| 261 - 269 |
The laminar burning velocity of flames propagating in mixtures of hydrocarbons and air measured with the heat flux method
Bosschaart KJ, de Goey LPH |
| 270 - 282 |
A phenomenological model for the prediction of soot formation in diesel spray combustion
Tao F, Golovitchev VI, Chomiak J |
| 283 - 302 |
The nature of early flame development in a lean-burn stratified-charge spark-ignition engine
Aleiferis PG, Taylor AMKP, Ishii K, Urata Y |
| 303 - 312 |
Nitric oxide destruction during coal and char oxidation under pulverized-coal combustion conditions
Molina A, Eddings EG, Pershing DW, Sarofim AF |
| 313 - 326 |
Flame and surface structure of laminate propellants with coarse and fine ammonium perchlorate
Fitzgerald RP, Brewster MQ |
| 327 - 350 |
Hybrid finite-volume/transported PDF simulations of a partially premixed methane-air flame
Raman V, Fox RO, Harvey AD |
| 351 - 363 |
Investigation of the influence of the Reynolds number on extinction and reignition
Sripakagorn P, Kosaly G, Riley JJ |
| 364 - 370 |
Experimental study of premixed single edge-flame in a counterflow field
Takita K, Sado M, Masuya G, Sakaguchi S |
| 371 - 376 |
Measurement of propagation speeds in adiabatic flat and cellular premixed flames of C2H6+O-2+CO2
Konnov AA, Dyakov I |
| 377 - 382 |
Introducing a new partial PDF approach for turbulent combustion modeling
Mura A, Borghi R |
| 383 - 389 |
Bifurcation of flame structure in a lean-premixed swirl-stabilized combustor: transition from stable to unstable flame
Huang Y, Yang V |
| 390 - 393 |
Effects of DC electric fields on combustion of octane droplet pairs in microgravity
Okai K, Ueda T, Imamura O, Tsue M, Kono M, Sato J, Dietrich DL, Williams FA |
| 394 - 397 |
On the calculation of the minimum ignition energy
Kurdyumov V, Blasco J, Sanchez AL, Linan A |
| 398 - 427 |
The formation of dioxins in combustion systems
Stanmore BR |
| 428 - 428 |
Relation of opposed flow (creeping) flame spread with extinction/ignition (vol 135, pg 441, 2003)
Delichatsios MA |
