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SHAMMY KUMAR SAH

Post Doctoral Fellow at Heat Pump Laboratory, Mechanical Engineering Department · IIT Bombay

https://researchid.co/shammy1912
@iitb.ac.in
5Scopus Publications
36Google Scholar Citations
3Google Scholar h-index
2Google Scholar i10-index

Research Interests

Refrigeration and Air Conditioning, Heat Pump, Radiant Panel Heat and Mass Exchanger, Renewable Energy, Building Energy Efficiency, Heat Transfer through Building Envelopes, Sustainability, Ground Source Heat Pump Systems, Optimization and Heat Transfer

Biography

Dr. Shammy Kumar Sah is a Post-Doctoral Research Fellow at IIT Bombay specializing in thermal engineering, HVAC systems, heat pumps, and sustainable energy technologies. I completed my PhD at IIT Roorkee, where I worked on indoor climate control using Ground Source Heat Pump systems under a DST–EPSRC funded project. My research includes energy optimization, radiant cooling systems, and experimental thermal analysis. I have published several international journal and conference papers in leading engineering platforms.

Education

Post-Doctoral (Thermal Engineering from Indian Institute of Technology Bombay, India) - Ongoing PhD (Thermal Engineering from Indian Institute of Technology Roorkee, India) - 2024 M.Tech (Thermal Engineering from Indian Institute of Technology BHU Varanasi, India) 2014 B.Tech (Mechanical Engineering from M.M.M Engineering College, Gorakhpur, India) 2011

Recent Scopus Publications

  1. Experimental comparison of First-law analysis of peak hour operation of GSHP system under optimized conditions
    Applied Thermal Engineering, 2025
  2. Experimental Investigation of Energy-Saving Potential of Ground Source Heat Pump During Peak Hour Operations
    Journal of Thermal Science and Engineering Applications, 2024
  3. Time Lag Characteristics of Building Envelop Materials on Peak Energy Demand in Typical Hot and Humid Climate of India
    Journal of Engineering for Sustainable Buildings and Cities, 2023
  4. Experimental and energy saving potential analysis of GSHP and ASAC systems using normalized sensitivity technique in cooling mode operation
    Advances in Building Energy Research, 2023
  5. Optimization of energy consumption for indoor climate control using Taguchi technique and utility concept
    Science and Technology for the Built Environment, 2021

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