| 1 - 2 |
A tribute to Dr. George H. Markstein (1911-2011) Tribute
Oran ES |
| 3 - 21 |
Investigation on the pyrolysis and oxidation of toluene over a wide range conditions. I. Flow reactor pyrolysis and jet stirred reactor oxidation
Yuan WH, Li YY, Dagaut P, Yang JZ, Qi F |
| 22 - 40 |
Investigation on the pyrolysis and oxidation of toluene over a wide range conditions. II. A comprehensive kinetic modeling study
Yuan WH, Li YY, Dagaut P, Yang JZ, Qi F |
| 41 - 49 |
Combustion inhibition and enhancement of premixed methane-air flames by halon replacements
Pagliaro JL, Linteris GT, Sunderland PB, Baker PT |
| 50 - 59 |
Ignition of ethanol-containing mixtures excited by nanosecond discharge above self-ignition threshold
Kosarev IN, Kindysheva SV, Aleksandrov NL, Starikovskiy AY |
| 60 - 67 |
Theoretical analysis of the mass balance equation through a flame at zero and non-zero Mach numbers
Bauerheim M, Nicoud F, Poinsot T |
| 68 - 74 |
A reduced multicomponent diffusion model
Xin YX, Liang WK, Liu W, Lu TF, Law CK |
| 75 - 85 |
Intrinsic thermoacoustic instability of premixed flames
Emmert T, Bomberg S, Polifke W |
| 86 - 99 |
Shear flow instabilities in swirl-stabilized combustors and their impact on the amplitude dependent flame response: A linear stability analysis
Oberleithner K, Schimek S, Paschereit CO |
| 100 - 114 |
Effects of high shear on the structure and thickness of turbulent premixed methane/air flames stabilized on a bluff-body burner
Magnotti G, Barlow RS |
| 115 - 128 |
Experimental investigation of the inner structure of premixed turbulent methane/air flames in the thin reaction zones regime
Tamadonfar P, Gulder OL |
| 129 - 143 |
Fractal turbulence enhancing low-swirl combustion
Verbeek AA, Bouten TWFM, Stoffels GGM, Geurts BJ, van der Meer TH |
| 144 - 158 |
A Conditional Moment Closure (CMC) formulation including differential diffusion applied to a non-premixed hydrogen-air flame
Ma MC, Devaud CB |
| 159 - 180 |
Modeling partially premixed combustion behavior in multiphase LES
Knudsen E, Shashank, Pitsch H |
| 181 - 190 |
Post discharge evolution of a spark igniter kernel
Sforzo B, Lambert A, Kim J, Jagoda J, Menon S, Seitzman J |
| 191 - 206 |
Autoignition and combustion characteristics of heptane droplets with the addition of aluminium nanoparticles at elevated temperatures
Javed I, Baek SW, Waheed K |
| 207 - 215 |
Experimental study of temperature influence on carbon particle formation in shock wave pyrolysis of benzene and benzene-ethanol mixtures
Eremin A, Gurentsov E, Mikheyeva E |
| 216 - 225 |
Study of carbon and carbon-metal particulates in a canola methyl ester air-flame
Merchan-Merchan W, Ware HOT |
| 226 - 236 |
Steady and transient pyrolysis of thick clear PMMA slabs
Pizzo Y, Lallemand C, Kacem A, Kaiss A, Gerardin J, Acem Z, Boulet P, Porterie B |
| 237 - 248 |
Density functional theory study of the reactions of 2-azido-N,N-dimethylethanamine with nitric acid and nitrogen dioxide
Zhang P, Zhang LD, Law CK |
| 249 - 257 |
A simplified computational model of the oxidation of Zr/Al multilayers
Vohra M, Weihs TP, Knio OM |
| 258 - 264 |
Energy release pathways in nanothermites follow through the condensed state
Jacob RJ, Jian GQ, Guerieri PM, Zachariah MR |
