Biography

Dr. D.B. Jani received Ph.D. in Thermal Science (Mechanical Engineering) from Indian Institute of Technology (IIT) Roorkee. Ph.D. Supervisor at Gujarat Technological University (GTU). Published more than 150 Research Articles in International Conferences and Journals. Presently, he is an Associate Professor at Gujarat Technological University, GTU, Ahmedabad (Education Department, State of Gujarat

Area of Interest:

Engineering

100%

Mechanical Engineering

62%

Thermal Engineering

90%

Renewable Energy

75%

Applied Energy

55%

Research Publications in Numbers

Books
3

Chapters
3

Articles
104

Abstracts
46

Selected Publications

Dadi, M.J. and D.B. Jani, 2022. Experimental investigation of solid desiccant wheel in hot and humid weather of India. Int. J. Ambient Energy, 43: 5983-5991.
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Bhabhor, K.K. and D.B. Jani, 2022. Progressive development in solid desiccant cooling: A review. Int. J. Ambient Energy, 43: 992-1015.
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Doshi, S., D.B. Jani, A.V. Gohil and C.M. Patel, 2021. Progress in the arc plasma temperature measurement and its finite element analysis in pulsed MIG welding process. Mater. Today: Proc., 38: 2745-2750.
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Bhabhor, K.K. and D.B. Jani, 2021. Performance analysis of desiccant dehumidifier with different channel geometry using CFD. J. Build. Eng., Vol. 44. 10.1016/j.jobe.2021.103021.
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Jani, D.B., K. Bhabhor, M. Dadi, S. Doshi, P.V. Jotaniya, H. Ravat and K. Bhatt, 2020. A review on use of TRNSYS as simulation tool in performance prediction of desiccant cooling cycle. J. Therm. Anal. Calorim., 140: 2011-2031.
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Jani, D.B., N. Shah and N. Panchal, 2018. A review on application of desiccant dehumidification- vapor compression hybrid cooling system in hot-humid climates. Int. J. Innov. Emerg. Res. Eng., 5: 1-5.
Jani, D.B., M. Mishra and P.K. Sahoo, 2018. Performance analysis of a solid desiccant assisted hybrid space cooling system using TRNSYS. J. Build. Eng., 19: 26-35.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2018. Investigations on effect of operational conditions on performance of solid desiccant based hybrid cooling system in hot and humid climate. Thermal Sci. Eng. Progr., 7: 76-86.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2018. A critical review on application of solar energy as renewable regeneration heat source in solid desiccant-vapor compression hybrid cooling system. J. Build. Eng., 18: 107-124.
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Jani, D.B., K. Bhabhor and M. Dadi, 2018. Warehouse cooling technology. Cooling India, 14: 56-58.
Jani, D.B., K. Bhabhor and M. Dadi, 2018. Performance of cooling towers in building air conditioning. Cooling India, 13: 28-31.
Jani, D.B., K. Bhabhor and M. Dadi, 2018. Desiccant cooling-cleaner air conditioning tech of tomorrow. Cooling India, 13: 38-41.
Jani, D.B., K. Bhabhor and M. Dadi, 2018. Desiccant based rotary dehumidifiers. Cooling India, 13: 22-28.
Jani, D.B., D. Lalkiya and S. Patel, 2018. A critical review on evaporative desiccant cooling. Int. J. Innov. Emerg. Res. Eng., 5: 24-29.
Jani, D.B., 2018. Applications of Solar Energy. Springer, Singapore.
Vedant, V.D. and D.B. Jani, 2017. CFD simulation of air flow in cfbc boiler under different geometry of nozzle grid. Int. J. Res. Appl. Sci. Eng. Technol., 5: 1-5.
Lalpurwala, G. and D.B. Jani, 2017. Critical review on heat transfer enhancement in a car radiator by use of nano fluid. Int. J. Res. Mechan. Eng., 4: 25-27.
Jani, D.B., M. Mishra and P.K. Sahoo, 2017. Application of artificial neural network for predicting performance of solid desiccant cooling systems-A review. Renewable and Sustainable Energy Rev., 80: 352-366.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2017. A Critical Review on Solid Desiccant-Based Hybrid Cooling Systems. Int. J. Air-conditioning Refrig., 25: 1-10.
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Vedant, V., D.B. Jani and P.V. Patel, 2016. Review on use of cfd as a tool for analysis of air supply in cfbc boiler used in thermal power plants. Mech. Confab, 5: 1-8.
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Vedant, V. and D.B. Jani, 2016. An overview on application of solar thermal power generation. Int. J. Eng. Res. Allied Sci., 1: 1-5.
Jani, D.B., M. Mishra, and P.K. Sahoo, 2016. Performance analysis of hybrid solid desiccant–vapor compression air conditioning system in hot and humid weather of india. Build. Serv. Eng. Res. Technol., 37: 523-538.
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Jani, D.B., M. Mishra and P.K.Sahoo, 2016. Performance prediction of rotary solid desiccant dehumidifier in hybrid air-conditioning system using artificial neural network. Appl. Therm. Eng., 98: 1091-1103.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2016. Solid desiccant air conditioning-a state of the art review. Renewable Sustainable Energy Rev., 60: 1451-1469.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2016. Performance prediction of solid desiccant – Vapor compression hybrid air-conditioning system using artificial neural network, Energy, 103: 618-629.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2016. Performance analysis of hybrid solid desiccant-vapor compression air conditioning system in hot and humid weather of India. Build. Serv. Eng. Res. Technol., 37: 523-538.
CrossRef | Direct Link |
Jani, D.B., M. Mishra and P.K. Sahoo, 2016. Experimental investigation on solid desiccant–vapor compression hybrid air-conditioning system in hot and humid weather. Appl. Therm. Eng., 104: 556-564.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2016. Exergy analysis of solid desiccant-vapour compression hybrid air conditioning system. Int. J. Exergy, 20: 517-535.
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Jani, D.B., M. Mishra and P.K. Sahoo, 2015. Performance studies of hybrid solid desiccant–vapor compression air-conditioning system for hot and humid climates. Energy Build., 102: 284-292.
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