| 1311 - 1314 |
Stationary gas turbine combustion: Technology needs and policy considerations
Lieuwen T, Chang M, Amato A |
| 1315 - 1332 |
Development of a new skeletal mechanism for n-decane oxidation under engine-relevant conditions based on a decoupling methodology
Chang YC, Jia M, Liu YD, Li YP, Xie MZ |
| 1333 - 1344 |
Experimental and modelling studies of the effects of methanol and ethanol addition on the laminar premixed low-pressure n-heptane/toluene flames
Xu HJ, Yao CD, Xu GL, Wang ZD, Jin HF |
| 1345 - 1356 |
Propagation velocity and flame stretch measurements in co-flowing partially premixed flames with widely varying premixedness
Mulla IA, Chakravarthy SR |
| 1357 - 1363 |
Extinguishment of counterflow methane/air diffusion flame by polydisperse fine water droplets
Yoshida A, Takasaki R, Kashiwa K, Naito H, Saso Y |
| 1364 - 1372 |
Numerical and experimental studies of the NO formation in laminar coflow diffusion flames on their transition to MILD combustion regime
Sepman AV, Abtahizadeh SE, Mokhov AV, van Oijen JA, Levinsky HB, de Goey LPH |
| 1373 - 1380 |
Experimental study on the unique stability mechanism via miniaturization of jet diffusion flames (microflame) by utilizing preheated air system
Fujiwara K, Nakamura Y |
| 1381 - 1397 |
Examining flow-flame interaction and the characteristic stretch rate in vortex-driven combustion dynamics using PIV and numerical simulation
Hong S, Speth RL, Shanbhogue SJ, Ghoniem AF |
| 1398 - 1413 |
Ignition dynamics of an annular combustor equipped with multiple swirling injectors
Bourgouin JF, Durox D, Schuller T, Beaunier J, Candel S |
| 1414 - 1427 |
Experimental analysis of laser-induced spark ignition of lean turbulent premixed flames: New insight into ignition transition
Cardin C, Renou B, Cabot G, Boukhalfa AM |
| 1428 - 1440 |
Conditional flow field statistics of jet-in-hot-coflow flames
Oldenhof E, Tummers MJ, van Veen EH, Roekaerts DJEM |
| 1441 - 1457 |
Interference mechanisms of acoustic/convective disturbances in a swirl-stabilized lean-premixed combustor
Kim KT, Santavicca DA |
| 1458 - 1465 |
Analysis of ferrofluid droplet combustion under very large magnetic power
Cristaldo CFC, Fachini FF |
| 1466 - 1475 |
Thickness dependent variations in surface phosphor thermometry during transient combustion in an HCCI engine
Knappe C, Algotsson M, Andersson P, Richter M, Tuner M, Johansson B, Alden M |
| 1476 - 1483 |
Experimental and numerical analysis of nitric oxide effect on the ignition of iso-octane in a single cylinder HCCI engine
Contino F, Foucher F, Dagaut P, Lucchini T, D'Errico G, Mounaim-Rousselle C |
| 1484 - 1498 |
Group additivity in soot formation for the example of C-5 oxygenated hydrocarbon fuels
Barrientos EJ, Lapuerta M, Boehman AL |
| 1499 - 1509 |
Analysis of the errors associated with typical pulverized coal char combustion modeling assumptions for oxy-fuel combustion
Hecht ES, Shaddix CR, Lighty JS |
| 1510 - 1518 |
Radiation enhanced B-Number
Jiang FH, Qi HY, de Ris JL, Khan MM |
| 1519 - 1530 |
The effect of pressure and oxygen concentration on the combustion of PMMA
Zarzecki M, Quintiere JG, Lyon RE, Rossmann T, Diez FJ |
| 1531 - 1540 |
The effect of polymeric binder on composite propellant flame structure investigated with 5 kHz OH PLIF
Hedman TD, Groven LJ, Lucht RP, Son SF |
