| 1 - 8 |
Ignition study of amine borane/cyanoborane based green hypergolic fuels
Bhosale VK, Karnik S, Kulkarni PS |
| 9 - 24 |
Probing the low-temperature chemistry of di-n-butyl ether: Detection of previously unobserved intermediates
Tran LS, Wullenkord J, Li YY, Herbinet O, Zeng MR, Qi F, Kohse-Hoinghaus K, Battin-Leclerc F |
| 25 - 42 |
A modelling study of acetylene oxidation and pyrolysis
Slavinskaya N, Mirzayeva A, Whitside R, Starke J, Abbasi M, Auyelkhankyzy M, Chernov V |
| 43 - 53 |
A mixture of hydrogen peroxide and tetraglyme as a green energetic monopropellant
Kang H, Kim JW, Lee JR, Kwon S |
| 54 - 70 |
Modeling the shock-induced multiple reactions in a random bed of metallic granules in an energetic material
Kim B, Choi S, Yoh JJ |
| 71 - 82 |
Direct mapping from LES resolved scales to filtered-flame generated manifolds using convolutional neural networks
Seltz A, Domingo P, Vervisch L, Nikolaou ZM |
| 83 - 99 |
Topology and flame speeds of turbulent premixed flame kernels in supersonic flows
Ochs BA, Ranjan R, Ranjan D, Menon S |
| 100 - 113 |
Two-stage ignition behavior and octane sensitivity of toluene reference fuels as gasoline surrogate
Kim D, Westbrook CK, Violi A |
| 114 - 125 |
Influence of water-vapor in oxidizer stream on the sooting behavior for laminar coflow ethylene diffusion flames
Cepeda F, Jerez A, Demarco R, Liu FS, Fuentes A |
| 126 - 133 |
Ignition delay characteristics of RP-3 under ultra-low pressure (0.01-0.1 MPa)
Chen BH, Liu JZ, Yao F, He Y, Yang WJ |
| 134 - 144 |
Exploring the combustion chemistry of a novel lignocellulose-derived biofuel: cyclopentanol. Part II: experiment, model validation, and functional group analysis
Cai LM, Minwegen H, Kruse S, Buttgen RD, Hesse R, Ramalingam A, Beeckmann J, Leonhard K, Heufer KA, Pitsch H |
| 145 - 158 |
On the universality of ignition delay times of distillate fuels at high temperatures: A statistical approach
Khaled F, Farooq A |
| 159 - 171 |
Experimental and numerical study of soot formation in counterflow diffusion flames of gasoline surrogate components
Kruse S, Wick A, Medwell P, Attili A, Beeckmann J, Pitsch H |
| 172 - 182 |
An efficient finite-rate chemistry model for a preconditioned compressible flow solver and its comparison with the flamelet/progress-variable model
Yang S, Wang XJ, Huo HF, Sun WT, Yang V |
| 183 - 192 |
Heterogeneous-homogeneous oxidation of pyrrole in water vapor at elevated pressure
Fedyaeva ON, Artamonov DO, Vostrikov AA |
| 193 - 203 |
An experimental study of jet fires in rotating flow fields
Zhou KB, Qin XL, Zhang L, Wu YQ |
| 204 - 221 |
Flame-spray interaction and combustion features in split-injection spray flames under diesel engine-like conditions
Zhao WH, Wei HQ, Jia M, Lu Z, Luo KH, Chen R, Zhou L |
| 222 - 235 |
The autoignition of iso-dodecane in low to high temperature range: An experimental and modeling study
Mao YB, Feng Y, Wu ZY, Wang SX, Yu L, Raza M, Qian Y, Lu XC |
| 236 - 246 |
Experimental and kinetic modeling investigation on the laminar flame propagation of ammonia under oxygen enrichment and elevated pressure conditions
Mei BW, Zhang XY, Ma SY, Cui ML, Guo HW, Cao ZH, Li YY |
| 247 - 261 |
Emission characteristics of turbulent non-premixed ammonia/air and methane/air swirl flames through a rich-lean combustor under various wall thermal boundary conditions at high pressure
Somarathne KDKA, Okafor EC, Hayakawa A, Kudo T, Kurata O, Iki N, Kobayashi H |
| 262 - 278 |
Development of a non-intrusive radiative heat flux measurement for upward flame spread using DSLR camera based two-color pyrometry
Aphale SS, DesJardin PE |
| 279 - 291 |
A framework for data-based turbulent combustion closure: A posteriori validation
Ranade R, Echekki T |
| 292 - 301 |
A novel method for flame stabilization in a strut-based scramjet combustor
Qin QY, Agarwal RAM, Zhang XB |
| 302 - 314 |
Molecular diffusion and phase stability in high-pressure combustion
Yao MX, Hickey JP, Ma PC, Ihme M |
| 315 - 323 |
Blowout of non-premixed turbulent jet flames with coflow under microgravity condition
Wang Q, Hu LH, Wang SM, Wang SF, Chung SH, Fujita O |
| 324 - 338 |
Experimental investigation of the stochastic nature of end-gas autoignition with detonation development in confined combustion chamber
Zhao JF, Zhou L, Zhong LJ, Zhang XJ, Pan JY, Chen R, Wei HQ |
| 339 - 349 |
Over-rich combustion of CH4, C2H6, and C3H8 +air premixed flames investigated by the heat flux method and kinetic modeling
Han XL, Wang ZH, He Y, Wang SX, Zhu YQ, Konnov AA |
| 350 - 359 |
Flame spread over twin electrical wires with applied DC electric fields
Park SH, Kang MS, Cha MS, Park J, Chung SH |
| 360 - 373 |
A detailed chemical mechanism for low to high temperature oxidation of n-butylcyclohexane and its validation
Mao YB, Li A, Zhu L, Wu ZY, Yu L, Wang SX, Raza M, Lu XC |
| 374 - 388 |
Exhaust CO emissions of a laminar premixed propane-air flame interacting with cold gas jets
Rivera JE, Gordon RL, Brouzet D, Talei M |
| 389 - 398 |
Propagation behaviors of rotating detonation in an obround combustor
Wen HC, Xie QF, Wang B |
| 399 - 412 |
Chemical kinetic study of triptane (2,2,3-trimethylbutane) as an anti-knock additive
Atef N, Issayev G, Mohamed SY, Najjar A, Wang ZD, Wang JY, Farooq A, Sarathy SM |
| 413 - 425 |
Combustion chemistry of carbon disulphide (CS2)
Zeng Z, Dlugogorski BZ, Oluwoye I, Altarawneh M |
| 426 - 438 |
Local flame structure analysis in turbulent CH4/air flames with multi-regime characteristics
Butz D, Hartl S, Popp S, Walther S, Barlow RS, Hasse C, Dreizler A, Geyer D |
| 439 - 453 |
Fuel-rich aluminum-nickel fluoride reactive composites
Valluri SK, Bushiri D, Schoenitz M, Dreizin E |
| 454 - 466 |
Impact of thermochemistry on optimized kinetic model predictions: Auto-ignition of diethyl ether
vom Lehn F, Cai LM, Pitsch H |
| 467 - 478 |
Hot surface ignition dynamics in premixed hydrogen-air near the lean flammability limit
Boeck LR, Melguizo-Gavilanes J, Shepherd JE |
| 479 - 489 |
Micro-explosion and autoignition of composite fuel/water droplets
Antonov DV, Kuznetsov GV, Strizhak PA, Rybdylova O, Sazhin SS |
| 490 - 501 |
Exploring the combustion chemistry of a novel lignocellulose-derived biofuel: cyclopentanol. Part I: quantum chemistry calculation and kinetic modeling
Cai LM, Kroger L, Dontgen M, Leonhard K, Narayanaswamy K, Sarathy SM, Heufer KA, Pitsch H |
