| 1 - 3 |
Obituary - Hoyt Clarke Hottel (1903-1998)
Beer JM, Howard JB, Longwell JP, Sarofim AF |
| 4 - 31 |
Nitric oxide formation in dilute hydrogen jet flames: Isolation of the effects of radiation and turbulence-chemistry submodels
Barlow RS, Smith NSA, Chen JY, Bilger RW |
| 32 - 58 |
Boron particle ignition and combustion at 30-150 ATM
Foelsche RO, Burton RL, Krier H |
| 59 - 77 |
Characteristic flow modes of wake-stabilized jet flames in a transverse air stream
Huang RF, Wang SM |
| 78 - 98 |
Kinetic model for the decomposition of DMMP in a hydrogen/oxygen flame
Werner JH, Cool TA |
| 99 - 116 |
Interaction of a shock with a sinusoidally perturbed flame
Khokhlov AM, Oran ES, Chtchelkanova AY, Wheeler JC |
| 117 - 139 |
Computational and experimental study of soot formation in a coflow, laminar diffusion flame
Smooke MD, Mcenally CS, Pfefferle LD, Hall RJ, Colket MB |
| 140 - 154 |
Heterogeneous formation of nitrous oxide from char-bound nitrogen
De Soete GG, Croiset E, Richard JR |
| 155 - 169 |
The role of Landau-Darrieus instability in large scale flows
Helenbrook BT, Law CK |
| 170 - 188 |
A study of the gas-phase chemical structure during CO2 laser assisted combustion of HMX
Tang CJ, Lee YJ, Kudva G, Litzinger TA |
| 189 - 205 |
Investigations of heat release, extinction, and time evolution of the flame surface, for a nonpremixed flame interacting with a vortex
Renard PH, Rolon JC, Thevenin D, Candel S |
| 206 - 226 |
Dynamics and structure of dusty reacting flows: Inert particles in strained, laminar, premixed flames
Egolfopoulos FN, Campbell CS |
| 227 - 243 |
Multi-phase model for ignition and combustion of boron particles
Zhou W, Yetter RA, Dryer FL, Rabitz H, Brown RC, Kolb CE |
| 244 - 256 |
Simultaneous temperature and species measurements of the Glycidyl Azide Polymer (GAP) propellant during laser-induced decomposition
Tang CJ, Lee YJ, Litzinger TA |
| 257 - 271 |
Scalar and velocity field measurements in a lifted CH4-air diffusion flame
Watson KA, Lyons KM, Donbar JM, Carter CD |
| 272 - 290 |
Kinetics modeling of shock-induced ignition in low-dilution CH4/O-2 mixtures at high pressures and intermediate temperatures
Petersen EL, Davidson DF, Nanson RK |
| 291 - 306 |
Detailed analysis of low-pressure premixed flames of CH4+O-2+N-2: A study of prompt-NO
Gasnot L, Desgroux P, Pauwels JF, Sochet LR |
| 307 - 322 |
On the local stability of multiple solutions and oscillatory dynamics of spatially distributed flames
Bui PA, Vlachos DG, Westmoreland PR |
| 323 - 339 |
Numerical simulation of deflagration-to-detonation transition: The role of shock-flame interactions in turbulent flames
Khokhlov AM, Oran ES, Thomas GO |
| 340 - 350 |
PDF simulations of turbulent combustion incorporating detailed chemistry
Saxena V, Pope SB |
| 351 - 361 |
Condensed-phase species distributions about Al particles reacting in various oxidizers
Bucher P, Yetter RA, Dryer FL, Vicenzi EP, Parr TP, Hanson-Parr DM |
| 362 - 372 |
Comparison of non-fuel hydrocarbon concentrations measured in coflowing nonpremixed flames fueled with small hydrocarbons
McEnally CS, Pfefferle LD |
| 373 - 383 |
On the oscillatory behavior of laminar spray diffusion flames: Experiment and theory
Golovanevsky B, Levy Y, Greenberg JB, Matalon M |
| 384 - 393 |
On diffusion flame attachment near cold surfaces
Wichman IS |
| 394 - 403 |
Heats of formation of HNO and some related species
Anderson WR |
| 404 - 412 |
Instability-induced extinction of diffusion flames established in the stagnant mixing layer
Sohn CH, Chung SH, Kim JS |
| 413 - 421 |
Droplet lasing spectroscopy applied to droplet stream flames
Santangelo PJ, Kennedy IM |
| 422 - 428 |
Accounting for reactant consumption in the thermal explosion problem. Part IV. Numerical solution of the Arrhenius problem
Shouman AR, El-Sayed SA |
| 429 - 434 |
Combustion of ammonium dinitramide
Strunin VA, D'yakov AP, Manelis GB |
| 435 - 437 |
Soot formation in cracked flames
Tait NP |
| 438 - 440 |
An experimental investigation of blow-out limits for hydrogen-diluent diffusion flames
Shebeko YN, Korolchenko AY, Zamishevski ED, Trunev AV, Navzenya VY, Zaitzev AA |
