| 207 - 207 |
Untitled
Kohse-Hoinghaus K, Egolfopoulos FN |
| 208 - 216 |
The effect of low-NOx combustion on residual carbon in fly ash and its adsorption capacity for air entrainment admixtures in concrete
Pedersen KH, Jensen AD, Dam-Johansen K |
| 217 - 229 |
Effect of NO on extinction and re-ignition of vortex-perturbed hydrogen flames
Lee UD, Yoo CS, Chen JH, Frank JH |
| 230 - 239 |
On the occurrence of thermal explosion in a reacting gas: The effects of natural convection and consumption of reactant
Liu TY, Campbell AN, Hayhurst AN, Cardoso SSS |
| 240 - 245 |
Ignition properties of n-butane and iso-butane in a rapid compression machine
Gersen S, Mokhov AV, Darmeveil JH, Levinsky HB |
| 246 - 258 |
Development and validation of a new soot formation model for gas turbine combustor simulations
Di Domenico M, Gerlinger P, Aigner M |
| 259 - 266 |
Ignition of n-heptane pool by heated stagnating oxidizing flow
Liu W, Zhu DL, Wu N, Law CK |
| 267 - 276 |
HCN oxidation in an O-2/CO2 atmosphere: An experimental and kinetic modeling study
Gimenez-Lopez J, Millera A, Bilbao R, Alzueta MU |
| 277 - 287 |
Propagation and extinction of premixed C-5-C-12 n-alkane flames
Ji CS, Dames E, Wang YL, Wang H, Egolfopoulos FN |
| 288 - 295 |
Simulation of reactive nanolaminates using reduced models: I. Basic formulation
Salloum M, Knio OM |
| 296 - 312 |
Investigation of critical equivalence ratio and chemical speciation in flames of ethylbenzene-ethanol blends
Therrien RJ, Ergut A, Levendis YA, Richter H, Howard JB, Carlson JB |
| 313 - 327 |
On the influence of singlet oxygen molecules on the speed of flame propagation in methane-air mixture
Starik AM, Kozlov VE, Titova NS |
| 328 - 340 |
Exploring the effect of fluid dynamics and kinetic mechanisms on n-heptane autoignition in transient jets
Viggiano A |
| 341 - 350 |
Ignition transition in turbulent premixed combustion
Shy SS, Liu CC, Shih WT |
| 351 - 356 |
Reactivity of pulverized coals during combustion catalyzed by CeO2 and Fe2O3
Gong XZ, Guo ZC, Wang Z |
| 357 - 362 |
A high-porosity limit for the transition from conductive to convective burning in gas-permeable explosives
Kagan L, Sivashinsky G |
| 363 - 373 |
Bio-butanol: Combustion properties and detailed chemical kinetic model
Black G, Curran HJ, Pichon S, Simmie JM, Zhukov V |
| 374 - 383 |
The role of in situ reforming in plasma enhanced ultra lean premixed methane/air flames
Kim W, Mungal MG, Cappelli MA |
| 384 - 396 |
Flow field studies of a new series of turbulent premixed stratified flames
Seffrin F, Fuest F, Geyer D, Dreizler A |
| 397 - 407 |
A model for erosive burning of homogeneous propellants
Zhang J, Jackson TL |
| 408 - 409 |
Observation of liquid phase material in methane-air laminar diffusion flame soot experiments above 60 atmospheres
Joo HI, Gulder OL |
