| 2051 - 2058 |
The Mach reflection of a detonation based on soot track measurements
Guo CM, Zhang DL, Xie W |
| 2059 - 2065 |
Flame structure of ADN/HTPB composite propellants
Korobeinichev OP, Paletsky AA |
| 2066 - 2075 |
The burning rate of premixed flames in moderate and intense turbulence
Shepherd IG, Cheng RK |
| 2076 - 2090 |
Large molecules, ions, radicals, and small soot particles in fuel-rich hydrocarbon flames part VI: Positive ions of aliphatic and aromatic hydrocarbons in a low-pressure premixed flame of n-butane and oxygen
Fialkov AB, Homann KH |
| 2091 - 2101 |
Flame acceleration associated with the Darrieus-Landau instability
Aldredge RC, Zuo BF |
| 2102 - 2118 |
Scalar profiles and NO formation in laminar opposed-flow partially premixed methane/air flames
Barlow RS, Karpetis AN, Frank JH, Chen JY |
| 2119 - 2123 |
Turbulent scales in a fan-stirred combustion bomb
Sick V, Hartman MR, Arpaci VS, Anderson RW |
| 2124 - 2134 |
Modeling of complex premixed burner systems by using flamelet-generated manifolds
Van Oijen JA, Lammers FA, De Goey LPH |
| 2135 - 2156 |
Influence of sublimation and pyrolysis on quasi-steady deflagrations in confined porous energetic materials
Margolis SB, Telengator AM |
| 2157 - 2163 |
Large eddy simulation of a non-premixed turbulent reacting mixing layer: Effects of heat release and spanwise fluid shear
Kurose R, Makino H, Michioka T, Komori S |
