| 1 - 4 |
A one-step reduced mechanism for near-limit hydrogen combustion with general stoichiometry
Fernandez-Galisteo D, Weiss A, Sanchez AL, Williams FA |
| 5 - 14 |
Predicting octane number from microscale flame dynamics
Druzgalski CL, Lapointe S, Whitesides R, McNenly MJ |
| 15 - 26 |
A streamlined approach to hybrid-chemistry modeling for a low cetane-number alternative jet fuel
Pinkowski NH, Wang Y, Cassady SJ, Davidson DE, Hanson RK |
| 27 - 36 |
A new insight into the role of coal adsorbed water in low-temperature oxidation: Enhanced center dot OH radical generation
Qu ZB, Sun F, Gao JH, Pei T, Qie ZP, Wang LJ, Pi XX, Zhao GB, Wu SH |
| 37 - 44 |
CARS thermometry in laminar sooting ethylene-air co-flow diffusion flames with nitrogen dilution
Satija A, Chang ZQ, Lowe A, Thomas LM, Masri AR, Lucht RP |
| 45 - 50 |
Effect of the curvature of the burning surface on the burning rate of a solid homogeneous energetic material
Krupkin VG, Marshakov VN, Rashkovskiy SA |
| 51 - 62 |
Radiant fraction from sooting jet fires
Nmira F, Consalvi JL, Delichatsios MA |
| 63 - 78 |
Effects of shear inhomogeneities on the structure of turbulent premixed flames
Jin W, Steinmetz SA, Juddoo M, Dunn MJ, Huang ZH, Masri AR |
| 79 - 85 |
Stabilization of a turbulent premixed flame by a plasma filament
Kong CD, Li ZS, Alden M, Ehn A |
| 86 - 98 |
Topological and chemical characteristics of turbulent flames at MILD conditions
Manias DM, Efstathios-Al Tingas, Minamoto Y, Im HG |
| 99 - 109 |
Investigation of the structure and propagation speeds of n-heptane cool flames
Hajilou M, Brown MQ, Brown MC, Belmont E |
| 110 - 121 |
Sparse-Lagrangian MMC modelling of the Sandia DME flame series
Neuber G, Fuest F, Kirchmann J, Kronenburg A, Stein OT, Galindo-Lopez S, Cleary MJ, Barlow RS, Coriton B, Frank JH, Sutton JA |
| 122 - 138 |
A post processing technique to predict primary particle size of sooting flames based on a chemical discrete sectional model: Application to diluted coflow flames
Bodor AL, Franzelli B, Faravelli T, Cuoci A |
| 139 - 157 |
Internal structure of hydrogen-enriched methane-air turbulent premixed flames: Flamelet and non-flamelet behavior
Mohammadnejad S, Vena P, Yun S, Kheirkhah S |
| 158 - 163 |
Detonation properties of the mixture of tetranitromethane/nitrobenzene
Mochalova VM, Utkin AV, Rykova VE, Koldunov SA, Zhukov AN |
| 164 - 181 |
Consumption and displacement speeds of stretched premixed flames - Theory and simulations
Giannakopoulos GK, Frouzakis CE, Mohan S, Tomboulides AG, Matalon M |
| 182 - 197 |
Chemical insights into the larger sooting tendency of 2-methyl-2-butene compared to n-pentane
Leon L, Ruwe L, Moshammer K, Seidel L, Shrestha KP, Wang XX, Mauss F, Kohse-Hoinghaus K, Hansen N |
| 198 - 218 |
Influence of the n-dodecane chemical mechanism on the CFD modelling of the diesel-like ECN Spray A flame structure at different ambient conditions
Payri F, Garcia-Olivera JM, Novella R, Perez-Sanchez EJ |
| 219 - 234 |
Accounting for uncertainty in RCCE species selection
Cisneros-Garibay E, Pantano C, Freund JB |
| 235 - 245 |
Experimental study of transitional behavior of fully developed under-ventilated compartment fire and associated facade flame height evolution
Ren F, Hu LH, Zhang XL, Sun XP, Zhang JP, Delichatsios M |
| 246 - 261 |
Comprehensive experimental and kinetic study of 2,4,4-trimethyl-1-pentene oxidation
Yin GY, Gao ZH, Hu EJ, Xu ZH, Huang ZH |
| 262 - 272 |
Kinetic effects of n-propylbenzene on n-dodecane counterflow nonpremixed cool flames
Yehia OR, Reuter CB, Ju YG |
| 273 - 280 |
Initial pyrolysis mechanism of cellulose revealed by in-situ DRIFT analysis and theoretical calculation
Dai GX, Wang KG, Wang GY, Wang SR |
| 281 - 298 |
Characterization of jet-in-hot-coflow flames using tangential stretching rate
Li ZY, Galassi RM, Ciottoli PP, Parente A, Valorani M |
| 299 - 312 |
Ignition characteristics of a temporally evolving n-heptane jet in an iso-octane/air stream under RCCI combustion-relevant conditions
Yu GH, Luong MB, Chung SH, Yoo CS |
| 313 - 326 |
Experimental study of ethanol oxidation behind reflected shock waves: Ignition delay time and H2O laser-absorption measurements
Mathieu O, Pinzon LT, Atherley TM, Mulvihill CR, Schoel I, Petersen EL |
| 327 - 329 |
Reaction zone stratification in piloted highly-turbulent fuel-lean premixed jets
Wabel TM, Barlow RS, Steinberg AM |
| 330 - 350 |
Closure of the scalar dissipation rate in the spray flamelet equations through a transport equation for the gradient of the mixture fraction
Olguin H, Scholtissek A, Gonzalez S, Gonzalez F, Ihme M, Hasse C, Gutheil E |
| 351 - 363 |
Molecular simulation on viscous effects for microscale combustion in reactive shock-bubble interaction
Zhang B, Chen H, Yu B, He MS, Liu H |
| 364 - 368 |
Thermally coupled SHS processes in layered (Fe2O3+2Al)/(Ti + Al)/(Fe2O3+2Al) structures: An experimental study
Linde AV, Studenikin IA, Kondakov AA, Grachev VV |
| 369 - 375 |
The dependence of Ammonal detonation performance on cylinder test scale
Anderson EK, Jackson SI |
| 376 - 387 |
A new perspective on modelling passive scalar conditional mixing statistics in turbulent spray flames
Wang BS, Kronenburg A, Stein OT |
| 388 - 401 |
Surrogate fuels for RP-3 kerosene formulated by emulating molecular structures, functional groups, physical and chemical properties
Wu ZY, Mao YB, Raza M, Zhu JZ, Feng Y, Wang SX, Qian Y, Yu L, Lu XC |
| 402 - 419 |
Regimes of premixed turbulent spontaneous ignition and deflagration under gas-turbine reheat combustion conditions
Savard B, Hawkes ER, Aditya K, Wang HO, Chen JH |
| 420 - 435 |
Large Eddy Simulation of lifted turbulent flame in cold air using Doubly Conditional Source-term Estimation
Mortada M, Devaud C |
| 436 - 450 |
Deep learning for presumed probability density function models
de Frahan MTH, Yellapantula S, King R, Day MS, Grout RW |
| 451 - 471 |
Instantaneous planar measurements of nitric oxide concentration in a turbulent n-heptane spray flame
Mulla IA, Godard G, Renou B |
| 472 - 479 |
Size distributions of soot particles in premixed flames of gasoline distillates
Lin BY, Gu C, Han D, Zhan R, Zhai JQ, Guan B, Li ZZ, Huang Z, Lin H |
| 480 - 491 |
Numerical investigation of flow and scalar fields of piloted, partially-premixed dimethyl ether/air jet flames using stochastic multiple mapping conditioning approach
Ghai SK, De S |
| 492 - 492 |
A numerical investigation of the flame structure and blowoff characteristics of a bluff-body stabilized turbulent premixed flame (vol 202, pg 376, 2019)
Wu BF, Zhao XY, Chowdhury BR, Cetegen BM, Xu C, Lu TF |
