| 369 - 376 |
Stochastic description of premixed turbulent combustion in terms of a coarse-grained flame surface density
Fedotov SP |
| 377 - 392 |
Effects of ignition and wind on the transition to flame spread in a microgravity environment
McGrattan KB, Kashiwagi T, Baum HR, Olson SL |
| 392 - 405 |
Computations of enhanced soot production in time-varying CH4/air diffusion flames
Kaplan CR, Shaddix CR, Smyth KC |
| 406 - 427 |
Artificial neural network implementation of chemistry with pdf simulation of H-2/CO2 flames
Christo FC, Masri AR, Nebot EM |
| 428 - 441 |
Simulation and moderation of the thermal response of confined pressed explosive compositions
Dagley IJ, Parker RP, Jones DA, Montelli L |
| 442 - 469 |
A heuristic model of turbulent mixing applied to blowout of turbulent jet diffusion flames
Tieszen SR, Stamps DW, OHern TJ |
| 467 - 477 |
Stabilization of premixed flames on rotating bunsen burners
Cha JM, Sohrab SH |
| 478 - 486 |
Species measurements in a hypersonic, hydrogen-air, combustion wake
Skinner KA, Stalker RJ |
| 487 - 510 |
Response of a laminar premixed flame to flow oscillations: A kinematic model and thermoacoustic instability results
Fleifil M, Annaswamy AM, Ghoneim ZA, Ghoniem AF |
| 511 - 514 |
Effect of spatial averaging on CARS-derived temperatures
Parameswaran T, Snelling DR |
