| 1 |
Effect of hydrogen addition on NOx formation in high-pressure counter-flow premixed CH4/air flames
de Persis S, Idir M, Molet J, Pillier L
International Journal of Hydrogen Energy, 44(41), 23484, 2019 |
| 2 |
Experimental study and modelling of NOx formation in high pressure counter-flow premixed CH4/air flames
Pillier L, Idir M, Molet J, Matynia A, de Persis S
Fuel, 150, 394, 2015 |
| 3 |
Simulations of transient n-heptane and n-dodecane spray flames under Cross engine-relevant conditions using a transported PDF method
Bhattacharjee S, Haworth DC
Combustion and Flame, 160(10), 2083, 2013 |
| 4 |
Analysis of high pressure premixed flames using Equivalent Reactor Networks for predicting NOx emissions
Lyra S, Cant RS
Fuel, 107, 261, 2013 |
| 5 |
Characterization of the effects of hydrogen addition in premixed methane/air flames
Halter F, Chauveau C, Gokalp I
International Journal of Hydrogen Energy, 32(13), 2585, 2007 |
| 6 |
Substantiating a fractal-based algebraic reaction closure of premixed turbulent combustion for high pressure and the Lewis number effects
Aluri NK, Muppala SPR, Dinkelacker F
Combustion and Flame, 145(4), 663, 2006 |
| 7 |
Propagation, structure, and limit phenomena of laminar flames at elevated pressures
Law CK
Combustion Science and Technology, 178(1-3), 335, 2006 |
| 8 |
Measurements of the soot volume field in laminar diffusion flames at elevated pressures
McCrain LL, Roberts WL
Combustion and Flame, 140(1-2), 60, 2005 |
| 9 |
Modeling of laminar mono- and bidisperse liquid oxygen/hydrogen spray flames in the counterflow configuration
Schlotz D, Gutheil E
Combustion Science and Technology, 158, 195, 2000 |
