327 - 328 |
Professor Gerard A Faeth - (1936-2005) - In memoriam Driscoll JF |
329 - 335 |
Fire dynamics simulation of a turbulent buoyant flame using a mixture-fraction-based combustion model Xin Y, Gore JP, McGrattan KB, Rehm RG, Baum HR |
336 - 349 |
Percolation theory for flame propagation in non- or less-volatile fuel spray: A conceptual analysis to group combustion excitation mechanism Umemura A, Takamori S |
350 - 359 |
Stable negative edge flame formation in a counterflow burner Carnell WF, Renfro MW |
360 - 370 |
Experimental investigation of silane combustion and particle nucleation using a rapid-compression facility Donovan MT, He X, Zigler B, Palmer TR, Walton SM, Wooldridge MS |
371 - 391 |
Diagnostic considerations for optical laser-extinction measurements of soot in high-pressure transient combustion environments Musculus MPB, Pickett LA |
392 - 405 |
Impact of exothermicity on steady and linearized response of a premixed ducted flame Mehta PG, Soteriou MC, Banaszuk A |
406 - 416 |
The dynamics of electrically charged soot particles in a premixed ethylene flame Maricq MM |
417 - 430 |
CFD studies of a twin-piston rapid compression machine Wurmel J, Simmie JM |
431 - 437 |
Role of the progress variable in models for partially premixed turbulent combustion Bray K, Domingo P, Vervisch L |
438 - 447 |
Soot suppression by nonthermal plasma in coflow jet diffusion flames using a dielectric barrier discharge Cha MS, Lee SM, Kim KT, Chung SH |
448 - 468 |
Gas phase chemistry in catalytic combustion of methane/air mixtures over platinum at pressures of 1 to 16 bar Reinke M, Mantzaras J, Bombach R, Schenker S, Inauen A |
469 - 472 |
Schmidt number effects on laminar jet diffusion flame liftoff Chen RH, Kothawala A, Chaos M, Chew LP |
473 - 477 |
Measurements of laminar burning velocity and Markstein number using high-speed chemiluminescence imaging Marley SK, Roberts WL |