Contact Dr Navid Khallaghi
- Email: N.Khallaghi@cranfield.ac.uk
Background
Dr Navid Khallaghi is a Research Fellow at Cranfield University, where he has been contributing to cutting-edge research on bio-methanol production, focusing on innovative hydrothermal gasification techniques since April 2024. He earned his PhD from Cranfield University in 2020, with a focus on low-carbon energy systems. Following his PhD, Dr. Khallaghi held a Research Associate position at the University of Manchester from 2020 to 2024, where he played a crucial role in interdisciplinary projects aimed at reducing CO2 emissions in the iron and steel industry.
Research opportunities
Research Interests
- CO2 Capture and Utilisation
- Synthesis Fuel Production
- Process Modelling & Techno-Economic Analysis and Life Cycle Assessment
Publications
Articles In Journals
- Golmakani A, Khallaghi N, Amiri A, Manovic V & Nabavi SA. (2025). Techno-economic assessment of pressure swing adsorption tail gas decarbonisation for blue hydrogen production. Gas Science and Engineering, 142
- Awani K, Khallaghi N, Kumar V & Nabavi SA. (2025). Techno-economic assessment of an integrated GTL facility for urea production. Journal of CO2 Utilization, 99
- Khallaghi N, Zapata-Boada S, Diaz Gutierrez M, Wright AD, Fernandez JR, .... (2025). Blast furnace gas utilization with calcium-assisted steel mill off-gas hydrogen production (CASOH) technology: technical evaluation. Industrial & Engineering Chemistry Research, 64(29)
- Pandey A, Ayubkhan FP, Mylipilli N, Thotakura A & Khallaghi N. (2025). Methanol and carbon monoxide co-production via methane decomposition: techno-economic and environmental analysis. Sustainable Energy & Fuels, 9(18)
- Khallaghi N, Ghiami S, Jeswani H, Nabavi SA & Anthony EJ. (2024). Blue hydrogen production through partial oxidation: a techno‐economic and life cycle assessment. International Journal of Energy Research, 2024(1)
- Khallaghi N, Jeswani H, Hanak DP & Manovic V. (2021). Techno-economic-environmental assessment of biomass oxy-gasification staged oxy-combustion for negative emission combined heat and power. Applied Thermal Engineering, 196(September)
- Khallaghi N, Hanak DP & Manovic V. (2020). Techno-economic evaluation of near-zero CO2 emission gas-fired power generation technologies: A review. Journal of Natural Gas Science and Engineering, 74
- Khallaghi N, Hanak DP & Manovic V. (2019). Gas-fired chemical looping combustion with supercritical CO2 cycle. Applied Energy, 249
- Khallaghi N, Hanak DP & Manovic V. (2019). Staged oxy-fuel natural gas combined cycle. Applied Thermal Engineering, 153