| 1135 - 1145 |
An improved kinetic mechanism for 3-pentanone pyrolysis and oxidation developed using multispecies time histories in shock-tubes
Dames EE, Lam KY, Davidson DF, Hanson RK |
| 1146 - 1163 |
Chemical kinetics modeling of n-nonane oxidation in oxygen/argon using excited-state species time histories
Rotavera B, Dagaut P, Petersen EL |
| 1164 - 1171 |
Autoignition of ethanol in a rapid compression machine
Mittal G, Burke SM, Davies VA, Parajuli B, Metcalfe WK, Curran HJ |
| 1172 - 1179 |
Thermal modes of bimolecular exothermic reactions: Concentration limits of ignition
Filimonov VY |
| 1180 - 1195 |
A study of direct and Krylov iterative sparse solver techniques to approach linear scaling of the integration of chemical kinetics with detailed combustion mechanisms
Perini F, Galligani E, Reitz RD |
| 1196 - 1223 |
Heavy-alkane oxidation kinetic-mechanism reduction using dominant dynamic variables, self similarity and chemistry tabulation
Kourdis PD, Bellan J |
| 1224 - 1234 |
Effect of strain rate on sooting limits in counterflow diffusion flames of gaseous hydrocarbon fuels: Sooting temperature index and sooting sensitivity index
Wang Y, Chung SH |
| 1235 - 1246 |
Influence of fast-heating processes and O atom production by a nanosecond spark discharge on the ignition of a lean H-2-air premixed flame
Tholin F, Lacoste DA, Bourdon A |
| 1247 - 1267 |
Response of a laminar premixed V-flame to a high-frequency transverse acoustic field
Baillot F, Lespinasse F |
| 1268 - 1281 |
Flame dynamics in lean premixed CO/H-2/air combustion in a mesoscale channel
Brambilla A, Frouzakis CE, Mantzaras J, Bombach R, Boulouchos K |
| 1282 - 1293 |
Effect of the equivalence ratio, Damkohler number, Lewis number and heat release on the stability of laminar premixed flames in microchannels
Sanchez-Sanz M, Fernandez-Galisteo D, Kurdyumov VN |
| 1294 - 1309 |
Modeling curvature effects in diffusion flames using a laminar flamelet model
Xuan Y, Blanquart G, Mueller ME |
| 1310 - 1325 |
Reexamination on methane/oxygen combustion in a rapidly mixed type tubular flame burner
Shi BL, Shimokuri D, Ishizuka S |
| 1326 - 1336 |
On the stability of a turbulent non-premixed biogas flame: Effect of low swirl strength
Saediamiri M, Birouk M, Kozinski JA |
| 1337 - 1347 |
Analysis of flamelet leading point dynamics in an inhomogeneous flow
Amato A, Lieuwen TC |
| 1348 - 1364 |
Detailed investigation of flame transmission from a vessel to a discharge duct
Ponizy B, Henneton N, Claverie A, Veyssiere B |
| 1365 - 1373 |
Influence of reactive species on the lean blowout limit of an industrial DLE gas turbine burner
Sigfrid IR, Whiddon R, Collin R, Klingmann J |
| 1374 - 1389 |
An analytical model for azimuthal thermoacoustic modes in an annular chamber fed by an annular plenum
Bauerheim M, Parmentier JF, Salas P, Nicoud F, Poinsot T |
| 1390 - 1397 |
On the dynamic detonation parameters in acetylene-oxygen mixtures with varying amount of argon dilution
Zhang B, Mehrjoo N, Ng HD, Lee JHS, Bai CH |
| 1398 - 1407 |
FTIR-PCFC coupling: A new method for studying the combustion of polymers
Sonnier R, Dorez G, Vahabi H, Longuet C, Ferry L |
| 1408 - 1416 |
Do nanoenergetic particles remain nano-sized during combustion?
Chakraborty P, Zachariah MR |
| 1417 - 1424 |
Enhancement of on-chip combustion via nanoporous silicon microchannels
Piekiel NW, Morris CJ, Currano LJ, Lunking DM, Isaacson B, Churaman WA |
