| 285 - 297 |
Burning velocities of CO flames
Rightley ML, Williams FA |
| 298 - 318 |
Modelling finite-rate chemistry effects in nonpremixed turbulent combustion: Test on the bluff-body stabilized flame
Fallot L, Gonzalez M, Elamraoui R, Obounou M |
| 319 - 334 |
A simplified theory of the ignition of single droplets under forced convection
Wong SC, Liao XX, Yang JR |
| 335 - 350 |
A quasi-one-dimensional premixed flame model with cross-stream diffusion
Echekki T |
| 351 - 365 |
The reduction of the nitrogen oxides NO and N2O to molecular nitrogen in the presence of iron, its oxides, and carbon monoxide in a hot fluidized bed
Hayhurst AN, Lawrence AD |
| 366 - 376 |
Experimental study of the ignition of single droplets under forced convection
Whang JJ, Yukao CY, Ho JT, Wong SC |
| 377 - 391 |
Ignition of methane flames in oxygen near inert surfaces: Effects of composition, pressure, preheat, and residence time
Ziauddin M, Balakrishna A, Vlachos DG, Schmidt LD |
| 392 - 404 |
Dilute laminar spray diffusion flames near the transition from group combustion to individual droplet burning
Chen G, Gomez A |
| 405 - 408 |
Peclet correlation for stability of inverse diffusion flames in methane-air cross flows
Clausing EM, Senser DW, Laurendeau NM |
