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Sudip Ghosh

Academic Qualifications


  • B.E (Mech. Engg.) 
  • M.E (Heat Power) 
  • Ph.D (Engineering) 

Research Statement


  • Clean Coal Technology
  • Renewable Energy (Biomass conversion, Solar Thermal, Fuel Cell)
  • Greenhouse Technology

Latest Publications


  • 1 D Roy, S Samanta, S Ghosh, Performance assessment of a biomass fuelled advanced hybrid power generation system, 162, 639-661, Renewable Energy, 2020
  • 2 S Chattopadhyay, S Ghosh, Thermo-economic assessment of a hybrid tri-generation system making simultaneous use of biomass and solar energy, 42 (11), 556, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020
  • 3 D Roy, S Samanta, S Ghosh, Performance optimization through response surface methodology of an integrated biomass gasification based combined heat and power plant employing solid oxide fuel cell and externally fired gas turbine, 222, 113182, Energy Conversion and Management, 2020
  • 4 D Roy, S Samanta, S Ghosh, Performance assessment of a biomass-fuelled distributed hybrid energy system integrating molten carbonate fuel cell, externally fired gas turbine and supercritical carbon dioxide cycle, 221, 112740, Energy Conversion and Management, 2020
  • 5 S Chattopadhyay, S Ghosh, Comparative energetic and exergetic assessment of different cooling systems in vegetable cold storage applications., 101 (4), 643-650, Journal of The Institution of Engineers (India): Series C, 2020
  • 6 S Chattopadhyay, S Ghosh, Techno-economic assessment of a biomass-based combined power and cooling plant for rural application, 22 (4), 907-922, Clean Technologies and Environmental Policy, 2020
  • 7 D Roy, S Samanta and S Ghosh, Techno-economic and environmental analyses of a biomass based system employing solid oxide fuel cell, externally fired gas turbine and organic Rankine cycle, 225, 36-57, Journal of Cleaner Production, 2019
  • 8 N. Huang, P. Zhao, S. Ghosh, A. Fedyukhin, Co-hydrothermal carbonization of polyvinyl chloride and moist biomass to remove chlorine and inorganics for clean fuel production, 240, 882-892, Applied Energy, 2019
  • 9 D. Roy, S. Samanta. and S Ghosh, Energetic, exergetic and economic (3E) investigation of biomass gasification-based power generation system employing molten carbonate fuel cell (MCFC), indirectly heated air turbine and an organic Rankine cycle., 41(3), 112, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2019
  • 10 NS Saetova, DA Krainova, AV Kuzmin, AA Raskovalov, ST Zharkinova, NM Porotnikova, AS Farlenkov, NI Moskalenko, MV Ananyev, MV Dyadenko, S Ghosh, Alumina–silica glass–ceramic sealants for tubular solid oxide fuel cells, 54, 4532-4545, Journal of Materials Science, 2019
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    Research Areas


    • Energy
    • Greenhouse Technology
    • Renewable Energy
    • Clean Coal Technology

    Publications


  • 1 D Roy, S Samanta, S Ghosh, Performance assessment of a biomass fuelled advanced hybrid power generation system, 162, 639-661, Renewable Energy, 2020
  • 2 S Chattopadhyay, S Ghosh, Thermo-economic assessment of a hybrid tri-generation system making simultaneous use of biomass and solar energy, 42 (11), 556, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020
  • 3 D Roy, S Samanta, S Ghosh, Performance optimization through response surface methodology of an integrated biomass gasification based combined heat and power plant employing solid oxide fuel cell and externally fired gas turbine, 222, 113182, Energy Conversion and Management, 2020
  • 4 D Roy, S Samanta, S Ghosh, Performance assessment of a biomass-fuelled distributed hybrid energy system integrating molten carbonate fuel cell, externally fired gas turbine and supercritical carbon dioxide cycle, 221, 112740, Energy Conversion and Management, 2020
  • 5 S Chattopadhyay, S Ghosh, Comparative energetic and exergetic assessment of different cooling systems in vegetable cold storage applications., 101 (4), 643-650, Journal of The Institution of Engineers (India): Series C, 2020
  • 6 S Chattopadhyay, S Ghosh, Techno-economic assessment of a biomass-based combined power and cooling plant for rural application, 22 (4), 907-922, Clean Technologies and Environmental Policy, 2020
  • 7 D Roy, S Samanta and S Ghosh, Techno-economic and environmental analyses of a biomass based system employing solid oxide fuel cell, externally fired gas turbine and organic Rankine cycle, 225, 36-57, Journal of Cleaner Production, 2019
  • 8 N. Huang, P. Zhao, S. Ghosh, A. Fedyukhin, Co-hydrothermal carbonization of polyvinyl chloride and moist biomass to remove chlorine and inorganics for clean fuel production, 240, 882-892, Applied Energy, 2019
  • 9 D. Roy, S. Samanta. and S Ghosh, Energetic, exergetic and economic (3E) investigation of biomass gasification-based power generation system employing molten carbonate fuel cell (MCFC), indirectly heated air turbine and an organic Rankine cycle., 41(3), 112, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2019
  • 10 NS Saetova, DA Krainova, AV Kuzmin, AA Raskovalov, ST Zharkinova, NM Porotnikova, AS Farlenkov, NI Moskalenko, MV Ananyev, MV Dyadenko, S Ghosh, Alumina–silica glass–ceramic sealants for tubular solid oxide fuel cells, 54, 4532-4545, Journal of Materials Science, 2019
  • 11 D. Roy, S. Samanta, and S. Ghosh, Thermo-economic assessment of biomass gasification-based power generation system consists of solid oxide fuel cell, supercritical carbon dioxide cycle and indirectly heated air turbine., 21 (4), 827-845, Clean Technologies and Environmental Policy, 2019
  • 12 D. Misra, S. Ghosh., Thermal modelling and performance assessment of a circular greenhouse with solar chimney assisted ventilation and fog Cooling, 20 (4), 108-118, Agricultural Engineering International: CIGR Journal, 2018
  • 13 D. Misra, S. Ghosh., Evaporative cooling technologies for greenhouses: a comprehensive review, 20 (1), 1-15, Agricultural Engineering International: CIGR Journal, 2018
  • 14 14. S Chattopadhyay, S Ghosh, Combined energetic and exergetic assessment of a biomass based integrated power and refrigeration plant, 40 (3), 134, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2018
  • 15 S Chattopadhyay, D Roy, S Ghosh, Comparative energetic and exergetic studies of vapour compression and vapour absorption refrigeration cycles, 8 (3-4), 222 - 238, International Journal of Renewable Energy Technology, 2017
  • 16 S Kumar, D Roy, S Ghosh, Thermodynamic Assessment of TEG-ORC Combined Cycle Powered by Solar Energy, 8 (3-4), 346 - 359, International Journal of Renewable Energy Technology, 2017
  • 17 S. Samanta, S. Ghosh, Techno-economic assessment of a repowering scheme for a coal fired power plant through upstream integration of SOFC and downstream integration of MCFC, 64, 234-245, International Journal of Greenhouse Gas Control, 2017
  • 18 N Pathak, D Roy, S Ghosh, Biomass gasification: Issues related to gas cleaning and gas treatment, 15 (2), 68-74, Indian Journal of Scientific Research, 2017
  • 19 D. Misra, S. Ghosh, Performance Study of a Floricultural Greenhouse Surrounded by Shallow Water Ponds, 6(2), 137-144, International Journal of Renewable Energy Development, 2017
  • 20 D. Misra, S. Ghosh, Microclimatic Modeling and Analysis of a Fog-Cooled Naturally Ventilated Greenhouse, 2(2), 997-1002, International Journal of Environment, Agriculture and Biotechnology, 2017
  • 21 Roy D, Ghosh S, Energy and exergy analyses of an integrated biomass gasification combined cycle employing solid oxide fuel cell and organic Rankine cycle, 19 (6), 1693-1709., Clean Technology & Environmental Policy, 2017
  • 22 Mondal P, Ghosh S, Exergo-economic Analysis of a 1 MW BIGCC Plant with Indirectly Heated GT cycle and Supercritical ORC, 19 (5), 1475-1486, Clean Technology & Environmental Policy, 2017
  • 23 Mondal P, Ghosh S, Techno-economic performance evaluation of a direct biomass-fired combined cycle plant employing air turbine, 19 (2), 427-436, Clean Technology & Environmental Policy, 2017
  • 24 D. Misra, S. Ghosh, Growth and export status of Indian floriculture: A review, 37 (1), 77-80, Agricultural Reviews, 2016
  • 25 A. S. Mirja, D. Misra, S Ghosh, Study the performance of a fogging system for a naturally ventilated fog-cooled greenhouse, Vol. 3(1), 19-23, Journal of Energy Research and Environmental Technology, 2016
  • 26 S. Mukhopadhyay, S. Ghosh, Solar tower combined cycle plant with thermal storage: energy and exergy analyses, 4, 29-45, Advances in Energy Research, 2016
  • 27 Mondal P., Ghosh S., Externally fired biomass gasification-based combined cycle plant: exergo-economic analysis, 20(4), 496-516, International Journal of Exergy, 2016
  • 28 S. Samanta & S. Ghosh, A thermo-economic analysis of repowering of a 250 MW coal fired power plant through integration of Molten Carbonate Fuel Cell with carbon capture, 51, 48-55, International Journal of Greenhouse Gas Control, 2016
  • 29 S. Samanta & S. Ghosh, A techno-economic analysis of partial repowering of a 210 MW coal fired power plant, 5, 167-179, Advances in Energy Research, 2015
  • 30 P. Mondal, K. Mondal & S. Ghosh, Bio- gasification Based Distributed Power Generation System Employing Indirectly Heated GT and Supercritical ORC: Energetic and Exergetic Performance Assessment, 5, 773-781, International Journal of Renewable Energy Research , ISSN: 1309- 0127, 2015
  • 31 S. Mukhopadhyay & S. Ghosh, Energetic and Exergetic Performance Analyses of Solar Dish Based CO2 Combined Cycle, 17, 97-105, International Journal of Thermodynamics, 2014
  • 32 S. Mukhopadhyay & S. Ghosh, MW Level Solar Powered Combined Cycle Plant with Thermal Storage: Thermodynamic Performance Prediction, 4, 832-840, International Journal of Renewable Energy Research, 2014
  • 33 R Maity, S Ghosh, S De, Cracking of tar by steam reforming and hydrogenation – An equilibrium model development, 3, 103-111, Biomass Conversion & Biorefinery, 2013
  • 34 N S Burman, S Ghosh & S De, Gasification of biomass in a fixed bed downdraft gasifier – a realistic model including tar, 505-11, Bioresource Technology Mar, 2012, 2012
  • 35 F.P. Nagel, S. Ghosh, C. Pitta, T.J. Schildhauer, S. Biollaz, Biomass integrated gasification fuel cell systems - Concept development and experimental results, 35, 354-362, Biomass and Bioenergy, 2011
  • 36 A. Ganguly & S. Ghosh, Performance Analysis of a Floriculture Greenhouse Powered by Integrated Solar PV-Fuel Cell System, 133(4), ASME Journal of Solar Energy Engineering, 2011
  • 1 Roy D, Samanta S, Ghosh S., Energetic and Exergetic Analyses of a Solid Oxide Fuel Cell (SOFC) Module Coupled with an Organic Rankine Cycle. In Advances in Fluid and Thermal Engineering, Springer, Singapore13-24, , 2020
  • 2 Ghosh S., Gas Cleaning and Tar Conversion in Biomass Gasification. In Coal and Biomass Gasification, Springer, Singapore151-172, , 2018
  • 3 Ghosh S., Biomass-Based Distributed Energy Systems: Opportunities and Challenges. In Sustainable Energy and Transportation 2018 (pp. 235-252)., Springer, Singapore, 2018
  • Patents


    # Patents Year

    Research Groups


    Dibyendu Roy
    Ph. D
    +91 90382 80732
    dibyendu.rs2015@mech.iiests.ac.in / dibyenduroy8@gmail.com

    Suman Chattopadhyay
    Ph. D
    +91 97322 35626
    sumanchattopadhyay.rs2016@mech.iiests.ac.in / suman.mech09@gmail.com

    Shounak Chowdhury
    Ph. D.
    8001195185
    shounak96.chowdhury@gmail.com

    Research:
    Renewable and Alternate Energy

    Created: 23 November 2019