| 391 - 406 |
Microgravity experiments on flame spread along fuel-droplet arrays at high temperatures
Mikami M, Oyagi H, Kojima N, Wakashima Y, Kikuchi M, Yoda S |
| 407 - 418 |
Measurements and modeling of SiCl4 combustion in a low-pressure H-2/O-2 flame
Moore T, Brady B, Martin LR |
| 419 - 436 |
Investigation of the nonlinear response of turbulent premixed flames to imposed inlet velocity oscillations
Armitage CA, Balachandran R, Mastorakos E, Cant RS |
| 437 - 455 |
Systematically reduced chemical mechanisms for sulfur oxidation and pyrolysis
Cerru FG, Kronenburg A, Lindstedt RP |
| 456 - 471 |
Numerical and experimental study of an axisymmetric coflow laminar methane-air diffusion flame at pressures between 5 and 40 atmospheres
Liu FS, Thomson KA, Guo HS, Smallwood GJ |
| 472 - 483 |
On the applicability of directed relation graphs to the reduction of reaction mechanisms
Lu TF, Law CK |
| 484 - 492 |
Influences of pressure on reduced-gravity combustion of HAN-methanol-water droplets in air
Wei JB, Shaw BD |
| 493 - 512 |
Combustion instabilities in sudden expansion oxy-fuel flames
Ditaranto M, Hals J |
| 513 - 529 |
An experimental investigation of an acoustically excited laminar premixed flame
Kartheekeyan S, Chakravarthy SR |
| 530 - 540 |
A correlation function method of recovering the combustion law parameters for particles burning in optically thin dust flames
Kornilov VN, Korobko A, Kondratyev EN |
| 541 - 552 |
Upstream flow dynamics of a laminar premixed conical flame submitted to acoustic modulations
Birbaud AL, Durox D, Candel S |
| 553 - 571 |
A model for the devolatilization of a coal particle sufficiently large to be controlled by heat transfer
Chern JS, Hayhurst AN |
| 572 - 588 |
Transient response of premixed methane flames
Vagelopoulos CM, Frank JH |
