Mehdi Jafarian
Mehdi Jafarian
PhD in Mechanical Engineering (Renewable energy)
Verified email at adelaide.edu.au - Homepage
Title
Cited by
Cited by
Year
Techno-economic assessment of solid–gas thermochemical energy storage systems for solar thermal power applications
A Bayon, R Bader, M Jafarian, L Fedunik-Hofman, Y Sun, J Hinkley, ...
Energy 149, 473-484, 2018
1102018
Solar thermal hybrids for combustion power plant: A growing opportunity
GJ Nathan, M Jafarian, BB Dally, WL Saw, PJ Ashman, E Hu, A Steinfeld
Progress in Energy and Combustion Science, 2018
682018
A hybrid solar and chemical looping combustion system for solar thermal energy storage
M Jafarian, M Arjomandi, GJ Nathan
Applied Energy 103, 671-678, 2013
622013
Potential use of liquid metal oxides for chemical looping gasification: a thermodynamic assessment
MM Sarafraz, M Jafarian, M Arjomandi, GJ Nathan
Applied energy 195, 702-712, 2017
542017
The relative performance of alternative oxygen carriers for liquid chemical looping combustion and gasification
MM Sarafraz, M Jafarian, M Arjomandi, GJ Nathan
International Journal of Hydrogen Energy 42 (26), 16396-16407, 2017
332017
The energetic performance of a novel hybrid solar thermal & chemical looping combustion plant
M Jafarian, M Arjomandi, GJ Nathan
Applied energy 132, 74-85, 2014
302014
Investigation of cooling load reduction in buildings by passive cooling options applied on roof
D Sabzi, P Haseli, M Jafarian, G Karimi, M Taheri
Energy and Buildings 109, 135-142, 2015
292015
Performance analysis of a passive cooling system using underground channel (Naghb)
SM Jafarian, SM Jaafarian, P Haseli, M Taheri
Energy and Buildings 42 (5), 559-562, 2010
262010
Research challenges in combustion and gasification arising from emerging technologies employing directly irradiated concentrating solar thermal radiation
GJ Nathan, BB Dally, ZT Alwahabi, PJ Van Eyk, M Jafarian, PJ Ashman
Proceedings of the Combustion Institute 36 (2), 2055-2074, 2017
252017
Potential of molten lead oxide for liquid chemical looping gasification (LCLG): A thermochemical analysis
MM Sarafraz, M Jafarian, M Arjomandi, GJ Nathan
International journal of hydrogen energy 43 (9), 4195-4210, 2018
242018
An investigation into the effect of aspect ratio on the heat loss from a solar cavity receiver
KL Lee, M Jafarian, F Ghanadi, M Arjomandi, GJ Nathan
Solar Energy 149, 20-31, 2017
242017
A hybrid solar chemical looping combustion system with a high solar share
M Jafarian, M Arjomandi, GJ Nathan
Applied energy 126, 69-77, 2014
242014
Mathematical modelling of a hydrocracking reactor for triglyceride conversion to biofuel: model establishment and validation
AA Forghani, M Jafarian, P Pendleton, DM Lewis
International journal of energy research 38 (12), 1624-1634, 2014
232014
Comparing the thermodynamic potential of alternative liquid metal oxides for the storage of solar thermal energy
M Silakhori, M Jafarian, M Arjomandi, GJ Nathan
Solar Energy 157, 251-258, 2017
212017
Thermodynamic potential of molten copper oxide for high temperature solar energy storage and oxygen production
M Jafarian, M Arjomandi, GJ Nathan
Applied Energy 201, 69–83, 2017
212017
High temperature solar thermochemical process for production of stored energy and oxygen based on CuO/Cu2O redox reactions
P Haseli, M Jafarian, GJ Nathan
Solar Energy 153, 1-10, 2017
192017
Thermodynamic potential of high temperature chemical looping combustion with molten iron oxide as the oxygen carrier
M Jafarian, M Arjomandi, GJ Nathan
Chemical Engineering Research and Design 120, 69-81, 2017
172017
Influence of the type of oxygen carriers on the performance of a hybrid solar chemical looping combustion system
M Jafarian, M Arjomandi, GJ Nathan
Energy & fuels 28 (5), 2914-2924, 2014
162014
The influence of high intensity solar radiation on the temperature and reduction of an oxygen carrier particle in hybrid chemical looping combustion
M Jafarian, M Arjomandi, GJ Nathan
Chemical Engineering Science 95, 331-342, 2013
162013
Experimental investigation of the effects of wind speed and yaw angle on heat losses from a heated cavity
KL Lee, A Chinnici, M Jafarian, M Arjomandi, B Dally, G Nathan
Solar Energy 165, 178-188, 2018
152018
The system can't perform the operation now. Try again later.
Articles 1–20