| 1 - 15 |
Combustion at the interface of a laminate system of solid oxidizer and solid fuel
Panyam RR, Price EW, Chakravarthy SR |
| 16 - 24 |
Flame inhibition activity of phosphorus-containing compounds using laser-induced fluorescence measurements of hydroxyl
Siow HE, Laurendeau NA |
| 25 - 42 |
Shock-tube study of methane ignition under engine-relevant conditions: experiments and modeling
Huang J, Hill PG, Bushe WK, Munshi SR |
| 43 - 50 |
Laser optical investigation of turbulent transport of temperature ahead of the preheat zone in a premixed flame
Kortschik C, Plessing T, Peters N |
| 51 - 71 |
Statistical modeling of thermal radiation transfer in buoyant turbulent diffusion flames
Snegirev AY |
| 72 - 90 |
Flame chemiluminescence studies of cyclic combustion variations and air-to-fuel ratio of the reacting mixture in a lean-burn stratified-charge spark-ignition engine
Aleiferis PG, Hardalupas Y, Taylor AMKP, Ishii K, Urata Y |
| 91 - 128 |
Formation of polycyclic aromatic hydrocarbons and soot in fuel-rich oxidation of methane in a laminar flow reactor
Skjoth-Rasmussen MS, Glarborg P, Ostberg M, Johannessen JT, Livbjerg H, Jensen AD, Christensen TS |
| 129 - 140 |
Soot nanostructure: dependence upon synthesis conditions
Wal RLV, Tomasek AJ |
| 141 - 145 |
Condensation flame of acetylene decomposition
Babushok VI, Miziolek AW |
| 146 - 154 |
The effects of NO2 addition on deflagration-to-detonation transition
Pinard R, Higgins A, Lee JHS |
| 155 - 167 |
Experimental study of fuel decomposition and hydrocarbon growth processes for cyclohexane and related compounds in nonpremixed flames
McEnally CS, Pfefferle LD |
| 168 - 179 |
Ignition of premixed hydrogen/air by heated counterflow under reduced and elevated pressures
Zheng XL, Law CK |
| 180 - 190 |
Determination of the soot absorption function and thermal accommodation coefficient using low-fluence LII in a laminar coflow ethylene diffusion flame
Snelling DR, Liu FS, Smallwood GJ, Gulder OL |
| 191 - 207 |
Soot surface growth and oxidation in laminar diffusion flames at pressures of 0.1-1.0 atm
Kim CH, El-Leathy AM, Xu F, Faeth GM |
| 208 - 216 |
An investigation of the performance of turbulent mixing models
Ren ZY, Pope SB |
| 217 - 240 |
High-pressure catalytic combustion of methane over platinum: In situ experiments and detailed numerical predictions
Reinke M, Mantzaras J, Schaeren R, Bombach R, Inauen A, Schenker S |
| 241 - 245 |
The computation of the velocity, concentration, and temperature fields during a gas-phase oscillatory reaction in a closed vessel with natural convection
Cardoso SSS, Kan PC, Sayjani KK, Hayhurst AN, Griffiths JF |
| 246 - 248 |
Observation of various non-premixed flames in twin-jet counterflow
Yang SY, Lee BK, Chung SH |
| 249 - 253 |
Reactivity of coal char in reducing NO
Garijo EG, Jensen AD, Glarborg P |
| 254 - 256 |
Effects of oxygen enhancement and gravity on normal and inverse laminar jet diffusion flames
Sunderland PB, Krishnan SS, Gore JR |
| 257 - 259 |
Ignition delay times in lean n-hexane-air mixture at high pressures
Zhukov VP, Sechenov VA, Starikovskii AY |
