Colorado School of Mines, United States
👨🎓Profiles
🎓 Early Academic Pursuits
Aadarsh Parashar began his academic journey at the Indian Institute of Technology Bombay, where he pursued a Bachelor and Master of Technology in Energy Science and Engineering. With a commendable GPA of 8.69/10.00, he built a strong foundation in energy systems, computational modeling, and experimental research. His academic excellence led him to further his studies at the Colorado School of Mines, where he is currently a Ph.D. candidate in Mechanical Engineering with a perfect GPA of 4.0/4.0. Expected to graduate in August 2025, he has focused his research on reversible fuel cell technology and hydrogen systems, striving to innovate clean energy solutions.
🏭 Professional Endeavors
Aadarsh has a rich professional background, having worked with esteemed institutions and companies. During his time as a Research Associate at IIT Bombay, he transitioned complex algorithms from C++ to Python for electrode optimization, improving computational efficiency. He also conducted numerical studies on microstructure characterization for better material design. As a Summer Intern at Cummins India Limited, he contributed to sustainable mobility by performing life cycle analysis of Li-ion batteries and integrating MATLAB Simulink models to optimize fuel cell-battery hybrid vehicles. Currently, as a Graduate Researcher at Colorado School of Mines, he has led groundbreaking projects in reversible solid oxide fuel cells (rSOFCs), developing high-temperature, high-pressure systems and collaborating on DOE-funded projects to validate system performance.
🔬 Contributions and Research Focus
Aadarsh’s research is centered around hydrogen production and reversible fuel cell technology. He successfully designed and constructed a $125,000 test facility for kW-scale reversible fuel cell experiments, pushing operational limits up to 800°C and 6.5 bar. His work has led to a breakthrough in reducing hydrogen production costs below $2/kg, a significant milestone in making hydrogen energy more commercially viable. Collaborating with industry leaders like Nexceris and Northwestern University, he has played a key role in scaling up hydrogen-based energy solutions.
🌍 Impact and Influence
His research holds great promise for the future of clean energy and grid-scale storage solutions. By improving the efficiency and economic feasibility of reversible solid oxide cell (rSOC) systems, Aadarsh’s contributions could accelerate the global transition toward sustainable hydrogen-based energy systems. His innovations in techno-economic modeling and high-fidelity validation of energy systems are critical in making renewable energy more scalable and cost-effective.
📚 Academic Citations and Publications
Aadarsh’s impactful research has been documented in renowned journals and conferences, including:
- "Performance analysis of a 1 MW reversible solid oxide system for flexible hydrogen and electricity production" (International Journal of Hydrogen Energy, 2025).
- "Scenarios for Hydrogen Production from a Full-Scale Reversible Solid Oxide System with Electrolyte-Supported Stacks" (Electrochemical Society Meeting Abstracts, 2023).
- "Assessing reversible solid oxide cell systems for grid-energy storage based on H2/H2O and CH4/H2O-CO2 chemistries" (European Fuel Cell Forum, 2022).
These contributions serve as key references in the field of hydrogen energy, solidifying his standing as a thought leader in reversible fuel cell systems.
💻 Technical Skills
Aadarsh is proficient in a diverse range of software and programming tools essential for energy system modeling and simulation:
- Programming: Python, MATLAB, C++, Bash
- Energy System Simulation: COMSOL, gPROMS Process, LabVIEW
- Data Analysis & Modeling: High-fidelity system validation, techno-economic analysis
- Experimental Techniques: High-temperature and high-pressure system design, safety protocol development
His multidisciplinary expertise allows him to bridge the gap between computational modeling and real-world experimental validation, enhancing the reliability of clean energy technologies.
👨🏫 Teaching and Mentorship
Beyond research, Aadarsh has contributed to academic mentorship and knowledge dissemination. He has actively guided junior researchers and students, helping them develop experimental techniques and computational modeling skills. His commitment to education and research collaboration strengthens the pipeline of future engineers and scientists in the hydrogen and clean energy domain.
🚀 Legacy and Future Contributions
Aadarsh’s work is paving the way for next-generation hydrogen technologies that are both economically viable and scalable. His research has already contributed to a significant cost reduction in hydrogen production, and his future work is expected to further optimize fuel cell efficiency, durability, and grid-scale deployment. By integrating high-fidelity modeling, experimental validation, and industry collaboration, he aims to revolutionize renewable energy storage and hydrogen economy applications.
📖Notable Publications
"Performance analysis of a 1 MW reversible solid oxide system for flexible hydrogen and electricity production"
Authors: A Parashar, A Vaeth, OB Rizvandi, SL Swartz, RJ Braun
Journal: International Journal of Hydrogen Energy
Year: 2025
"Scenarios for Hydrogen Production from a Full-Scale Reversible Solid Oxide System with Electrolyte-Supported Stacks"
Authors: A Parashar, RJ Braun
Journal: Electrochemical Society Meeting Abstracts
Year: 2023
"Assessing reversible solid oxide cell systems for grid-energy storage based on H2/H2O and CH4/H2O-CO2 chemistries"
Authors: A Parashar, J Hosseinpour, E Reznicek, RJ Braun
Journal: European Fuel Cell Forum
Year: 2022