| 1 - + |
Fabrication of a helical detonation channel: Effect of initial pressure on the detonation propagation modes of ethylene/oxygen mixtures
Pan ZH, Qi J, Pan JF, Zhang PG, Zhu YJ, Gui MY |
| 10 - + |
Influence of iron oxide on thermal decomposition behavior and burning characteristics of ammonium nitrate/ammonium perchlorate-based composite propellants
Kohga M, Togo S |
| 25 - 34 |
The acoustic response of Burke-Schumann counterflow flames
Weiss AD, Coenen W, Sanchez AL, Williams FA |
| 35 - 43 |
Formation and stabilization of multiple ball-like flames at Earth gravity
Zhou Z, Shoshin Y, Hernandez-Perez FE, van Oijen JA, de Goey LPH |
| 44 - 58 |
Combustion of boron and boron-iron composite particles in different oxidizers
Chintersingh KL, Schoenitz M, Dreizin EL |
| 59 - 70 |
Aluminized composite propellant combustion modeling with Heterogeneous Quasi-One dimensional (HeQu1-D) approach
Varunkumar S, Mukunda HS |
| 71 - 85 |
A comparative study on the sooting tendencies of various 1-alkene fuels in counterflow diffusion flames
Wang Y, Park S, Sarathy SM, Chung SH |
| 86 - 100 |
Autoignition flame dynamics in sequential combustors
Schulz O, Noiray N |
| 101 - 119 |
Soot formation modelling for n-dodecane sprays using the transported PDF model
Chishty MA, Bolla M, Hawkes ER, Pei YJ, Kook S |
| 120 - 129 |
Exploring the negative temperature coefficient behavior of acetaldehyde based on detailed intermediate measurements in a jet-stirred reactor
Tao T, Sun WY, Hansen N, Jasper AW, Moshammer K, Chen BJ, Wang ZD, Huang C, Dagaut P, Yang B |
| 130 - 148 |
Optimized single-step (OSS) chemistry models for the simulation of turbulent premixed flame propagation
Er-raiy A, Bouali Z, Reveillon J, Mura A |
| 149 - 159 |
Dual-time schemes for reacting flows with stiff kinetics
Gallagher TP, Menon S, Sankaran V, Sankaran V |
| 160 - 169 |
Simultaneous multispectral imaging of flame species using Frequency Recognition Algorithm for Multiple Exposures (FRAME)
Li ZM, Borggren J, Berrocal E, Ehn A, Alden M, Richter M, Kristensson E |
| 170 - 179 |
Hysteresis phenomenon of the oblique detonation wave
Liu Y, Wang L, Xiao BG, Yan ZH, Wang C |
| 180 - 189 |
Experimental study of laser irradiated graphite oxidation using IFTS
Gonzales AE, Herr NC, Perram GP |
| 190 - 204 |
Measurement and theoretical prediction of char temperature oscillation during fluidized bed combustion
Salinero J, Gomez-Barea A, Fuentes-Cano D, Leckner B |
| 205 - 220 |
Multi-environment PDF modeling for n-dodecane spray combustion processes using tabulated chemistry
Kim N, Jung K, Kim Y |
| 221 - 223 |
A splitting method and alternative unclosed two-fluid conditional equations of turbulent premixed combustion without surface-averaged unknowns
Zimont VL |
| 224 - 237 |
Soot measurement in diluted methane diffusion flames by multi-pass extinction and laser-induced incandescence
Tian B, Gao Y, Zhang C, Hochgreb S |
| 238 - 249 |
Manifestation of octane rating, fuel sensitivity, and composition effects for gasoline surrogates under advanced compression ignition conditions
Tao MY, Zhao P, DelVescovo D, Ge HW |
| 250 - 271 |
A minimalist functional group (MFG) approach for surrogate fuel formulation
Jameel AGA, Naser N, Issayev G, Touitou J, Ghosh MK, Emwas AH, Farooq A, Dooley S, Sarathy SM |
| 272 - 282 |
A Burning Rate Emulator (BRE) for study of condensed fuel burning in microgravity
Markan A, Sunderland PB, Quintiere JG, de Ris JL, Stocker DP, Baum HR |
| 283 - 294 |
Effect of temperature on soot inception in highly controlled counterflow ethylene diffusion flames
Gleason K, Carbone F, Gomez A |
| 295 - 313 |
Propagation and failure mechanism of cylindrical detonation in free space
Han WH, Kong WJ, Law CK |
| 314 - 339 |
Spatial gradients of conditional averages in turbulent flames
Bushe WK |
| 340 - 357 |
Modelling of the transition of a turbulent shock-flame complex to detonation using the linear eddy model
Maxwell B, Pekalski A, Radulescu M |
| 358 - 368 |
Shock tube measurements and kinetic modeling study on autoignition characteristics of cyclohexanone
He JN, Gou YD, Lu PF, Zhang CH, Li P, Li XY |
| 369 - 383 |
Morphology and structure of hydrogen-air turbulent premixed flames
Minamoto Y, Yenerdag B, Tanahashi M |
| 384 - 400 |
Combustion of particles, agglomerates, and suspensions - A basic thermophysical analysis
Soo M, Mi XC, Goroshin S, Higgins AJ, Bergthorson JM |
| 401 - 409 |
Turbulent flame propagation enhancement by application of dielectric barrier discharge to fuel-air mixtures
Takahashi E, Kuramochi A, Nishioka M |
| 410 - 425 |
Dynamical response of a perfectly premixed flame and limit behavior for high power density systems
Mery Y |
| 426 - 438 |
On the critical conditions for pool-fire puffing
Moreno-Boza D, Coenen W, Carpio J, Sanchez AL, Williams FA |
| 439 - 451 |
Experimental and kinetic study of the effects of CO2 and H2O addition on PAH formation in laminar premixed C2H4/O-2/Ar flames
Zhang YR, Wang LJ, Liu P, Guan B, Ni H, Huang Z, Lin H |
| 452 - 472 |
Large eddy simulation of pressure and dilution-jet effects on soot formation in a model aircraft swirl combustor
Chong ST, Hassanaly M, Koo H, Mueller ME, Raman V, Geigle KP |
| 473 - 494 |
Structural differences of ethanol and DME jet flames in a hot diluted coflow
Ye JJ, Medwell PR, Kleinheinz K, Evans MJ, Dally BB, Pitsch HG |
| 495 - 506 |
Experimental and numerical study on moving hot particle ignition
Coronel SA, Melguizo-Gavilanes J, Mevel R, Shepherd JE |
| 507 - 516 |
An experimental and modeling study on the low temperature oxidation of surrogate for JP-8 part I: Neat 1,3,5-trimethylbenzene
Wang BY, Yu D, Pan GF, Liu YX, Weng JJ, Tian ZY |
| 517 - 529 |
An experimental and modeling study on the low temperature oxidation of surrogate for JP-8 part II: Comparison between neat 1,3,5-trimethylbenzene and its mixture with n-decane
Wang BY, Liu YX, Weng JJ, Pan GF, Tian ZY |
