| 1 - 1 |
Untitled
Kohse-Hoinghaus K |
| 2 - 22 |
LES of an ignition sequence in a gas turbine engine
Boileau M, Staffelbach G, Cuenot B, Poinsot T, Berat C |
| 23 - 46 |
One-dimensional turbulence-based closure with extinction and reignition
Ranganath B, Echekki T |
| 47 - 66 |
The impact of the distributions of surface oxides and their migration on characterization of the heterogeneous carbon-oxygen reaction
Campbell PA, Mitchell RE |
| 67 - 81 |
An efficient error-propagation-based reduction method for large chemical kinetic mechanisms
Pepiot-Desjardins P, Pitsch H |
| 82 - 95 |
Propagating edge-flame response to multiple stoichiometry gradients
Kostka S, Carnell WF, Renfro MW |
| 96 - 108 |
Turbulent flame speeds in ducts and the deflagration/detonation transition
Bradley D, Lawes M, Liu KX |
| 109 - 121 |
Development and performance of Cu-based oxygen carriers for chemical-looping combustion
Chuang SY, Dennis JS, Hayhurst AN, Scott SA |
| 122 - 142 |
Oscillatory and nonoscillatory behavior of a simple model for cool flames, Sal'nikov's reaction, P -> A -> B, occurring in a spherical batch reactor with varying intensities of natural convection
Campbell AN, Cardoso SSS, Hayhurst AN |
| 143 - 152 |
Rotational coherent anti-Stokes Raman spectroscopy (CARS) applied to thermometry in high-pressure hydrocarbon flames
Vestin F, Sedarsky D, Collin R, Alden M, Linne M, Bengtsson PE |
| 153 - 163 |
Strategies for mechanism reduction for large hydrocarbons: n-heptane
Lu TF, Law CK |
| 164 - 180 |
Reduction of soot emissions by iron pentacarbonyl in isooctane diffusion flames
Kim KB, Masiello KA, Hahn DW |
| 181 - 185 |
Partially premixed flames in stagnating turbulence: The merging of planar triple flames
Bray K, Champion M, Libby PA |
| 186 - 190 |
Autoignition due to hydraulic resistance and deflagration-to-detonation transition
Kagan L, Sivashinsky G |
| 191 - 205 |
Structural group analysis for soot reduction tendency of oxygenated fuels
Pepiot-Desjardins P, Pitsch H, Malhotra R, Kirby SR, Boehman AL |
| 206 - 216 |
Catalytic combustion as a synthesis tool for micropatterned carbon materials
Bulut L, Yan AH, Hurt RH |
| 217 - 231 |
Experimental and numerical conversion of liquid heptane to syngas through combustion in porous media
Dixon MJ, Schoegl I, Hull CB, Ellzey JL |
| 232 - 247 |
Assessment of the Eulerian particle flamelet model for nonpremixed turbulent jet flames
Kim SK, Kim Y |
| 248 - 258 |
Transition from cool flame to thermal flame in compression ignition process
Yamada H, Suzaki K, Tezaki A, Goto Y |
| 259 - 280 |
The effects of strain rate and curvature on surface density function transport in turbulent premixed methane-air and hydrogen-air flames: A comparative study
Chakraborty N, Hawkes ER, Chen JH, Cant RS |
| 281 - 295 |
Scaling of NOx emissions from a laboratory-scale mild combustion furnace
Szego GG, Dally BB, Nathan GJ |
| 296 - 309 |
Quantification of transient stretch effects on kernel-vortex interactions in premixed methane-air flames
Marley SK, Danby SJ, Roberts WL, Drake MC, Fansler TD |
| 310 - 318 |
Experimental investigation of the unsteady response of premixed flame fronts to acoustic pressure waves
Wangher A, Searby G, Quinard J |
