| 1 - 15 |
Uncertainty-quantification analysis of the effects of residual impurities on hydrogen-oxygen ignition in shock tubes
Urzay J, Kseib N, Davidson DF, Iaccarino G, Hanson RK |
| 16 - 22 |
Shock tube study of the pressure dependence of monomethylhydrazine pyrolysis
Li SJ, Davidson DF, Hanson RK |
| 23 - 36 |
Effects of H2S addition on hydrogen ignition behind reflected shock waves: Experiments and modeling
Mathieu O, Deguillaume F, Petersen EL |
| 37 - 48 |
Study on combustion and ignition characteristics of natural gas components in a micro flow reactor with a controlled temperature profile
Kamada T, Nakamura H, Tezuka T, Hasegawa S, Maruta K |
| 49 - 64 |
An experimental and modeling study of shock tube and rapid compression machine ignition of n-butylbenzene/air mixtures
Nakamura H, Darcy D, Mehl M, Tobin CJ, Metcalfe WK, Pitz WJ, Westbrook CK, Curran HJ |
| 65 - 74 |
A high-pressure rapid compression machine study of n-propylbenzene ignition
Darcy D, Nakamura H, Tobin CJ, Mehl M, Metcalfe WK, Pitz WJ, Westbrook CK, Curran HJ |
| 75 - 83 |
Interpretation of experimental data from rapid compression machines without creviced pistons
Mittal G, Chomier M |
| 84 - 100 |
Experimental and kinetic modeling study on methylcyclohexane pyrolysis and combustion
Wang ZD, Ye LL, Yuan WH, Zhang LD, Wang YZ, Cheng ZJ, Zhang F, Qi F |
| 101 - 110 |
Lennard-Jones parameters for combustion and chemical kinetics modeling from full-dimensional intermolecular potentials
Jasper AW, Miller JA |
| 111 - 117 |
The chemistry involved in the third explosion limit of H-2-O-2 mixtures
Sanchez AL, Fernandez-Tarrazo E, Williams FA |
| 118 - 126 |
Nonlinear reduction of combustion composition space with kernel principal component analysis
Mirgolbabaei H, Echekki T |
| 127 - 137 |
The use of dynamic adaptive chemistry and tabulation in reactive flow simulations
Ren ZY, Liu YF, Lu TF, Lu LY, Oluwole OO, Goldin GM |
| 138 - 146 |
Methane, ethane, and ethylene laminar counterflow diffusion flames at elevated pressures: Experimental and computational investigations up to 2.0 MPa
Niemann U, Seshadri K, Williams FA |
| 147 - 153 |
Uncertainties in interpretation of high pressure spherical flame propagation rates due to thermal radiation
Santner J, Haas FM, Ju YG, Dryer FL |
| 154 - 161 |
Laminar flame propagation of atmospheric iso-cetane/air and decalin/air mixtures
Li B, Zhang H, Egolfopoulos FN |
| 162 - 172 |
A numerical study on the ability to predict the heat release rate using CH* chemiluminescence in non-sooting counterflow diffusion flames
Hossain A, Nakamura Y |
| 173 - 183 |
Direct three dimensional tomography of flames using maximization of entropy technique
Goyal A, Chaudhry S, Subbarao PMV |
| 184 - 196 |
Bistable swirled flames and influence on flame transfer functions
Hermeth S, Staffelbach G, Gicquel LYM, Anisimov V, Cirigliano C, Poinsot T |
| 197 - 209 |
A new approach to model turbulent lifted CH4/air flame issuing in a vitiated coflow using conditional moment closure coupled with an extinction model
Roy RN, Kumar S, Sreedhara S |
| 210 - 221 |
DNS with detailed and tabulated chemistry of engine relevant igniting systems
Bekdemir C, Somers B, de Goey P |
| 222 - 239 |
Large-eddy simulation of spray combustion in a gas turbine combustor
Jones WP, Marquis AJ, Vogiatzaki K |
| 240 - 255 |
On the ignition and flame development in a spray-guided direct-injection spark-ignition engine
Peterson B, Reuss DL, Sick V |
| 256 - 269 |
Direct numerical simulations of NOx effect on multistage autoignition of DME/air mixture in the negative temperature coefficient regime for stratified HCCI engine conditions
El-Asrag HA, Ju YG |
| 270 - 279 |
High precision in-cylinder gas thermometry using Laser Induced Gratings: Quantitative measurement of evaporative cooling with gasoline/alcohol blends in a GDI optical engine
Williams B, Edwards M, Stone R, Williams J, Ewart P |
| 280 - 287 |
Impact of nitrogen oxides (NO, NO2, N2O) on the formation of soot
Abian M, Peribanez E, Millera A, Bilbao R, Alzueta MU |
| 288 - 294 |
Flame extinction properties of solids obtained from limiting oxygen index tests
Suzanne M, Delichatsios MA, Zhang JP |
| 295 - 302 |
Heat transfer effects in nano-aluminum combustion at high temperatures
Allen D, Krier H, Glumac N |
| 303 - 310 |
Iodine-containing aluminum-based fuels for inactivation of bioaerosols
Aly Y, Zhang S, Schoenitz M, Hoffmann VK, Dreizin EL, Yermakov M, Indugula R, Grinshpun SA |
| 311 - 321 |
Aluminum agglomeration reduction in a composite propellant using tailored Al/PTFE particles
Sippel TR, Son SF, Groven LJ |
| 322 - 331 |
Conversion of aluminum foil to powders that react and burn with water
Swamy AKN, Shafirovich E |
| 332 - 346 |
Kinetic interactions between hydrogen and carbon monoxide oxidation over platinum
Zheng X, Mantzaras J, Bombach R |
| 347 - 362 |
Modeling of ammonium dinitramide (ADN) monopropellant combustion with coupled condensed and gas phase kinetics
Thakre P, Duan Y, Yang V |
| 363 - 369 |
Humidity induced burning rate degradation of an iron oxide catalyzed ammonium perchlorate/HTPB composite propellant
McDonald BA, Rice JR, Kirkham MW |
