| 191 - 202 |
A mixture fraction framework for the theory and modeling of droplets and sprays
Bilger RW |
| 203 - 216 |
Combustion characteristics and influential factors of isooctane active-thermal atmosphere combustion assisted by two-stage reaction of n-heptane
Lu XC, Ji LB, Ma JJ, Zhou XX, Huang Z |
| 217 - 226 |
Reactive molecular dynamics simulation and chemical kinetic modeling of pyrolysis and combustion of n-dodecane
Wang QD, Wang JB, Li JQ, Tan NX, Li XY |
| 227 - 239 |
High-sensitivity detection of polycyclic aromatic hydrocarbons adsorbed onto soot particles using laser desorption/laser ionization/time-of-flight mass spectrometry: An approach to studying the soot inception process in low-pressure flames
Faccinetto A, Desgroux P, Ziskind M, Therssen E, Focsa C |
| 240 - 254 |
Molecular diffusion effects in LES of a piloted methane-air flame
Kemenov KA, Pope SB |
| 255 - 272 |
Theory of the propagation dynamics of spiral edges of diffusion flames in von Karman swirling flows
Urzay J, Nayagam V, Williams FA |
| 273 - 280 |
Syngas formation in methane flames and carbon monoxide release during quenching
Weinberg F, Carleton F, Houdmont R, Dunn-Rankin D, Karnani S |
| 281 - 290 |
A novel soot model for fires: Validation in a laminar non-premixed flame
Beji T, Zhang JP, Yao W, Delichatsios M |
| 291 - 300 |
On the extraction of laminar flame speed and Markstein length from outwardly propagating spherical flames
Chen Z |
| 301 - 326 |
The interaction of high-speed turbulence with flames: Turbulent flame speed
Poludnenko AY, Oran ES |
| 327 - 344 |
One-dimensional turbulence model simulations of autoignition of hydrogen/carbon monoxide fuel mixtures in a turbulent jet
Gupta KG, Echekki T |
| 345 - 353 |
Laminar flame speeds of moist syngas mixtures
Das AK, Kumar K, Sung CJ |
| 354 - 368 |
Combustion characteristics of fuel droplets with addition of nano and micron-sized aluminum particles
Gan YA, Qiao L |
| 369 - 375 |
Comparative study on the growth mechanisms of PAHs
Shukla B, Koshi M |
| 376 - 391 |
Computed Tomography of Chemiluminescence (CTC): Instantaneous 3D measurements and Phantom studies of a turbulent opposed jet flame
Floyd J, Geipel P, Kempf AM |
