| 1 - 15 |
A representative linear eddy model for simulating spray combustion in engines (RILEM)
Lackmann T, Kerstein AR, Oevermann M |
| 16 - 24 |
Experimental study of gasoline vapor deflagration in a duct with an open end
Qi S, Du Y, Zhang PL, Li GQ, Wang SM, Li YC, Dong T |
| 25 - 35 |
Flame propagation through three-phase methane-hydrate particles
Dagan Y, Bar-Kohany T |
| 36 - 53 |
Chemical interaction of dual-fuel mixtures in low-temperature oxidation, comparing n-pentane/dimethyl ether and n-pentane/ethanol
Jin HF, Pieper J, Hemken C, Brauer E, Ruwe L, Kohse-Hoinghaus K |
| 54 - 60 |
Effect of mixing methane, ethane, propane and ethylene on the soot particle size distribution in a premixed propene flame
Lin BY, Gu H, Ni H, Guan B, Li ZZ, Han D, Gu C, Shao C, Huang Z, Lin H |
| 61 - 75 |
A new emission reduction approach in MILD combustion through asymmetric fuel injection
Sharma S, Pingulkar H, Chowdhury A, Kumar S |
| 76 - 82 |
Flame spread between two droplets of different diameter in microgravity
Mikami M, Motomatsu N, Nagata K, Yoshida Y, Seo T |
| 83 - 91 |
Influence of methane addition on soot formation in pyrolysis of acetylene
Eremin A, Mikheyeva E, Selyakov I |
| 92 - 111 |
Velocity and stretch characteristics at the leading edge of an aerodynamically stabilized flame
Chterev I, Emerson B, Lieuwen T |
| 112 - 122 |
A multipurpose reduced mechanism for ethanol combustion
Millan-Merino A, Fernandez-Tarrazo E, Sanchez-Sanz M, Williams FA |
| 123 - 132 |
Effects of particle size and morphology of NQ on thermal and combustion properties of triple-base propellants
Wang BB, Liao X, Wang ZS, DeLuca LT, Liu ZT, He WD |
| 133 - 144 |
Influence of gap height and flow field on global stoichiometry and heat losses during opposed flow flame spread over thin fuels in simulated microgravity
Hossain S, Wichman IS, Sidebotham GW, Olson SL, Miller FJ |
| 145 - 156 |
Experimental study of CO2 diluted, piloted, turbulent CH4/air premixed flames using high-repetition-rate OH PLIF
Han D, Satija A, Gore JP, Lucht RP |
| 157 - 169 |
The combustion kinetics of the lignocellulosic biofuel, ethyl levulinate
Ghosh MK, Howard MS, Zhang YJ, Djebbi K, Capriolo G, Farooq A, Curran HJ, Dooley S |
| 170 - 176 |
Molecular conformational effects in H plus n-heptane reaction rate calculations
Nasiri R, Luo KH |
| 177 - 191 |
The effects of incident electric fields on counterflow diffusion flames
Di Renzo M, Urzay J, De Palma P, de Tullio MD, Pascazio G |
| 192 - 217 |
An optimization method for formulating model-based jet fuel surrogate by emulating physical, gas phase chemical properties and threshold sooting index (TSI) of real jet fuel under engine relevant conditions
Yu WB, Yang WM, Tay KL, Zhao FY |
| 218 - 228 |
Characterization of stratified fuel distribution and charge mixing in a DISI engine using Rayleigh scattering
Hemdal S |
| 229 - 245 |
Direct numerical simulation of a high Ka CH4/air stratified premixed jet flame
Wang HO, Hawkes ER, Savard B, Chen JH |
| 246 - 256 |
Effects of inflow Mach number on oblique detonation initiation with a two-step induction-reaction kinetic model
Yang PF, Teng HH, Jiang ZL, Ng HD |
| 257 - 271 |
On the consistency of state vectors and Jacobian matrices
Hansen MA, Sutherland JC |
| 272 - 282 |
Effect of pressure on the transfer functions of premixed methane and propane swirl flames
Di Sabatino F, Guiberti TF, Boyette WR, Roberts WL, Moeck JP, Lacoste DA |
| 283 - 294 |
Prediction of product distributions in coal devolatilization by an artificial neural network model
Luo K, Xing JK, Bai Y, Fan JR |
| 295 - 305 |
Dynamic response of a vaporizing spray to pressure oscillations: Approximate analytical solutions
Anani K, Prud'homme R, Hounkonnou MN |
| 306 - 312 |
Effect of ethanol addition on soot formation in laminar methane diffusion flames at pressures above atmospheric
Griffin EA, Christensen M, Gulder OL |
| 313 - 326 |
Theoretical analysis and simulation of methane/air flame inhibition by sodium bicarbonate particles
Dounia O, Vermorel O, Poinsot T |
| 327 - 334 |
Experimental study of the burning behaviors of thin-layer pool fires
Zhao JL, Huang H, Jomaas G, Zhong MH, Yang R |
| 335 - 343 |
Energetic and ecological effect of small amount of metalline powders used for doping waste-derived fuels
Egorov RI, Valiullin TR, Strizhak PA |
| 344 - 362 |
Joint probability density function models for multiscalar turbulent mixing
Perry BA, Mueller ME |
| 363 - 383 |
Modelling of diesel spray flames under engine-like conditions using an accelerated Eulerian Stochastic Field method
Pang KM, Jangi M, Bai XS, Schramm J, Walther JH |
| 384 - 396 |
Self-sustained, high-frequency detonation wave generation in a semi-bounded channel
Schwinn K, Gejji R, Kan B, Sardeshmukh S, Heister S, Slabaugh CD |
| 397 - 416 |
Including real fuel chemistry in LES of turbulent spray combustion
Felden A, Esclapez L, Riber E, Cuenot B, Wang H |
| 417 - 423 |
Thermoanalytical studies on the thermal and catalytic decomposition of aqueous hydroxylammonium nitrate solution
Esparza AA, Ferguson RE, Choudhuri A, Love ND, Shafirovich E |
| 424 - 439 |
A two-phase MMC-LES model for turbulent spray flames
Khan N, Cleary MJ, Stein OT, Kronenburg A |
| 440 - 452 |
Local extinction mechanisms analysis of spray jet flame using high speed diagnostics
Verdier A, Santiago JM, Vandel A, Godard G, Cabot G, Renou B |
| 453 - 462 |
An experimental chemical kinetic study of the oxidation of diethyl ether in a jet-stirred reactor and comprehensive modeling
Serinyel Z, Lailliau M, Thiona S, Dayma G, Dagaut P |
| 463 - 470 |
Role of low-temperature chemistry in detonation of n-heptane/oxygen/diluent mixtures
Liang WK, Mevel R, Law CK |
| 471 - 480 |
Reduction of flame development time in nanosecond pulsed high frequency discharge ignition of flowing mixtures
Lefkowitz JK, Ombrello T |
| 481 - 490 |
Characterization of thermodiffusive and hydrodynamic mechanisms on the cellular instability of syngas fuel blended with CH4 or CO2
Lapalme D, Halter F, Mounaim-Rousselle C, Seers P |
| 491 - 501 |
Exploration of the oxidation chemistry of dimethoxymethane: Jet-stirred reactor experiments and kinetic modeling
Sun WY, Tao T, Lailliau M, Hansen N, Yang B, Dagaut P |
| 502 - 519 |
A physics-based approach to modeling real-fuel combustion chemistry - I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations
Wang H, Xu R, Wang K, Bowman CT, Hanson RK, Davidson DF, Brezinsky K, Egolfopoulos FN |
| 520 - 537 |
A physics-based approach to modeling real-fuel combustion chemistry - II. Reaction kinetic models of jet and rocket fuels
Xu R, Wang K, Banerjee S, Shao JK, Parise T, Zhu YY, Wang SK, Movaghar A, Lee DJ, Zhao RH, Han X, Gao Y, Lu TF, Brezinsky K, Egolfopoulos FN, Davidson DF, Hanson RK, Bowman CT, Wang H |
