| 2749 - 2757 |
Impact of sour gas composition on ignition delay and burning velocity in air and oxy-fuel combustion
Bongartz D, Ghoniem AF |
| 2758 - 2777 |
Effect of folds and pockets on the topology and propagation of premixed turbulent flames
Fogla N, Creta F, Matalon M |
| 2778 - 2787 |
Validation of turbulent flame speed models for methane-air-mixtures at high pressure gas engine conditions
Ratzke A, Schoffler T, Kuppa K, Dinkelacker F |
| 2788 - 2807 |
LES study of deflagration to detonation mechanisms in a downsized spark ignition engine
Robert A, Richard S, Colin O, Poinsot T |
| 2808 - 2822 |
Flame index and its statistical properties measured to understand partially premixed turbulent combustion
Rosenberg DA, Allison PM, Driscoll JF |
| 2823 - 2829 |
Electrospray formation and combustion characteristics of iodine-containing Al/CuO nanothermite microparticles
Wang HY, DeLisio JB, Jian GQ, Zhou WB, Zachariah MR |
| 2830 - 2839 |
Flame instability of lean hydrogen-air mixtures in a smooth open-ended vertical channel
Yanez J, Kuznetsov M, Grune J |
| 2840 - 2854 |
Experimental assessment of various methods of determination of laminar flame speed in experiments with expanding spherical flames with positive Markstein lengths
Lipatnikov AN, Shy SS, Li WY |
| 2855 - 2864 |
Using magnesium to maximize heat generated by reactive Al/Zr nanolaminates
Overdeep KR, Livi KJT, Allen DJ, Glumac NG, Weihs TP |
| 2865 - 2872 |
Detailed characterization of DC electric field effects on small non-premixed flames
Karnani S, Dunn-Rankin D |
| 2873 - 2892 |
Kinetics of ethylcyclohexane pyrolysis and oxidation: An experimental and detailed kinetic modeling study
Wang ZD, Zhao L, Wang Y, Bian HT, Zhang LD, Zhang F, Li YY, Sarathy SM, Qi F |
| 2893 - 2903 |
Transition from pulled to pushed fronts in premixed turbulent combustion: Theoretical and numerical study
Sabelnikov VA, Lipatnikov AN |
| 2904 - 2915 |
Uncertainty quantification of ion chemistry in lean and stoichiometric homogenous mixtures of methane, oxygen, and argon
Kim D, Rizzi F, Cheng KW, Han J, Bisetti F, Knio OM |
| 2916 - 2927 |
Experimental and kinetic modeling study of the shock tube ignition of a large oxygenated fuel: Tri-propylene glycol mono-methyl ether
Burke U, Pitz WJ, Curran HJ |
| 2928 - 2936 |
A simplified mechanism for the prediction of the ion current during methane oxidation in engine-like conditions
Rao R, Honnery D |
| 2937 - 2953 |
Distributed reactions in highly turbulent premixed methane/air flames Part I. Flame structure characterization
Zhou B, Brackmann C, Li Q, Wang ZK, Petersson P, Li ZS, Alden M, Bai XS |
| 2954 - 2958 |
Visualization of multi-regime turbulent combustion in swirl-stabilized lean premixed flames
Zhou B, Li Q, He Y, Petersson P, Li ZS, Alden M, Bai XS |
| 2959 - 2961 |
Commentary on the heat transfer mechanisms controlling propagation in nanothermites
Egan GC, Zachariah MR |
