Advancing Fuel Cell Technologies Using COMSOL Multiphysics®
Hydrogen, the most abundant element, is key to global decarbonization. Fuel cells are electrochemical devices that efficiently convert hydrogen and oxygen into electricity, producing only water as a byproduct. In this live webinar, Dr. Harshal Agarwal a scientist at CSIR-Central Electrochemical Research Institute (CSIR-CECRI), will present his work on translating advanced proton exchange membrane fuel cell (PEMFC) studies into commercially viable hydrogen energy solutions.
The performance of PEMFCs is strongly influenced by flow field architecture, reactant transport, thermal management, and electrochemical kinetics. In this webinar, Dr. Agarwal will present a framework based on the COMSOL Multiphysics® software for the design and optimization of PEM fuel cells, encompassing both high-temperature and open-cathode configurations. Three-dimensional multiphysics models are employed to investigate pressure distribution, oxygen transport, convection-driven mass transfer, temperature profiles, and electrochemical reactions across different flow field geometries. These simulation insights are validated through extensive experimental studies, including polarization, pressure-drop, thermal, and electrochemical impedance analyses. The webinar will highlight how COMSOL-guided design enables the identification of optimum channel configurations, improves fuel cell performance, and accelerates the development of efficient and scalable hydrogen energy systems.
Register for Advancing Fuel Cell Technologies Using COMSOL Multiphysics®
To register for the event, please create a new account or log into your existing account. You will need a COMSOL Access account to attend Advancing Fuel Cell Technologies Using COMSOL Multiphysics®.
For registration questions or more information, contact info-in@comsol.com.
Webinar Details
Location:
Online
July 16, 2026 | 3:00 p.m. IST (UTC+05:30)
Guest Speakers
Dr. Harshal Agarwal is a Scientist E at CSIR-Central Electrochemical Research Institute (CSIR-CERI) specializing in hydrogen and fuel cell technologies. He holds a PhD from the Academy of Scientific and Innovative Research. Dr. Agarwal is a recipient of a Prime Minister’s Doctoral Fellowship (2016), the IGSTC Post Doctoral Industrial Fellowship (2023), and the INAE Young Engineer Award. He was inducted as an INAE Young Associate in 2025.
Dr. Agarwal has contributed to the development of India’s first fuel-cell-powered car under the CSIR-New Millennium Indian Technology Leadership Initiative (NMITLI) flagship program. He has also contributed to the advancement of open-cathode fuel-cell technology and high-temperature proton exchange membrane fuel cell–combined heat and power (PEMFC–CHP) systems. His expertise spans simulation-driven design, computational modeling, and real-world validation of scalable PEMFC systems.
Dr. Agarwal spearheads CSIR’s hydrogen Mission Mode project in the utilization category, advancing India’s clean energy transition and sustainable hydrogen economy. His work focuses on scaling technologies from TRL 6 to TRL 9 and MRL 3 to MRL 6, strengthening public–private partnerships for commercialization, and establishing academic Centres of Excellence for hydrogen fuel cells.
