Mr Reza Omrani - RMIT University

Position: Research Assistant

College / Portfolio: STEM College

School / Department: STEM|School of Engineering

Email: reza.omrani@rmit.edu.au

Campus: Bundoora East

Publications

Omrani, R.,Shabani, B. (2021). Hydrogen crossover in proton exchange membrane electrolysers: The effect of current density, pressure, temperature, and compression In: Electrochimica Acta, 377, 1 - 17
Omrani, R.,Nguyen, Q.,Shabani, B. (2020). Thermal coupling of an open-cathode proton exchange membrane fuel cell with metal hydride canisters: An experimental study In: International Journal of Hydrogen Energy, 45, 28940 - 28950
Omrani, R.,Shabani, B. (2020). An analytical model for hydrogen and nitrogen crossover rates in proton exchange membrane fuel cells In: International Journal of Hydrogen Energy, 45, 31041 - 31055
Omrani, R.,Shabani, B. (2019). Review of gas diffusion layer for proton exchange membrane-based technologies with a focus on unitised regenerative fuel cells In: International Journal of Hydrogen Energy, 44, 3834 - 3860
Omrani, R.,Shabani, B. (2019). Gas Diffusion Layers in Fuel Cells and Electrolysers: A Novel Semi-Empirical Model to Predict Electrical Conductivity of Sintered Metal Fibres In: Energies, 12, 1 - 17
Omrani, R.,Shabani, B. (2019). Can PTFE coating of gas diffusion layer improve the performance of URFCs in fuel cell-mode? In: Energy Procedia, 160, 574 - 581
Omrani, R.,Nguyen, Q.,Shabani, B. (2019). Open-cathode PEMFC heat utilisation to enhance hydrogen supply rate of metal hydride canisters In: Energy Procedia, 160, 542 - 549
Omrani, R.,Seif Mohammadi, S.,Mafinejad, Y.,Paul, B.,Islam, R.,Shabani, B. (2019). PEMFC purging at low operating temperatures: An experimental approach In: International Journal of Energy Research, 43, 7496 - 7507
Shabani, B.,Omrani, R.,Seif Mohammadi, S.,Paul, B.,Andrews, J. (2019). Unitised Regenerative Fuel Cells In: Electrochemical Methods for Hydrogen Production, Royal Society of Chemistry, United Kingdom
Tetuko, A.,Shabani, B.,Omrani, R.,Paul, B.,Andrews, J. (2018). Study of a thermal bridging approach using heat pipes for simultaneous fuel cell cooling and metal hydride hydrogen discharge rate enhancement In: Power Sources, 397, 177 - 188