| 1363 - 1372 |
Experimental and theoretical study of the ignition and smoldering of wood including convective effects
Bilbao R, Mastral JF, Aldea ME, Ceamanos J, Betran M, Lana JA |
| 1373 - 1383 |
Experimental study of burning rate in hydrocarbon pool fires
Chatris JM, Quintela J, Folch J, Planas E, Arnaldos J, Casal J |
| 1384 - 1392 |
Effects of flow strain on triple flame propagation
Im HG, Chen JH |
| 1393 - 1401 |
Chemical scavenging activity of gaseous suppressants by using laser-induced fluorescence measurements of hydroxyl
Vora N, Siow JE, Laurendeau NM |
| 1402 - 1420 |
Effects of heat release and buoyancy on flow structure and entrainment in turbulent nonpremixed flames
Muniz L, Mungal MG |
| 1421 - 1432 |
A turnover model for carbon reactivity I. Development
Haynes BS |
| 1433 - 1444 |
Suppression of cellular structure in slot-burner flames
Rosen LJ, Axelbaum RL |
| 1445 - 1455 |
Complex CSP for chemistry reduction and analysis
Lu TF, Ju YG, Law CK |
| 1456 - 1475 |
Kinetic modelling of n-decane combustion and autoignition
Bikas G, Peters N |
| 1476 - 1488 |
Instability of burner-stabilized flames with volumetric heat loss
Chao BH |
| 1489 - 1505 |
Theory of high frequency acoustic wave scattering by turbulent flames
Lieuwen T |
| 1506 - 1515 |
Quantum mechanical study of molecular weight growth process by combination of aromatic molecules
Violi A, Sarofim AF, Truong TN |
| 1516 - 1523 |
Modeling the chemical reactions of ammonium dinitramide (ADN) in a flame
Korobeinichev OP, Bolshova TA, Paletsky AA |
| 1524 - 1532 |
Hydroperoxides with zero, one, two or more carbonyl groups formed during the oxidation of n-dodecane
Blin-Simiand N, Jorand F, Sahetchian K, Brun M, Kerhoas L, Malosse C, Einhorn J |
| 1533 - 1556 |
Application of a new cubic turbulence model to piloted and bluff-body diffusion flames
Merci B, Dick E, Vierendeels J, Roekaerts D, Peeters TWJ |
| 1557 - 1568 |
The impact of chlorine on chromium speciation in a laminar diffusion flame
Guo B, Kennedy IM |
| 1569 - 1576 |
Condensed-phase processes during combustion of solid gun propellants. I. Nitrate ester propellants
Schroeder MA, Fifer RA, Miller MS, Pesce-Rodriguez RA, McNesby CJS, Singh G |
| 1577 - 1598 |
Condensed-phase processes during combustion of solid gun propellants. II. Nitramine composite propellants
Schroeder MA, Fifer RA, Miller MS, Pesce-Rodriguez RA, McNesby CJS, Singh G, Widder JM |
| 1599 - 1601 |
Experimental observations of effects of convection on flame shape and extinction on n-heptane single droplets
Suekane T, Yasutomi K, Hirai S |
| 1602 - 1606 |
Influence of pressure on the rate of nitric oxide reduction by char
Tomeczek J, Gil S |
| 1607 - 1610 |
Comments on "The Origin of Soot in Flames: Is the Nucleus an Ion?" by V. J. Hall-Roberts, A. N. Hayhurst, D. E. Knight, and S. G. Taylor
Calcote HF |
| 1611 - 1615 |
Reply to H. F. Calcote's comments on "The Origin of Soot in Flames: Is the Nucleus an Ion?"
Doherty MW, Hayhurst AN, Hunt SFS, Taylor SG |
