to personal exposure of toxic metals.","Air pollution; Personal exposure; Toxic metals","Air pollutants; Personal exposure monitoring; Toxic metals; Cadmium; Correlation methods; Health; Health risks; Nickel; Pollution; Spectrophotometry; Toxic materials",,,,,,,,,,,,,,,,"Smith, K.R., Apte, M.G., Yuqing, M., Wongsekiarttirat, W., Kulkarni, A., Air pollution and the energy ladder in asian cities (1994) Energy, the International Journal, 19 (5), pp. 587-600; Kulkarni, M.M., Patil, R.S., Factors influencing personal exposure to nitrogen dioxide in an Indian metropolitan region (1998) Journal of Indoor Built Environ, 7, pp. 319-332. , Karger AG, Basel; Kulkarni, M.M., Paul, R.S., Monitoring of daily integrated exposure of outdoor workers to respirable particulate matter in an urban region of India (1999) Journal of Environmental Monitoring and Assessment, Kluwer Academic Publishers, 56, pp. 129-146. , Netherlands; Sharma, V.K., Patil, R.S., Monitoring and modelling of atmospheric aerosols in an industrial region of bombay (1992) Environmental Technology, 13, pp. 1043-1052; Murti, C.R.K., Viswanathan, P., Toxic metals in the Indian environment (1991) Tata McGraw Hill, , New Delhi; Larssen, S., Gram, F., Hagen, L.O., Jansen, H., Olsthoorn, X., (1994) URBAIR Bombay City Specific Report', Norwegian Institute of Air Research, , Reference: 0-92117, ISBN: 82-425","Kulkarni, M.M.; Department of Sardar Patel College of Engineering, Andheri (West), Mumbai 400 058, India",,,,,,,,0251110X,,JEEED,,"English","J Inst Eng India: Environ Eng",Article,"Final","",Scopus,2-s2.0-30444456252
"Prabhat S., Reddy M. S.","7005395057;34979224400;","A simulation model for suburban railway to study the effect of capacity and headway on waiting time",2002,"Proceedings of the Conference on Traffic and Transportation Studies, ICTTS",,,,"X318","388",,,"10.1061/40630(255)53","https://www.scopus.com/inward/record.uri?eid=2-s2.0-57649105981&doi=10.1061%2f40630%28255%2953&partnerID=40&md5=8e30759895930796b1f2890174cea9ca","Sardar Patel College of Engineering, Andheri (W), Mumbai, 400 058; Indian Institute of Technology, Madras, Chennai, 600 036","Prabhat, S., Sardar Patel College of Engineering, Andheri (W), Mumbai, 400 058; Reddy M., S., Indian Institute of Technology, Madras, Chennai, 600 036","In this research work a simulation model is developed to study the effects of change in frequencies or capacity of suburban trains on waiting time for the given demands at various suburban railway stations. As a case study Madras Beach - Tambaram meter gauge suburban railway line in Chennai, India was taken. The simulation model is used to find optimum frequency for existing and enhanced capacity of trains for desired loading level.",,"Loading levels; Optimum frequencies; Railway lines; Railway stations; Simulation models; Suburban trains; Waiting-time; Loading level; Optimum frequency; Railway line; Simulation model; Railroads; Simulators; Locomotives; Railroad cars; Railroads",,,,,,,,,,,,,,,,"Narshing, D., (1989) Discrete system simulation, , Prentice Hall of India Private Limited, Nov, 200p; Gorden, G., (1992) System Simulation, , Prentice Hall of India Private Limited, Second edition, 324p; Prabhat, S., Utility of Suburban Railway: Madras Beach -Tambaram Section (1993), M. Tech. thesis submitted to Transportation Engineering Division, Department of Civil Engineering, Indian Institute of Technology, Madras, 124p; Whol and Martin (1967), Traffic Systems and Analysis - for Engineers and Planners, McGraw-Hill book company, 554p","Prabhat, S.; Sardar Patel College of Engineering, Andheri (W), Mumbai, 400 058; email: prabhat_shri@vsnl.net",,,,"3rd International Conference on Traffic and Transportation Studies, ICTTS 2002","23 July 2002 through 25 July 2002","Guilin",74493,,0784406308; 9780784406304,,,"English","Proc Conf Traffic Transport Stud ICTTS",Conference Paper,"Final","",Scopus,2-s2.0-57649105981
"Mhaiskar S.Y.","6602901962;","Overview of geosynthetic included pavement overlays",2002,"Man-Made Textiles in India","45","10",,"381","383",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-0036822961&partnerID=40&md5=8dfcc2e281dec2d30eb2cdef5f197007","Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Andheri (W), Mumbai 400 058, India","Mhaiskar, S.Y., Bharatiya Vidya Bhavan's, Sardar Patel College of Engineering, Andheri (W), Mumbai 400 058, India","The functions of geotextiles when used as pavement overlays or as a moisture barrier and a stress absorber is the focus here. Applications include use in asphalt concrete overlays and on concrete pavements. The six factors affecting performance when geotextiles are used as an overlay are listed and include the type of distress and width of cracks, climate and the geotextile used. Other items in this article are a design overview for Portland cement concrete pavement, drainage considerations and the potential advantages and disadvantages of geotextile barriers. Some specifications for geotextiles are also listed.",,"civil engineering; geosynthetics; pavement; performance assessment; barrier fabric; civil engineering; geotextile; performance assessment",,,,,,,,,,,,,,,,"(1997) Geosynthetic Engineering, , R. D. Holtz, B. C. Christopher and R. R. Berg. Bitech Publishers; (2001), Ministry of Surface Transport, Specifications for Road and Bridges, Fourth Revision; Elsing, A., Sobolewski, J., Asphalt-layer polymer reinforcement:- Long term experience, new design method, recent developments (1996) 5th International Conference on Bearing Capacity of Roads and Airfields; Molenar, A.A.A., Nods, M., Design method for plain and Geogrid reinforced overlays on cracked pavements (1996) Reflective Cracking in Pavements, , RILEM publication; Kassner, J., Theory and Practical experience with polyester reinforced/grids in bituminous pavement courses (1989) Proceedings of the International Conference on Reflective Cracking","Mhaiskar, S.Y.; Bharatiya Vidya Bhavan's, , Andheri (W), Mumbai 400 058, India",,,,,,,,03777537,,,,"English","Man-Made Text. India",Article,"Final","",Scopus,2-s2.0-0036822961
"Kulkarni M.M., Patil R.S.","7202901436;7101770684;","An empirical model to predict indoor NO2 concentrations",2002,"Atmospheric Environment","36","30",,"4777","4785",,8,"10.1016/S1352-2310(02)00471-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0036807242&doi=10.1016%2fS1352-2310%2802%2900471-5&partnerID=40&md5=da416f9c1e08a66a1c17518598c03f33","Sardar Patel College of Engineering, Andheri, Mumbai 400 058, India; C.E.S.E, I.I.T, Bombay, Powai, Mumbai 400 076, India","Kulkarni, M.M., Sardar Patel College of Engineering, Andheri, Mumbai 400 058, India; Patil, R.S., C.E.S.E, I.I.T, Bombay, Powai, Mumbai 400 076, India","This paper discusses the development of an empirical model to predict indoor NO2 concentration (Cin) from outdoor NO2 concentration (Cout) measured just outside the homes. Concentrations were 48-h time integrated averages. Data from a study carried out on measurement of indoor, outdoor and personal exposure to nitrogen dioxide (NO2) in Mumbai were used in the development of the model. Concentrations were measured over 2-day periods both in winter (February 1996) and summer (April 1996) for 43 respondents. The form of the developed model isC̄in=kC̄out+S/Q,where k, the ventilation factor and S/Q the source term are the model constants. Analysis of variance and regression analysis indicated that type of fuel was the most significant factor influencing indoor concentration and model constants. Measured indoor concentrations were regressed on outdoor concentrations to evaluate model constants for kerosene and liquefied petroleum gas (LPG), which are the most predominantly used cooking fuels in Indian households. Final models, after evaluating the constants suggested that contribution to indoor NO2 concentration due to indoor sources was higher in kerosene using households whereas in the case of LPG using households, the contribution due to outdoor sources was relatively higher. Results of model validation indicated that the predictive power of the models was good. © 2002 Elsevier Science Ltd. All rights reserved.","Kerosene; LPG; Outdoor NO2 concentration; Source term; Ventilation factor","Liquefied petroleum gas; Nitrogen oxides; Regression analysis; Ventilation; Indoor concentrations; Environmental engineering; fuel; kerosene; liquefied petroleum gas; nitrogen dioxide; air quality; indoor air; nitrogen dioxide; prediction; ambient air; analysis of variance; article; concentration (parameters); cooking; empiricism; environmental exposure; home; household; India; indoor air pollution; mathematical model; measurement; prediction; priority journal; regression analysis; summer; time; validation process; winter; India",,,,,,"We are thankful to Mr. Nitin Kudalkar, Ms. Deepashri Raje and Mr. Harish Newrekar from CESE for the help rendered by them in data collection. We are also thankful to the Central Pollution Control Board, Delhi for funding the study. Partial financial support provided by the Toyo Roshi Company in Japan in the international NO 2 study is gratefully acknowledged.",,,,,,,,,,"Alzona, J., Cohen, B.L., Rudolph, H., Jow, H.N., Frohliger, J.O., Indoor outdoor relationships for airborne particulate matter of outdoor origin (1979) Atmospheric Environment, 13, pp. 55-60; Dimitroulopoulou, C., Ashmore, M.R., Byrne, M., Kinnersley, R., Modelling of indoor exposure to nitrogen dioxide in the UK (2001) Atmospheric Environment, 35 (2), pp. 269-279; Dockery, D.W., Spengler, J.D., Personal exposure to respirable particulates and sulfates (1981) Journal of Air Pollution Control Association, 31, pp. 153-159; Ishizu, Y., General equation for the estimation of indoor pollution (1980) Journal of Environmental Science and Technology, 14 (10), pp. 1254-1257; Jones, R.M., Fagan, R., Application of mathematical model for the build-up of carbon monoxide from cigarette smoking in rooms and houses (1974) ASHRAE Journal, 16, pp. 49-53; Kulkarni, M.M., Patil, R.S., Monitoring of daily integrated exposure of outdoor workers to respirable particulate in an urban region (1996) The Fifth International Conference on Atmospheric Sciences and Applications to Air Quality, , June 18-20, Seattle, USA; Kulkarni, M.M., Patil, R.S., Factors influencing personal exposure to NO2 in an Indian Metropolitan region (1998) Journal of Indoor+Built Environment, 7, pp. 314-322; Kulmala, M., Asimi, A., Pirjola, L., Indoor aerosol model: The effect of outdoor air, filtration and ventilation on indoor concentrations (1999) Atmospheric Environment, 33 (14), pp. 2133-2144; Nazaroff, W.W., Cass, G.R., Mathematical modeling of indoor aerosol dynamics (1989) Journal of Aerosol Science and Technology, 23 (2), pp. 157-165; Ott, W.R., (1995) Environmental Statistics and Data Analysis, , Boca Raton, FL, USA: Lewis Publishers; Sheldon, L.S., Hartwell, T.D., Cox, B.G., Sickles J.E. II, Pellizzari, E.D., Smith, M.L., Perritt, R.L., Jones, S.M., (1989) An Investigation of Infiltration and Indoor air Quality, , Final Report. New York State Energy Research and Development Authority, New York State ERDA Contract no. 736-CON-BCS-85, Albany, NY; Smith, K.R., (1987) Biofuels, Air Pollution and Health, A Global Review, , New York: Plenum Press; Smith, K.R., Aggarwal, A.L., Dave, R.M., A pilot study in 36 households of 4 villages in Gujarat for measuring exposure to air pollutants (1984) Status of India's Environment, 1984-85, p. 124. , CSE Publications, New Delhi, India; Spengler, J.D., Lee, K., Levy, J.I., Yanagisawa, Y., Bischof, W., Braathen, O., Chung, Y., Zhang, X., Impact of residential nitrogen dioxide on personal exposure: An international study (1996) Indoor Air, 1, pp. 931-936; (1992) Urban Air Pollution in Megacities of the World, , Blackwell Publication, Oxford; Warren, P.R., Webb, B.C., Ventilation measurements in housing (1980) Paper by BRE in the CIBS Conference on Natural Ventilation by Design, , December 2; Yamanaka, S., Decay rates of nitrogen oxides in a typical Japanese living room (1984) Environmental Science and Technology, 18 (7), pp. 566-570","Patil, R.S.; C.E.S.E., , Bombay, Powai, Mumbai 400 076, India; email: rspatil@cc.iitb.ernet.in",,,,,,,,13522310,,AENVE,,"English","Atmos. Environ.",Article,"Final","",Scopus,2-s2.0-0036807242
"Shrivastava P., Dhingra S.L.","7005395057;56186332400;","Development of coordinated schedules using genetic algorithms",2002,"Journal of Transportation Engineering","128","1",,"89","96",,47,"10.1061/(ASCE)0733-947X(2002)128:1(89)","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0036152385&doi=10.1061%2f%28ASCE%290733-947X%282002%29128%3a1%2889%29&partnerID=40&md5=e2b84212ce628fcc006434ba0a429057","Department of Civil Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Transportation System Engineering, Civil Engineering Dept., IIT Bombay, Mumbai, India","Shrivastava, P., Department of Civil Engineering, Sardar Patel College of Engineering, Andheri (W), Mumbai, India; Dhingra, S.L., Transportation System Engineering, Civil Engineering Dept., IIT Bombay, Mumbai, India","Suburban trains and public buses can play a better role in public transportation if they are coordinated. Coordination of these two services will reduce the journeys made by intermediate public transport services and private vehicles from railway stations, which have become major traffic generators. Thus, congestion, delays, and environmental pollution due to these services can be reduced to a great extent. In this study, the Andheri and Vileparle suburban railway stations in Mumbai, India are taken as study locations, and schedule coordination between suburban trains and public buses [Bombay Electric and Suburban Transport (BEST) buses] at these suburban railway stations is attempted. The coordinated schedules of BEST buses have been determined on already developed feeder routes for these two stations using the schedule optimization model (SOM). The objective function of the SOM is the minimization of transfer time between two services and vehicle operating costs of BEST buses. The objective function and constraints make the problem nonlinear and nonconvex with a large number of variables, making it difficult to solve by classical approaches. Therefore, the genetic algorithm, a robust optimization technique, is used for optimization. So far there have been few studies pertaining to the integration of public transport modes, and these studies were limited to analytical modeling. Analytical models do not meet real-life objectives under realistic constraints. In the absence of studies related to realistic modeling, it can be claimed that this study is a specific contribution toward operational integration of public transport modes.","Algorithms; Public transportation; Scheduling","Buses; Economic and social effects; Genetic algorithms; Optimization; Pollution; Suburban trains; Railroad transportation; bus transport; genetic algorithm; public transport; railway transport; transportation planning; transportation system; India",,,,,,,,,,,,,,,,"Bookbinder, J.H., Desilets, A., Transfer optimization in a transit network (1992) Transp. Sci, 26 (2), pp. 106-118; Chakroborthy, P., Kalyanmoy, D., Subrahmanyam, S., Optimal scheduling of transit systems using genetic algorithms (1995) J. Transp. Eng, 121 (6), pp. 544-552; Dhingra, S.L., Shrivastava, P., Application of advanced techniques to urban transportation mobility planning (1999) Plenary Session, Int. Conf. on Modeling and Management in Transportation; Goldberg, D.E., (1989) Genetic Algorithm in Search, Optimization and Machine Learning, , Addison-Wesley, Reading, Mass; Kalyanmoy, D., (1995) Optimization for Engineering Design: Algorithms and Examples, , Prentice-Hall, New Delhi, India; Kikuchi, S., Parmeswaran, J., Solving a schedule coordination problem using a fuzzy control technique (1993) Proc., Intelligent Scheduling Systems Symposium, , ORSA-TIMS, San Francisco; (1999) Monthly Statistical Review (Parts I and II) on Bus Operation, 39 (5). , Traffic Dept. of BEST Undertaking, Planning and Control Section; (1997) Techno-Economic Feasibility Study of Construction of Mumbai Metro Study, , Mumbai Metro Planning Group (MMPG). Draft Rep. Prepared for Government of Maharastra, India; Rapp, M.H., Gehner, C.D., Transfer optimization in an interactive graphic system for transit planning (1976) Transportation Research Record, 619, pp. 27-33. , Transportation Research Board, Washington, D.C; Shrivastava, P., Modeling for co-ordinated bus route network of suburban railway corridors (2000) Presynopsis Seminar Rep, , Indian Institute of Technology, Bombay, India; Shrivastava, P., Dhingra, S.L., Modeling for co-ordinated bus route network for sub-urban railway corridors (1999) Proc., Int. Conf. on Civil and Environmental Engineering - New Frontiers and Challenges; Shrivastava, P., Dhingra, S.L., Development of feeder routes for suburban railway stations using heuristic approach (2001) J. Transp. Eng, 127 (4), pp. 334-341","Shrivastava, P.S.; Sardar Patel College of Engineering, Andheri, Mumbai, India",,,,,,,,0733947X,,,,"English","J. Transp. Eng.",Article,"Final","",Scopus,2-s2.0-0036152385
"Shrivastav P., Dhingra S.L.","6603800033;56186332400;","Development of feeder routes for Suburban railway stations using heuristic approach",2001,"Journal of Transportation Engineering","127","4",,"334","341",,57,"10.1061/(ASCE)0733-947X(2001)127:4(334)","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0035395481&doi=10.1061%2f%28ASCE%290733-947X%282001%29127%3a4%28334%29&partnerID=40&md5=3a8bd2c7d4cfa6dd7e2e35bc15b81d13","Dept. of Civ. Engrg, Sardar Patel Coll. of Engrg, Andheri (W), Mumbai, India; Transp. Sys. Engr, Civ. Engrg. Dept, Indian Inst. of Technol, Bombay, Mumbai, India","Shrivastav, P., Dept. of Civ. Engrg, Sardar Patel Coll. of Engrg, Andheri (W), Mumbai, India; Dhingra, S.L., Transp. Sys. Engr, Civ. Engrg. Dept, Indian Inst. of Technol, Bombay, Mumbai, India","In this paper a heuristic algorithm is discussed for development of feeder routes to railway stations. The heuristic algorithm is a part of a model that has been developed for operational integration of suburban railway stations and public buses. The model has two distinct components, the first part is development of feeder routes for public buses to suburban railway stations and the second part is determination of optimally coordinated schedules of feeder bus services for the given schedules of suburban trains. The second part of the model is beyond the scope of this paper. Andheri and Vileparle suburban railway stations on a western railway line in Mumbai, India were taken as study areas, and extensive data collection was done at these railway stations. Various nodes and their potential demands from these railway stations were identified, and the demand-deviated feeder routes were developed for Bombay Electric Supply and Transport buses, which are being used as public buses in Mumbai, India.",,"Algorithms; Heuristic methods; Mathematical models; Railroad stations; Scheduling; Transportation routes; Feeder routes; Suburban railway statins; Railroad transportation; railway transport",,,,,,,,,,,,,,,,"Baaj, M.H., Mahamassani, H.S., TRUST: A LISP program for analysis of transit route configurations (1990) Transp. Res. Rec. 1283, pp. 125-135. , Transportation Research Board, Washington, D.C; Baaj, M.H., Mahmassani, H.S., Hybrid route generation heuristic algorithm for the design of transit networks (1995) Transp. Res, 3 (1), pp. 31-50; Dhingra, S.L., (1980) Simulation of Routing and Scheduling of City Bus Transit Network, , PhD thesis, Indian Institute of Technology, Kanpur, India; Dubois, D., Bel, G., Llibre, M., A set of methods in transportation network synthesis and analysis (1979) Operations Res, 30 (9), pp. 797-808; Hsu, J.A., Surti, V.H., Demand model for bus network design (1976) Transp. Engrg. J, 102 (3), pp. 451-460. , ASCE; Lampkin, W., Saalmans, P.D., The design of routes, service frequencies and schedules for a municipal bus undertaking: A case study (1967) Operations Res, 18 (4), pp. 375-397; Mandl, C.E., Evaluation and optimization of urban public transport networks (1980) Eur. J. Operational Res, 6, pp. 31-56; Patankar, P.G., Sustainable strategy to relieve Mumbai's traffic thrombosis (1996) Newsletter of the Indian Road Transport Development Association, 65 (8), pp. 1-15; Shrivastava, P., Dhingra, S.L., An approach for integrated public transport system-A case study of Mumbai (1999) Proc., Int. Conf. on Modeling and Mgmt. in Transp, 2, pp. 257-261; Shrivastava, P., Dhingra, S.L., Modeling for co-ordinated bus route network for sub-urban railway corridors (1999) Proc., Int. Conf. on Civ. and Envir. Eng., 4, pp. 8-26; Silman, L.A., Brazily, Z., Passy, U., Planning the route system for urban buses (1974) Comp. Operations Res, 1, pp. 201-211; Warasinghe, S.C., Nearly optimal parameters for a rail feeder bus system on a rectangular grid (1980) Transp. Sci, 14 A (1), pp. 33-40",,,,,,,,,0733947X,,,,"English","J. Transp. Eng.",Article,"Final","",Scopus,2-s2.0-0035395481
"Mhaiskar S.Y.","6602901962;","Basic approach to design with geosynthetics",1999,"Man-Made Textiles in India","42","10",,"406","409",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-0033511801&partnerID=40&md5=67c7dc609729219738c48a2da8016f2b","Sardar Patel College of Engineering, Mumbai-400 058, India","Mhaiskar, S.Y., Sardar Patel College of Engineering, Mumbai-400 058, India","Outlines the functions of geotextiles, available design methods, and important features of soil mechanics to be considered. Diagrams illustrate direct shear tests on reinforced soil.",,"design method; geotextile; shear test; soil reinforcement; design; geosynthetics; geotextile; shear property; soil reinforcement",,,,,,,,,,,,,,,,,"Mhaiskar, S.Y.; Sardar Patel College of Engineering, Mumbai-400 058, India",,,,,,,,03777537,,,,"English","Man-Made Text. India",Article,"Final","",Scopus,2-s2.0-0033511801
"Ayyar R.S., Burgul S.P.","6602685351;6506695876;","Strengthening of cracked reinforced concrete beams through crackfilling with polymeric materials",1999,"American Society of Mechanical Engineers, Materials Division (Publication) MD","88",,,"85","92",,,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-0033296854&partnerID=40&md5=7db44e57949f7cb6fe136d2be219a2b8","Sardar Patel College of Engineering, Mumbai, India","Ayyar, R.S., Sardar Patel College of Engineering, Mumbai, India; Burgul, S.P., Sardar Patel College of Engineering, Mumbai, India","In this paper, an attempt is made to study the nature of weakening of R.C.C. beams due to crack formations and the extent of strengthening of the beam achieved through filling of the cracks by polymeric materials having high bond and flexural strength in tension. The study of crack formation is carried out through a sequence of incremental loading till the stage of impending failure. The progressive reduction in flexural rigidity with the growth of cracks is compared with the improvement in the same after crack filling. A finite element method has been developed for this study.",,"Bending strength; Bond strength (materials); Crack initiation; Cracks; Failure analysis; Finite element method; Organic polymers; Reinforced concrete; Rigidity; Tensile stress; Crackfilling; Flexural rigidity; Reinforced concrete beams; Beams and girders",,,,,,,,,,,,,,,,"Control of cracking in concrete structure (1972) Journal ACI, 69 (12), pp. 717-753. , Dec; Nilson, A.H., Non-linear analysis of reinforced concrete by the finite element method (1968) Journal A.C.I., 65 (9), pp. 758-765. , Sept; IS 456-1978: Indian Standard Code of Practice for Plain and Reinforced Concrete (Third Revision); Manjrekar, S.K., Polymers in concrete: Mechanism, properties and applications (1992) Indian Concrete Journal, p. 127. , March","Ayyar, R.S.; Sardar Patel Coll of Engineering, Mumbai, India",,"ASME","ASME, Fairfield, NJ, United States","Polymeric Systems - 1999 (The ASME International Mechanical Engineering Congress and Exposition)","14 November 1999 through 19 November 1999","Nashville, TN, USA",56788,,0791816605,AMEMD,,"English","ASME Mater Div Publ MD",Article,"Final","",Scopus,2-s2.0-0033296854
"Ayyar R.S., Burgul S.P.","6602685351;6506695876;","STRENGTHENING OF CRACKED REINFORCED CONCRETE BEAMS THROUGH CRACKFILLING WITH POLYMERIC MATERIALS",1999,"ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE)","1999-Z",,,"85","92",,,"10.1115/IMECE1999-1208","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122734631&doi=10.1115%2fIMECE1999-1208&partnerID=40&md5=1337133c9009d0fe003340d3d9e5d24b","Sardar Patel College of Engineering, Mumbai, India","Ayyar, R.S., Sardar Patel College of Engineering, Mumbai, India; Burgul, S.P., Sardar Patel College of Engineering, Mumbai, India","In this paper, an attempt is made to study the nature of weakening of R.C.C. beams due to crack formations and the extent of strengthening of the beam achieved through filling of the cracks by polymeric materials having high bond and flexural strength in tension. The study of crack formation is carried out through a sequence of incremental loading till the stage of impending failure. The progressive reduction in flexural rigidity with the growth of cracks is compared with the improvement in the same after crack filling, A finite element method has been developed for this study. © 1999 American Society of Mechanical Engineers (ASME). All rights reserved.",,"Concrete beams and girders; Cracks; Reinforced concrete; % reductions; Crack fillings; Cracked reinforced concrete; Flexural rigidities; Reinforced concrete beams; Finite element method",,,,,,,,,,,,,,,,"Control of Cracking in Concrete Structure (1972) Journal ACI, 69 (12), pp. 717-753. , ACI Committee 224: Dec; Nilson, A.H., Non-linear Analysis of Reinforced Concrete by the Finite Element Method (1968) Journal A.C.I, 65 (9), pp. 758-765. , Sept; Indian Standard Code of Practice for Plain and Reinforced Concrete (Third Revision); Manjrekar, S.K., Polymers in Concrete; Mechanism, Properties and Applications (1992) Indian Concrete Journal, p. 127. , March",,,"American Society of Mechanical Engineers (ASME)","American Society of Mechanical Engineers (ASME)","ASME 1999 International Mechanical Engineering Congress and Exposition, IMECE 1999","14 November 1999 through 19 November 1999",,176006,,9780791816608,,,"English","ASME Int Mech Eng Congress Expos Proc",Conference Paper,"Final","",Scopus,2-s2.0-85122734631
"Mhaiskar S.Y., Mandal J.N.","6602901962;7006537242;","Investigations on soft clay subgrade strengthening using geocells",1996,"Construction and Building Materials","10","4",,"281","286",,55,"10.1016/0950-0618(95)00083-6","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0030172336&doi=10.1016%2f0950-0618%2895%2900083-6&partnerID=40&md5=72dd564a17d5b8392770639b78fd644c","Sardar Patel College of Engineering, Andheri (West), Bombay - 400 058, India; Indian Institute of Technology, Civil Engineering Department, Powai, Bombay 400 076, India","Mhaiskar, S.Y., Sardar Patel College of Engineering, Andheri (West), Bombay - 400 058, India; Mandal, J.N., Indian Institute of Technology, Civil Engineering Department, Powai, Bombay 400 076, India","In the last two decades geotextiles are being increasingly used as tensioned/tensile members. When used for reinforcement functions, a geotextile has to yield high resistance at low strains, especially for structures where allowable rut depths are low and the life span of the structure is long. This necessitates the use of high modulus geotextiles with adequate roughness. The present study aims at investigating the efficacy of the geocell alternative and the effect of the cell geometry and relative density of the backfill. Experimental and finite element procedures have been adopted to study the above parameters. Soft saturated marine clay was used as subgrade while sand was used as backfill material. Monotonic loading was applied in plate load tests. The experimental results were simulated in a three-dimensional finite element (FE) procedure using ANSYS, a general purpose package. Considerable improvement in the load and reduction of settlement was observed from the experimental results. The results of the FE analysis were used to study the improvement in stiffness and stress distribution. Copyright © 1996 Elsevier Science Ltd.","Geocells; Geotextiles; Soft clay subgrades","Clay; Computer simulation; Finite element method; Load testing; Settlement of structures; Stiffness; Strain; Stress analysis; Tensile strength; Geocells; Soft clay subgrades; Software package ANSYS; Geotextiles",,,,,,,,,,,,,,,,"Giroud, J.P., Noiray, L., Geotextile reinforced unpaved road design (1981) J. Geotech. Eng. Div. ASCE, 107, pp. 1233-1254. , GT9; Sellmeijer, J.B., Kenter, C.J., Van Den Berg, J., Calculation method for a fabric reinforced road (1982) Proc. Second International Conference on Geotextiles, pp. 393-398. , Las Vegas, A. A. Balkema, Rotterdam; Milligan, G.W.E., Jewell, R.A., Houlbsy, G.T., Burd, H.J., A new approach to design of unpaved roads - Part I (1989) Ground Eng., , April 25-29; Nagaraju, S.S., Mhaiskar, S.Y., Experiments on the use of geotextiles and geocomposites in paved roads Proc. Indian Geotechnical Conference, 1, pp. 89-92. , Indian Geotechnical Society; Kazerani, B., Jamnejad, G.H., Polymer grid cell reinforcement in construction of low cost highways: An experiment (1987) Proc. Geosynthetics '97 Conference, 1, pp. 58-68. , IFAI, USA; De Garidel, R., Morel, G., New strengthening techniques by textile elements for low-volume roads (1986) Proc. Third Int. Conf. on Geotextiles, pp. 1027-1032. , Vienna, Austria; Bush, D.I., Jenner, C.G., Basett, R.H., The design and construction of a geocell foundation mattress supporting embankments over soft ground (1990) Geotext. Geomembr., 9, pp. 83-98; De Beer, E.E., Experimental determination of the shape factors and bearing factors for sand (1970) Geotechn., 4, pp. 387-411; Meyerhof, G.G., Hanna, A.M., Ultimate bearing capacity of foundation on layered soils under inclined loads (1978) Can. Geotech. J., 15, pp. 565-572","Mhaiskar, S.Y.; Sardar Patel College of Engineering, Andheri (West), Bombay - 400 058, India",,,"Elsevier Ltd",,,,,09500618,,CBUME,,"English","Constr Build Mater",Article,"Final","",Scopus,2-s2.0-0030172336
"Natu P.V., Narayankhedkar K.G.","6506317819;6602530975;","Performance prediction and parametric analysis of two stage stirling cycle cryocooler",1994,"Cryogenics","34","SUPPL. 1",,"219","222",,,"10.1016/S0011-2275(05)80047-5","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0028725298&doi=10.1016%2fS0011-2275%2805%2980047-5&partnerID=40&md5=6e6fba15cbec7242a83477cf97ff56a6","Sardar Patel College of Engineering, Bombay, 400058, India; Department of Mechanical Engineering, Indian Institute of Technology, Powai, Bombay, 400076, India","Natu, P.V., Sardar Patel College of Engineering, Bombay, 400058, India, Department of Mechanical Engineering, Indian Institute of Technology, Powai, Bombay, 400076, India; Narayankhedkar, K.G., Sardar Patel College of Engineering, Bombay, 400058, India, Department of Mechanical Engineering, Indian Institute of Technology, Powai, Bombay, 400076, India","The lowest temperature that can be achieved inStirling cycle cryocooler is governed by various losses. This paper presents performance prediction of Two Stage Stirling Cryocooler(for 20K as the second stage temperature) by using second order analysis which calculates the ideal refrigerating effect at intermediate and final stage temperatures and the ideal power input. The losses are found out for both the stages to determine the actual refrigerating effects and power input. The results obtained are in good agreement with reported values. The performance of the cryocooler is governed by various operating and geometric parameters. Parametric analysis is carried. © 1994 Butterworth-Heinemann Ltd.",,"Computational methods; Cooling systems; Heat losses; Stirling cycle; Thermal effects; Refrigerating effect; Two stage Stirling cycle cryocooler; Cryogenic equipment",,,,,,,,,,,,,,,,"Prast, A Gas Refrigerating Machine for 20K (1963) Cryogenics, 3, pp. 156-160; Martini, (1978) Stirling Engine Design Manual NASA Report No. CR-135382; Atrey, (1990) Ph.D. Thesis, , IIT, Bristol, UK; Gao, Yuan, Yuan, (1988) Analysis of Calculation of Multistage Stirling Refrigerative Cycles ICEC-12, pp. 539-543; Malhotra, (1992) M. Tech. Desertation, , IIT, Bombay","Natu, P.V.; Sardar Patel College of Engineering, Bombay, 400058, India",,,,,,,,00112275,,CRYOA,,"English","Cryogenics",Article,"Final","",Scopus,2-s2.0-0028725298
"Kapoor M.P., Rao J.V.N.","7103339562;7402367603;","Optimum aseismic design of multistorey steel frames",1987,"Engineering Optimization","11","3-4",,"339","353",,5,"10.1080/03052158708941056","https://www.scopus.com/inward/record.uri?eid=2-s2.0-0007198299&doi=10.1080%2f03052158708941056&partnerID=40&md5=44262f7673ff2e96813d5978f08485bd","Department of Civil Engineering, Indian Institute of Technology, Kanpur—, 208016, India; Department of Applied Mechanics, Sardar Patel College of Engineering, Bombay—, 400056, India","Kapoor, M.P., Department of Civil Engineering, Indian Institute of Technology, Kanpur—, 208016, India; Rao, J.V.N., Department of Applied Mechanics, Sardar Patel College of Engineering, Bombay—, 400056, India","The problem of optimum aseismic design of multistorey frames has been cast as a nonlinear programming problem. The multistorey frame has been idealized as a shear beam subjected to ground acceleration represented by white noise. The objective function is the weight of the frame which is to be minimized. The moments of inertia of the columns of different storeys are the design variables. Constraints have been imposed on the upper bound on the probability of failure, defined as the probability that the stresses due to earthquake acceleration exceed the yield stress of the material of the column. An upper bound solution has been obtained. The probabilistic optimum design solution has been compared with the deterministic optimum design solution using the response spectra approach which ignores the randomness of the ground motion. This comparison establishes the compelling need to formulate the problem of optimum design of multistorey frames subjected to strong earthquake motion in a reliability based framework. © 1987, Taylor & Francis Group, LLC. All rights reserved.","design; earthquakes; failure probability; frames; optimization; Structures",,,,,,,,,,,,,,,,,"Byeroft, G.N., White Noise Representation of Earthquakes (1960) J. Eng. Mech. Div., ASCE, 86 ((EM-4)), pp. 1-16. , April; Rosenblueth, E., Bustamante, J.E., Distribution of Structural Response to Earthquake (1962) J. Eng. Mech. Div., ASCE, 88 (EM-3), pp. 75-106. , June; Hudson, D.E., Response Spectrum Techniques in Engineering Seismology (1956) World Conference on Earthquake Engineering, , Berkeley, California, June; Amin, M., Ang, A.H.S., A Nonstationary Stochastic Model for Strong-Motion Earthquakes (1966) Civil Engineering Studies, Structural Research Series No. 306, , University of Illinois, Urbana, 111., April; Housner, G.W., Jennings, P.C., Generation of Artificial Earthquakes (1964) J. Eng, Mech. Div., ASCE, 90 (EM-l), pp. 113-150; Jennings, P.C., Response of Simple Yielding Structures to Earthquake Excitation (1963) Ph.D. Thesis, , California Institute of Technology, Pasadena, California, June; Fiacco, A.V., McCormick, G.P., The Sequential Unconstrained Minimization Technique for Nonlinear Programming, A Primal Dual Method (1964) Man. Sci., 10, pp. 360-366; Fletcher, R., Powell, M.J.D., A Rapidly Convergent Descent Method for Minimization (1963) Computer J, 6, pp. 163-168; Fletcher, R., A New Approach to Variable Metric Algorithms (1970) Computer J, 13 (3), pp. 317-322; Fletcher, R., Fortran Subroutines for Minimization by Quasi-Newton Methods (1972) Report No. AERE-R 7125, , Theoretical Physics Division, Atomic Energy Establishment, Harwell, Berkshire; Bolotin, V.V., (1969) Statistical Methods in Structural Mechanics, , Holden-Day Publishing Co., San Francisco, Calif; Ben, K., Nakumara, Y., Optimum Earthquake Design of Shear Buildings (1972) J. Eng. Mech. Div., ASCE, 98 (EM-4), pp. 891-910; Rao, J.V.N., Kapoor, M.P., Optimum Aseismic Design of Multistory Frames (1974) Paper presented at the Fifth Symposium on Earthquake Engineering, , Roorkee, Nov; Rao, J.V.N., Optimum Aseismic Design of Multistory Frames (1976) Ph.D. Thesis, , Indian Institute of Technology, Kanpur, India, June",,,,,,,,,0305215X,,,,"English","Eng Optim",Article,"Final","",Scopus,2-s2.0-0007198299