| Numerical investigation and optimization of indirect freeze desalination A Eghtesad, M Salakhi, H Afshin, SK Hannani Desalination 481, 114378, 2020 | 56 | 2020 |
| CO2-free hydrogen production via microwave-driven methane pyrolysis M Dadsetan, MF Khan, M Salakhi, ER Bobicki, MJ Thomson International Journal of Hydrogen Energy 48 (39), 14565-14576, 2023 | 52 | 2023 |
| Heat and mass transfer analysis and optimization of freeze desalination utilizing cold energy of LNG leaving a power generation cycle M Salakhi, A Eghtesad, H Afshin Desalination 527, 115595, 2022 | 26 | 2022 |
| A comprehensive kinetic study on low-GHG hydrogen production from microwave-driven methane pyrolysis M Salakhi, F Cepeda, MJ Thomson International Journal of Hydrogen Energy 77, 997-1008, 2024 | 5 | 2024 |
| Comparative analysis of methane and natural gas pyrolysis for low-GHG hydrogen production L Di Liddo, F Cepeda, G Saegh, M Salakhi, MJ Thomson International Journal of Hydrogen Energy 84, 146-154, 2024 | 2 | 2024 |
| A particle-scale study showing microwave energy can effectively decarbonize process heat in fluidization industry M Salakhi, MJ Thomson iScience 28 (2), 2025 | | 2025 |
| Modeling CO2-Free Hydrogen Production Via Microwave-Driven Methane Pyrolysis in a Fluidized Bed of Carbon Particles M Salakhi, M Thomson 2024 AIChE Annual Meeting, 2024 | | 2024 |
| Microwave Energy Can Effectively Decarbonize Process Heat in Fluidization Industry: A Particle-Scale Study M Salakhi, MJ Thomson Available at SSRN 4941862, 2024 | | 2024 |
Murray ThomsonProfessor of Mechanical and Industrial Engineering, University of TorontoEmail verificata su utoronto.ca