| 1 - 15 |
An ignition and combustion model based on the level-set method for spark ignition engine multidimensional modeling
Tan ZC, Reitz RD |
| 16 - 37 |
Detailed kinetic modeling of ethane oxidation
Naik CV, Dean AM |
| 38 - 58 |
Formation of dark zone and its temperature plateau in solid-propellant flames: A review
Yang RJ, Thakre P, Liau YC, Yang VG |
| 59 - 79 |
Experimental and numerical study of steam gasification of a single charcoal particle
Mermoud F, Golfier F, Salvador S, Van de Steene L, Dirion JL |
| 80 - 87 |
Small-angle neutron scattering study of soot particles in an ethylene-air diffusion flame
Mitchell JBA, Le Garrec JL, Florescu-Mitchell AI, di Stasio S |
| 88 - 104 |
A probability density function Eulerian Monte Carlo field method for large eddy simulations: Application to a turbulent piloted methane/air diffusion flame (Sandia D)
Mustata R, Valino L, Jimenez C, Jones WP, Bondi S |
| 105 - 116 |
Absorption spectroscopy diagnostics of amidogen in ammonia-doped methane/air flames
Rahinov I, Goldman A, Cheskis S |
| 117 - 127 |
Numerical simulation and sensitivity analysis of detailed soot particle size distribution in laminar premixed ethylene flames
Singh J, Patterson RIA, Kraft M, Wang H |
| 128 - 144 |
Direct numerical simulation of ignition front propagation in a constant volume with temperature inhomogeneities - I. Fundamental analysis and diagnostics
Chen JH, Hawkes ER, Sankaran R, Mason SD, Im HG |
| 145 - 159 |
Direct numerical simulation of ignition front propagation in a constant volume with temperature inhomogeneities - II. Parametric study
Hawkes ER, Sankaran R, Pebay PP, Chen JH |
| 160 - 180 |
Aerodynamics inside a rapid compression machine
Mittal G, Sung CJ |
| 181 - 193 |
Numerical simulation and flight experiment on oscillating lifted flames in coflow jets with gravity level variation
Kim J, Kim KN, Won SH, Fujita O, Takahashi J, Chung SH |
| 194 - 205 |
Joint use of compressible large-eddy simulation and Helmholtz solvers for the analysis of rotating modes in an industrial swirled burner
Selle L, Benoit L, Poinsot T, Nicoud F, Krebs W |
| 206 - 219 |
Accelerating flames in cylindrical tubes with nonslip at the walls
Akkerman V, Bychkov V, Petchenko A, Eriksson LE |
| 220 - 230 |
Aluminum combustion in wet and dry CO2: Consequences for surface reactions
Sarou-Kanian V, Rifflet JC, Millot F, Gokalp I |
| 231 - 244 |
A hybrid scalar model for sooting turbulent flames
Aksit IM, Moss JB |
| 245 - 258 |
Detailed analysis of the mass burning rate of stretched flames including preferential diffusion effects
de Swart JAM, Groot GRA, van Oijen JA, Boonkkarnp JHMT, de Goey LPH |
| 259 - 271 |
A tabulated chemistry approach for numerical modeling of diesel spray evaporation in a "stabilized cool flame" environment
Kolaitis DI, Founti MA |
| 272 - 281 |
Experimental and modeling study of the autoignition of 1-hexene/isooctane mixtures at low temperatures
Vanhove G, Minetti R, Touchard S, Fournet R, Glaude PA, Battin-Leclerc F |
| 282 - 289 |
Thermochemical properties of stable intermediates and derived radicals for the gas-phase formation of 1,3,6,8-and 1,3,7,9-tetrachlorodibenzo-p-dioxins from 2,4,6-trichlorophenol: A computational G3MP2B3 study
Fabian WMF, Janoschek R |
| 290 - 299 |
Transfer function characteristics of bluff-body stabilized, conical V-shaped premixed turbulent propane-air flames
Chaparro A, Landry E, Cetegen BM |
| 300 - 315 |
Modeling of RDX/GAP/BTTN pseudo-propellant combustion
Yoon JK, Thakre P, Yang V |
| 316 - 323 |
Testing a small detailed chemical-kinetic mechanism for the combustion of hydrogen and carbon monoxide
Saxena P, Williams FA |
| 324 - 338 |
Numerical study on the influence of hydrogen addition on soot formation in a laminar ethylene-air diffusion flame
Guo HS, Liu FS, Smallwood GJ, Gulder OL |
| 339 - 356 |
Physical characterization of laminar spray flames in the pressure range 0.1-0.9 MPa
Russo S, Gomez A |
| 357 - 375 |
Numerical simulation of turbulent Bunsen flames with a level set flamelet model
Herrmann A |
| 376 - 389 |
Nonlinear oscillations in diffusion flames
Wang HY, Bechtold JK, Law CK |
| 390 - 400 |
Extinction characteristics of catalyst-assisted combustion in a stagnation-point flow reactor
Li JJ, Im HG |
| 401 - 414 |
Stretch rate of tubular premixed flames
Wang P, Wehrmeyer JA, Pitz RW |
| 415 - 434 |
Effects of strain rate and curvature on the propagation of a spherical flame kernel in the thin-reaction-zones regime
Jenkins KW, Klein M, Chakraborty N, Cant RS |
