Working on renewable energy integration with hydrogen storage, transport, and distribution for decarbonized economies
Transitions take community efforts ! I believe that Women in Green Hydrogen is exactly the kind of network building resource, which we need to be a part of. Disruptive technologies like hydrogen, needs knowledge sharing across the globe for the betterment of humankind.
Dr. Pranjali Sharma is an assistant professor in the Hydro and Renewable Energy Department of IIT Roorkee. Before joining IIT Roorkee, she was a technologist for hydrogen logistics and supply chain management at Reliance Industries Limited, where she worked on techno-economical planning of the upcoming hydrogen GIGA complex at Jamnagar. She was responsible for integrating energy production, storage, and utilization for round the clock production and supply of hydrogen and its derivatives including ammonia and methanol.
Being a developer of low cost, indigenously manufactured composite cylinders and cascades for hydrogen storage, she has also worked as a scientist at Humble Hydrogen’s high and ultra-high-pressure storage division. She has completed her doctorate as a Prime Minister Research Fellow at IIT Kharagpur and has graduated from IIT Patna. She was the project manager for the development of 350 bar hydrogen storage solution for the R&D Centre of Indian Oil Corporation Limited in association with IIT Kharagpur.
A. Transactions and Journals:
1. Sharma, P., Burolia, A.K., Adak, N.C., Daiya, J., Sardar, H.H. and Neogi, S. (IF-6.4) “Effect of tension on liner buckling and performance of a type-4 cylinder for storage of compressed gases with experimental validation” Thin-Walled Structures (2023), 189, p.110928.
2. Sharma, P., & Neogi, S. (IF- 6.3) “Performance-based Design and Manufacturing of Filament Wound Type-4 Composite Pressure Vessels for Compressed Gas Storage” Composite Structures (2023): 116710
3. Adak, N., Sharma, P., Sardar, H., &Neogi, S. (IF-2.3) "Model verification and determination of temperature-dependent mechanical deformations of short GF/VE composite using laser extensometer” Journal of Materials Engineering and Performance (2022): 1-9
4. Sharma, P., Sardar, H. H., & Neogi, S. (IF-9.4) "Thermomechanical processing of Type-4 composite cylinders under static load " Journal of Energy Storage (2022): 55, 105465
5. Sharma, P., Sharma, S., Bera, T., Semwal, K., Badhe, R. M., Sharma, A., & Neogi, S. (IF-6.3) "Effects of dome shape on burst and weight performance of a type-3 composite pressure vessel for storage of compressed hydrogen" Composite Structures (2022): 293, 115732
6. Sharma, P., Chugh, P., & Neogi, S. (IF-3) "Study to methodize the design of a safe Type-4 CNG storage vessel using finite element analysis with experimental validation" International Journal of Pressure Vessels and Piping (2021): 104425
7. Sharma, P., Bera, T., Semwal, K., Badhe, R. M., Sharma, A., Ramakumar, S. S. V., & Neogi, S. (IF- 7.2) "Theoretical analysis of design of filament wound type 3 composite cylinder for the storage of compressed hydrogen gas” International Journal of Hydrogen Energy (2020): 45(46), 25386-25397
8. Ahmed, S. A., Gautam, R. K., Sharma, P., Seth, D. (IF-4.3) "Photophysics of a Molecular Rotor inside the Block Copolymers” Journal of Photochemistry and Photobiology A: Chemistry (2017): 351, 170-178
B. Patents:
1. Sharma, P., Bera, T., Semwal, K., Badhe, R. M., Sharma, A., Ramakumar, S. S. V., & Neogi, S. Pressure Vessel for Storing Fluid. US patent (Application filed-2023)
2. Sharma, P., Bera, T., Semwal, K., Badhe, R. M., Sharma, A., Ramakumar, S. S. V., & Neogi, S. A Pressure Vessel for Storing Fluid. Indian patent (Application no. 18159247, filed on 25/01/2022)