| 1019 - 1031 |
A shock tube study of ignition delay in the combustion of ethylene
Saxena S, Kahandawala MSP, Sidhu SS |
| 1032 - 1036 |
Detailed chemical kinetic mechanisms of ethyl methyl, methyl tert-butyl and ethyl tert-butyl ethers: The importance of uni-molecular elimination reactions
Yasunaga K, Simmie JM, Curran HJ, Koike T, Takahashi O, Kuraguchi Y, Hidaka Y |
| 1037 - 1048 |
Structure-reactivity trends of C1-C4 alkanoic acid methyl esters
Akih-Kumgeh B, Bergthorson JM |
| 1049 - 1058 |
Pyrolysis and oxidation of ethyl methyl sulfide in a flow reactor
Zheng X, Fisher EM, Gouldin FC, Bozzelli JW |
| 1059 - 1063 |
A four-step reduced mechanism for syngas combustion
Boivin P, Jimenez C, Sanchez AL, Williams FA |
| 1064 - 1075 |
Influence of compositional stratification on autoignition in n-heptane/air mixtures
Mukhopadhyay S, Abraham J |
| 1076 - 1083 |
Reactions leading to ignition in fully dense nanocomposite Al-oxide systems
Ermoline A, Schoenitz M, Dreizin EL |
| 1084 - 1088 |
Enabling and controlling slow reaction velocities in low-density compacts of multilayer reactive particles
Fritz GM, Joress H, Weihs TP |
| 1089 - 1096 |
A computational study and correlation of premixed isooctane-air laminar reaction front properties under spark ignited and spark assisted compression ignition engine conditions
Martz JB, Middleton RJ, Lavoie GA, Babajimopoulos A, Assanis DN |
| 1097 - 1108 |
Analysis of in situ combustion of oil with pyrolysis and vaporization
Mailybaev AA, Bruining J, Marchesin D |
| 1109 - 1116 |
Numerical investigation of the ignition delay time of a translucent solid at high radiant heat fluxes
Bal N, Rein G |
| 1117 - 1128 |
Experimental investigation of the reactive flow field around catalytic micro-wires for intermediate Reynolds-number flows
Bijjula K, Kyritsis DC |
| 1129 - 1139 |
The effects of liquid-fuel thermophysical properties, carrier-gas composition, and pressure, on strained opposed-flow non-premixed flames
Kee RJ, Yamashita K, Zhu HY, Dean AM |
| 1140 - 1148 |
Laminar premixed flame fuel consumption rate modulation by shocks and expansion waves
Kilchyk V, Nalim R, Merkle C |
| 1149 - 1159 |
Stability of lifted flames in centerbody burner
Katta VR, Stouffer S, Roquemore WM |
| 1160 - 1170 |
Variational multiscale methods for premixed combustion based on a progress-variable approach
Gravemeier V, Wall WA |
| 1171 - 1180 |
Simulation of transient convective burning of an n-octane droplet using a four-step reduced mechanism
Wu G, Sirignano WA, Williams FA |
| 1181 - 1192 |
The release of water-bound and organic sodium from Loy Yang coal during the combustion of single particles in a flat flame
van Eyk PJ, Ashman PJ, Alwahabi ZT, Nathan GJ |
| 1193 - 1200 |
Experimental studies on the three-dimensional effects of opposed-flow flame spread over thin solid materials
Zhang X, Yu Y |
| 1201 - 1214 |
Hybrid presumed pdf and flame surface density approaches for Large-Eddy Simulation of premixed turbulent combustion Part 1: Formalism and simulation of a quasi-steady burner
Lecocq G, Richard S, Colin O, Vervisch L |
| 1215 - 1226 |
Hybrid presumed pdf and flame surface density approaches for Large-Eddy Simulation of premixed turbulent combustion. Part 2: Early flame development after sparking
Lecocq G, Richard S, Colin O, Vervisch L |
