| 1 - 21 |
Measured properties of turbulent premixed flames for model assessment, including burning velocities, stretch rates, and surface densities
Filatyev SA, Driscoll JF, Carter CD, Donbar JM |
| 22 - 39 |
Mechanism and modeling of the formation of gaseous alkali sulfates
Glarborg P, Marshall P |
| 40 - 54 |
Studies of mean and unsteady flow in a swirled combustor using experiments, acoustic analysis, and large eddy simulations
Roux S, Lartigue G, Poinsot T, Meier U, Berat C |
| 55 - 65 |
Detailed soot field in a turbulent non-premixed ethylene/air flame from laser scattering and extinction experiments
Yang B, Koylu UO |
| 66 - 77 |
C-2 Swan band laser-induced fluorescence and chemiluminescence in low-pressure hydrocarbon flames
Smith GP, Park C, Schneiderman J, Luque J |
| 78 - 88 |
Flammability limits of stationary flames in tubes at low pressure
Kim NI, Kataoka T, Maruyama S, Maruta K |
| 89 - 117 |
Calculations of bluff-body stabilized flames using a joint probability density function model with detailed chemistry
Liu K, Pope SB, Caughey DA |
| 118 - 130 |
Radiation effects on combustion and pollutant emissions of high-pressure opposed flow methane/air diffusion flames
Zhu XL, Gore JP |
| 131 - 148 |
Transient burning rate of a noncharring plate under a forced flow boundary layer flame
Ndubizu CC, Ananth R, Tatem PA |
| 149 - 169 |
Effects of sample orientation on nonpiloted ignition of thin poly(methyl methacrylate) sheet by a laser - 1. Theoretical prediction
Nakamura Y, Kashiwagi T |
| 170 - 179 |
Interactions among soot, thermal radiation, and NOx emissions in oxygen-enriched turbulent nonpremixed flames: a computational fluid dynamics modeling study
Wang L, Haworth DC, Turns SR, Modest MF |
| 180 - 185 |
On inductive ignition
Arpaci VS, Lee HS, Zeng P |
| 186 - 190 |
Time-dependent measurements of flame temperature and the OH radical in the unsteady extinction of non-premixed flames
Lee UD, Oh KC, Shin HD, Lee KH |
