| 1 - 10 |
A numerical investigation of the effect of flue gas recirculation on the evolution of ultra-fine ash particles during pulverized coal char combustion
Niu YQ, Liu X, Wang S, Hui SE, Shaddix CR |
| 11 - 19 |
Mechanical and thermodynamic characterization of a copolymer of LP-33 polysulfide and hydroxyl terminated polybutadiene for solid fuel ramjet applications
McDonald B, Rice J, Stewart J |
| 20 - 29 |
Observation of deflagration wave in energetic materials using reactive molecular dynamics
Joshi K, Chaudhuri S |
| 30 - 40 |
Chemical kinetic modeling and shock tube study of methyl propanoate decomposition
Ning HB, Wu JJ, Ma LH, Ren W, Davidson DF, Hanson RK |
| 41 - 54 |
Influence of dimethyl ether and diethyl ether addition on the flame structure and pollutant formation in premixed iso-octane flames
Zeng MR, Wullenkord J, Graf I, Kohse-Hoinghaus K |
| 55 - 67 |
A hierarchical method for Bayesian inference of rate parameters from shock tube data: Application to the study of the reaction of hydroxyl with 2-methylfuran
Kim D, El Gharamti I, Hantouche M, Elwardany AE, Farooq A, Bisetti F, Knio O |
| 68 - 89 |
A consistent Artificially Thickened Flame approach for spray combustion using LES and the FGM chemistry reduction method: Validation in Lean Partially Pre-vaporized flames
Sacomano FL, Kuenne G, Chrigui M, Sadiki A, Janicka J |
| 90 - 100 |
Extinction of AP monopropellant by rapid depressurization: Computational and experimental studies
Kumar N, Alexander YR, Ramakrishna PA |
| 101 - 116 |
Simulations of droplet combustion under gas turbine conditions
Giusti A, Sidey JAM, Borghesi G, Mastorakos E |
| 117 - 135 |
The role of gasification reactions during pulverized solid fuel combustion: A detailed char combustion model based on measurements of char structure and kinetics for coal and pre-treated biomass
Kleinhans U, Halama S, Spliethoff H |
| 136 - 152 |
Flame Describing Function analysis of spinning and standing modes in an annular combustor and comparison with experiments
Laera D, Schuller T, Prieur K, Durox D, Camporeale SM, Candel S |
| 153 - 166 |
Comparative study of the soot formation process in a "nucleation" and a "sooting" low pressure premixed methane flame
Desgroux P, Faccinetto A, Mercier X, Mouton T, Karkar DA, El Bakali A |
| 167 - 175 |
Initiation mechanism of 1,3-butadiene combustion and its effect on soot precursors
Huang C, Yang B, Zhang F |
| 176 - 185 |
Combustion and flammability chemistry for the refrigerant HFO-1234yf (2,3,3,3-tetrafluroropropene)
Needham CD, Westmoreland PR |
| 186 - 194 |
Insights into combustion mechanisms of variable aluminum-based iron oxide/-hydroxide nanothermites
Hubner J, Klaumunzer M, Comet M, Martin C, Vidal L, Schafer M, Kryschi C, Spitzer D |
| 195 - 207 |
Toward a better understanding of 2-butanone oxidation: Detailed species measurements and kinetic modeling
Hemken C, Burke U, Lam KY, Davidson DF, Hanson RK, Heufer KA, Kohse-Hoinghaus K |
| 208 - 232 |
Plasma-combustion coupling in a dielectric-barrier discharge actuated fuel jet
Massa L, Freund JB |
| 233 - 245 |
Numerical analysis and model development for laminar flame speed of stratified methane/air mixtures
Shi X, Chen JY |
| 246 - 248 |
Visualization of ionic wind in laminar jet flames
Park DG, Chung SH, Cha MS |
| 249 - 251 |
Investigation of BAM:Eu2+ particles as a tracer for temperature imaging in flames
Yin ZY, Fond B, Eckel G, Abram C, Meier W, Boxx I, Beyrau F |
| 252 - 260 |
Pyrolysis-gas chromatography mass spectroscopy and pipe combustor analysis of the ignition and mass regression characteristics of a sulfur doped polysulfide ramjet fuel
McDonald B, Rice J, Marshall C, Seymour K, Stewart J |
| 261 - 272 |
Two dimensional advective heat flux estimation from velocity measurements
Grib SW, Renfro MW |
| 273 - 285 |
Flame thickness and conditional scalar dissipation rate in a premixed temporal turbulent reacting jet
Chaudhuri S, Kolla H, Dave HL, Hawkes ER, Chen JH, Law CK |
| 286 - 296 |
From elementary kinetics in perfectly stirred reactors to reduced kinetics utilizable in turbulent reactive flow simulations for combustion devices
Bellan J |
| 297 - 311 |
A multi-timescale and correlated dynamic adaptive chemistry and transport (CO-DACT) method for computationally efficient modeling of jet fuel combustion with detailed chemistry and transport
Sun WQ, Ju YG |
| 312 - 323 |
Investigation on laminar burning velocities of benzene, toluene and ethylbenzene up to 20 atm
Wang GQ, Li YY, Yuan WH, Zhou ZBA, Wang Y, Wang ZZ |
| 324 - 334 |
Origin and reactivity of hot-spots in end-gas autoignition with effects of negative temperature coefficients: Relevance to pressure wave developments
Terashima H, Matsugi A, Koshi M |
