1 |
Numerical analysis of nitrogen oxides in turbulent lifted H-2/N-2 cabra jet flame issuing into a vitiated coflow Bazooyar B, Shariati A, Khosravi-Nikou M, Hashemabadi SH International Journal of Hydrogen Energy, 44(26), 13932, 2019 |
2 |
Velocity and stretch characteristics at the leading edge of an aerodynamically stabilized flame Chterev I, Emerson B, Lieuwen T Combustion and Flame, 193, 92, 2018 |
3 |
The evolution of autoignition kernels in turbulent flames of dimethyl ether Macfarlane ARW, Dunn M, Juddoo M, Masri A Combustion and Flame, 197, 182, 2018 |
4 |
Effects of oxidant stream composition on non-premixed laminar flames with heated and diluted coflows Evans MJ, Medwell PR, Tian ZF, Ye JJ, Frassoldati A, Cuoci A Combustion and Flame, 178, 297, 2017 |
5 |
Generalised correlations of blow-off and flame quenching for sub-sonic and choked jet flames Palacios A, Bradley D Combustion and Flame, 185, 309, 2017 |
6 |
Ignition features of methane and ethylene fuel-blends in hot and diluted coflows Evans MJ, Chinnici A, Medwell PR, Ye J Fuel, 203, 279, 2017 |
7 |
Predictions of lift-off height of turbulent methane and propane flames issuing in cold surroundings using conditional moment closure coupled with an extinction model Roy RN, Kumar S, Sreedhara S Combustion and Flame, 162(4), 1164, 2015 |
8 |
MODELING LIFTED JET FLAMES IN A HEATED COFLOW USING AN OPTIMIZED EDDY DISSIPATION CONCEPT MODEL Evans MJ, Medwell PR, Tian ZF Combustion Science and Technology, 187(7), 1093, 2015 |
9 |
The role of precursors on the stabilisation of jet flames issuing into a hot environment Medwell PR, Blunck DL, Dally BB Combustion and Flame, 161(2), 465, 2014 |
10 |
Analysis of autoignition of a turbulent lifted H-2/N-2 jet flame issuing into a vitiated coflow Najafizadeh SMM, Sadeghi MT, Sotudeh-Gharebagh R International Journal of Hydrogen Energy, 38(5), 2510, 2013 |