| 321 - 335 |
On the structure of nonsooting counterflow ethylene and acetylene diffusion flames
Sun CJ, Sung CJ, Wang H, Law CK |
| 336 - 350 |
Release of NO from the combustion of coal chars
Harding AW, Brown SD, Thomas KM |
| 351 - 367 |
Influence of CF3I, CF3Br, and CF3H on the high-temperature combustion of methane
Babushok V, Noto T, Burgess DRF, Hamins A, Tsang W |
| 368 - 382 |
Modeling and measurements of soot and species in a laminar diffusion flame
Kennedy IM, Yam C, Rapp DC, Santoro RJ |
| 383 - 400 |
Chemical kinetic simulation of hydrocarbon oxidation through the exhaust port of a spark ignition engine
Wu KC, Hochgreb S |
| 401 - 417 |
Shock-tube and modeling study of acetylene pyrolysis and oxidation
Hidaka Y, Hattori K, Okuno T, Inami K, Abe T, Koike T |
| 418 - 452 |
Laser-induced incandescence measurements of soot production in steady and flickering methane, propane, and ethylene diffusion flames
Shaddix CR, Smyth KC |
| 453 - 463 |
Nitrous oxide emissions control by reburning
Rutar T, Kramlich JC, Malte PC, Glarborg P |
| 464 - 474 |
An experimental investigation of thermal mixing and combustion in supersonic flows
Srikrishnan AR, Kurian J, Sriramulu V |
| 475 - 478 |
Low pressure flat flame studies of C2F4/O-2
Douglass CH, Willliams BA, McDonald JR |
