Bio


I am a Postdoctoral scholar at the Energy Science and Engineering Department at Stanford University. My research in energy systems involves a broad range of activities from strategy making, consulting, project management, and modeling. Besides, I focus on technical interventions and recommendations related to industrial energy use, resource efficiency, net-zero: decarbonization pathways, and the inception of advanced/new energy systems, NBS, into the existing infrastructure. Furthermore, understanding the enormous need to address climate change, my attempt is to propel a mutual fix between industrial decision-making and academic research by upscaling sustainable awareness.

Honors & Awards


  • Best Paper award, IEMRE 2022, IEEE conference Kolkata, India (2022)
  • Award for performance (quarterly), EY, India (2021)
  • Best Paper award, International Conference AIR 2021, Dehradun. India (2021)
  • Conference Travel Awards, University of Lorraine, France (2017-2020)
  • Ph.D. Fellowship, Ministry of Higher Education Research and Innovation (MESRI), Government of France (2017-2020)

Professional Education


  • Ph.D, Laboratoire Réactions et Génie des Procédés- CNRS, Universite de Lorraine, Nancy, France, Process and Energy Engineering (2020)
  • M.Tech, University of Petroleum & Energy Studies, Dehradun. India, Energy Systems (2016)
  • B.E, Nagpur University, India, Mechanical Engineering (2012)

Stanford Advisors


Research Interests


  • Environmental Education
  • Leadership and Organization
  • Research Methods
  • Science Education
  • Technology and Education

Current Research and Scholarly Interests


OPGEE or Oil Production Greenhouse Gas Emissions Estimators is a robust modeling and simulation tool that enables carbon intensity accounting in terms of gCO2eq/MJ.

Emissions value chain analysis for natural gas midstream operation

Projects


  • OPGEE Model development and advances for Global oil and gas carbon intensity estimations, Stanford University (2/10/2022 - Present)

    Location

    Stanford Doerr School of Sustainability

  • Greenhouse gas emissions from liquified natural gas systems: Process-model based life cycle assessment of liquefaction, shipping, and regasification (LSR), Stanford University (2/10/2022 - Present)

    Location

    Stanford Doerr School of Sustainability

Lab Affiliations


All Publications


  • Survey-based assessment for strategic deployment of renewable energy resources for selected places in India: enabling advances in framework responsibility ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS Mukherjee, M., Sharma, A. 2024; 46 (1): 1873-1889
  • Reutilization of Industrial Bio-wastes as a Potential Feedstock for the Production of Green Hydrogen and Subsequent Usage Renewable Resources and Energy Management Mukherjee, M., Sharma, A. K. CRC Press. 2023; 1: 282-289

    View details for DOI 10.1201/9781003361312-32

  • Sustainable Approach in Utilizing Bioenergy Commonly for Industrial Zones by Limiting Overall Emission Footprint Renewable Energy Innovations: Biofuels, Solar, and Other Technologies S, P. K., Mukherjee, M., Puri, R., Singhal, S. Wiley. 2023; 1
  • An Indian Viewpoint on Promoting Hydrogen-Powered Vehicles: Focussing on the Scope of Fuel Cells Green Technologies for Sustainable Production Mukherjee, M., Sharma, A. K. Wiley. 2023; 1
  • Assessment of Sustainable Biogas Production from Co-Digestion of Jatropha De-Oiled Cake and Cattle Dung Using Floating Drum Type Digester under Psychrophilic and Mesophilic Conditions CLEAN TECHNOLOGIES Sharma, A., Sahoo, P., Mukherjee, M., Patel, A. 2022; 4 (2): 529-541
  • Enabling Resource Efficiency Through Reduce, Reuse, and Recycling—A Perspective on “Industrial Networking” Recent Advances in Recycling Engineering Mukherjee, M., Singhal, S., S, P. K., Sharma, A. K. Springer. 2022
  • Possible linkage between eco-industrial parks and nature-based solutions from an Indian perspective Current Science Mukherjee, M. 2022; 123 (12): 1426-1427
  • Estimation of through-plane and in-plane gas permeability across gas diffusion layers (GDLs): Comparison with equivalent permeability in bipolar plates and relation to fuel cell performance INTERNATIONAL JOURNAL OF HYDROGEN ENERGY Mukherjee, M., Bonnet, C., Lapicque, F. 2020; 45 (24): 13428-13440
  • Long term study of directly hybridized proton exchange membrane fuel cell and supercapacitors for transport applications with lower hydrogen losses JOURNAL OF ENERGY STORAGE Arora, D., Bonnet, C., Mukherjee, M., Arunthanayothin, S., Shirsath, A. V., Lundgren, M., Burkardt, M., Kmiotek, S., Rael, S., Lapicque, F., Guichard, S. 2020; 28
  • Direct hybridization of PEMFC and supercapacitors: Effect of excess hydrogen on a single cell fuel cell durability and its feasibility on fuel cell stack ELECTROCHIMICA ACTA Arora, D., Bonnet, C., Mukherjee, M., Rael, S., Lapicque, F. 2019; 310: 213-220
  • Energy Efficiency Measures Across Key Sectors in India-An Approach Towards Climate Change Nahar, A., Hasib, A., George, G., Mukherjee, M., Siddiqui, N. A., Tauseef, S. M., Bansal, K. SPRINGER-VERLAG SINGAPORE PTE LTD. 2018: 29-34
  • Effectuation of Renewable Energy as an Effective Mitigation Approach Towards Climate Change Saraswat, J., Agarwal, V., Mukherjee, M., Siddiqui, N. A., Tauseef, S. M., Bansal, K. SPRINGER-VERLAG SINGAPORE PTE LTD. 2018: 21-28
  • Quantifying GHG Estimations for Agriculture, Waste, and Land Use, land Use Change and Forestry (LULUCF) for a Village Model in India Nature Environment and Pollution Technology Simon, P., George, G., Mukherjee, M. 2018; 17 (1): 339-347
  • Ambit of Carbon Capture Technology in India International Journal of Physics, Chemistry and Astronomy Mukherjee, M. 2015; 59: 46-52

    View details for DOI 10.56431/p-77b06w

  • India's initiatives on environmental safeguarding - sustainability International Letters of Natural Sciences Mukherjee, M. 2015; 47: 32-41

    View details for DOI 10.56431/p-5o303p