| Preview | Issue Date | Title | Author(s) |
| 2023 | A numerical investigation of methane pyrolysis in a molten catalyst Bath–A single bubble approach | Mehrabian, N.; Seyfaee, A.; Nathan, G.J.; Jafarian, M. |
| 2017 | An investigation into the effect of aspect ratio on the heat loss from a solar cavity receiver | Lee, K.; Jafarian, M.; Ghanadi, F.; Arjomandi, M.; Nathan, G. |
| 2019 | Experimental assessment of copper oxide for liquid chemical looping for thermal energy storage | Silakhori, M.; Jafarian, M.; Arjomandi, M.; Nathan, G.J. |
| 2018 | Experimental investigation of the effects of wind speed and yaw angle on heat losses from a heated cavity | Lee, K.; Chinnici, A.; Jafarian, M.; Arjomandi, M.; Dally, B.; Nathan, G. |
| 2019 | Experimental investigation of the reduction of liquid bismuth oxide with graphite | Sarafraz, M.M.; Jafarian, M.; Arjomandi, M.; Nathan, G.J. |
| 2019 | High quality syngas production with supercritical biomass gasification integrated with a water–gas shift reactor | Sarafraz, M.M.; Safaei, M.R.; Jafarian, M.; Goodarzi, M.; Arjomandi, M. |
| 2019 | Numerical investigation of the isothermal flow field and particle deposition behaviour in a rotating fluidized bed solar receiver | Lu, Z.; Chinnici, A.; Jafarian, M.; Arjomandi, M.; Nathan, G.J. |
| 2016 | Particle-scale investigation of heat transfer in radiation-driven char gasification | Lu, Z.; Jafarian, M.; Arjomandi, M.; Nathan, G. |
| 2018 | Potential of molten lead oxide for liquid chemical looping gasification (LCLG): a thermochemical analysis | Sarafraz, M.; Jafarian, M.; Arjomandi, M.; Nathan, G. |
| 2017 | Potential use of liquid metal oxides for chemical looping gasification: a thermodynamic assessment | Sarafraz, M.; Jafarian, M.; Arjomandi, M.; Nathan, G. |
| 2019 | Preliminary evaluation of a novel solar bubble receiver for heating a gas | Jafarian, M.; Abdollahi, M.R.; Nathan, G.J. |
| 2017 | Research challenges in combustion and gasification arising from emerging technologies employing directly irradiated concentrating solar thermal radiation | Nathan, G.; Dally, B.; Alwahabi, Z.; van Eyk, P.; Jafarian, M.; Ashman, P. |
| 2018 | Solar thermal hybrids for combustion power plant: A growing opportunity | Nathan, G.; Jafarian, M.; Dally, B.; Saw, W.; Ashman, P.; Hu, E.; Steinfeld, A. |
| 2023 | Steam calcination of lime for CO₂ capture | Al Smadi, E.; Jafarian, M.; Dally, B.; Nathan, G.J. |
| 2014 | The energetic performance of a novel hybrid solar thermal & chemical looping combustion plant | Jafarian, M.; Arjomandi, M.; Nathan, G. |
| 2019 | The influence of wall temperature distribution on the mixed convective losses from a heated cavity | Lee, K.L.; Chinnici, A.; Jafarian, M.; Arjomandi, M.; Dally, B.; Nathan, G. |
| 2019 | The influence of wind speed, aperture ratio and tilt angle on the heat losses from a finely controlled heated cavity for a solar receiver | Lee, K.L.; Chinnici, A.; Jafarian, M.; Arjomandi, M.; Dally, B.; Nathan, G. |
| 2019 | The thermo-chemical potential liquid chemical looping gasification with bismuth oxide | Sarafraz, M.; Jafarian, M.; Arjomandi, M.; Nathan, G. |
