| 1 - 8 |
Heat release effects on the Reynolds stress budgets in turbulent premixed jet flames at low and high Karlovitz numbers
Lee J, MacArt JF, Mueller ME |
| 9 - 23 |
On the use of dynamic turbulence modelling in fire applications
Maragkos G, Merci B |
| 24 - 28 |
Synergistic effects on soot formation in counterflow diffusion flames of acetylene-based binary mixture fuels
Xu L, Yan FW, Dai W, Zhou MX, Chung SH, Wang Y |
| 29 - 44 |
Experimental and modeling study of the low to high temperature oxidation of the linear pentanone isomers: 2-pentanone and 3-pentanone
Fenard Y, Pieper J, Hemken C, Minwegen H, Buttgen RD, Kohse-Hoinghaus K, Heufer KA |
| 45 - 57 |
The effect of thermal diffusion on stabilization of premixed flames
Vance FH, de Goey P, van Oijen JA |
| 58 - 61 |
Spanwise recirculation zone structure of a bluff body stabilized flame
Fugger CA, Gallagher TP, Sykes JP, Caswell AW |
| 62 - 71 |
Global uncertainty analysis for the RRKM/master equation modeling of a typical multi-well and multi-channel reaction system
Huang C, Li S, Wang JX, Yang B, Zhang F |
| 72 - 81 |
A machine learning methodology for improving the accuracy of laminar flame simulations with reduced chemical kinetics mechanisms
Pulga L, Bianchi GM, Falfari S, Forte C |
| 82 - 91 |
Direct dynamics of a large complex hydrocarbon reaction system: The reaction of OH with exo-tricyclodecane (the main component of Jet Propellant-10)
Wu JJ, Gao LG, Ning HB, Ren W, Truhlar DG |
| 92 - 99 |
Morphology of soot sampled from N-2-diluted methane/air counterflow flames at elevated pressures via TEM imaging
Amin HMF, Bennett A, Roberts WL |
| 100 - 110 |
Further study on wall film effects and flame quenching under engine thermodynamic conditions
Tao MY, Zhao P, VanDerWege B, Iyer C, Ge HW |
| 111 - 125 |
The structural evolution and fragmentation of coal-derived soot and carbon black during high-temperature air oxidation
Chang QH, Gao R, Gao M, Yu GS, Wang FC |
| 126 - 135 |
Simulation of primary particle size distributions in a premixed ethylene stagnation flame
Hou DY, Lindberg CS, Wang MD, Manuputty MY, You XQ, Kraft M |
| 136 - 145 |
Density functional theory study of the heterogenous interaction between char-bound nitrogen and CO2 during oxy-fuel coal combustion
Zhao SH, Sun RY, Bi XL, Pan XJ, Su Y |
| 146 - 160 |
Analysis of the final stage of flame acceleration and the onset of detonation in a cylindrical tube using high-speed stereoscopic imaging
Krivosheyev P, Penyazkov O, Sakalou A |
| 161 - 173 |
Shock tube/laser absorption measurements of the pyrolysis of JP-10 fuel
Johnson SE, Davidson DF, Hanson RK |
| 174 - 184 |
Quantifying uncertainty in kinetic simulation of engine autoignition
Cheng S, Yang Y, Brear MJ, Frenklach M |
| 185 - 193 |
Demonstration of knock intensity mitigation through dielectric barrier discharge reformation in an RCEM
Takahashi E, Nagano Y, Kitagawa T, Nishioka M, Nakamura T, Nakano M |
| 194 - 205 |
CO-concentration and temperature measurements in reacting CH4/O-2 mixtures doped with diethyl ether behind reflected shock waves
He D, Shi L, Nativel D, Herzler J, Fikri M, Schulz C |
| 206 - 222 |
Towards a method of estimating out-of-plane effects on measurements of turbulent flame dynamics
Tyagi A, O'Connor J |
| 223 - 231 |
Sub-particle scale study on the melting behavior of Zhundong coal ash based on the heterogeneous distribution of elements
Zhou ZH, Shen ZJ, Liang QF, Liu HF |
| 232 - 244 |
Auto-ignition of thermally thick PMMA exposed to linearly decreasing thermal radiation
Gong JH, Zhai CJ, Cao JL, Li J, Yang LZ, Zhou Y, Wang ZR |
| 245 - 255 |
Experimental study of the effect of ullage height on flame characteristics of pool fires
Liu CX, Ding L, Jangi M, Ji J, Yu LX, Wan HX |
| 256 - 270 |
Propagation of premixed flames in the presence of Darrieus-Landau and thermal diffusive instabilities
Creta F, Lapenna PE, Lamioni R, Fogla N, Matalon M |
| 271 - 279 |
Role of dimethyl ether in incipient soot formation in premixed ethylene flames
Li ZP, Liu P, Zhang P, Wang Y, He H, Chung SH, Roberts WL |
| 280 - 292 |
Revealing the critical role of radical-involved pathways in high temperature cyclopentanone pyrolysis
Dong XR, Ninnemann E, Ranasinghe DS, Laich A, Greene R, Vasu SS, Green WH |
| 293 - 299 |
High-pressure shock-tube study of the ignition and product formation of fuel-rich dimethoxymethane (DMM)/air and CH4/DMM/air mixtures
Herzler J, Fikri M, Schulz C |
| 300 - 315 |
Effect of inlet and outlet boundary conditions on rotating detonation combustion
Bluemner R, Bohon MD, Paschereit CO, Gutmark EJ |
| 316 - 325 |
A multiscale model of wood pyrolysis in fire to study the roles of chemistry and heat transfer at the mesoscale
Richter F, Rein G |
| 326 - 337 |
Range of "complete" instability of flat flames propagating downward in the acoustic field in combustion tube: Lewis number effect
Dubey AK, Koyama Y, Yoon SH, Hashimoto N, Fujita O |
| 338 - 353 |
Entrainment studies in inverse jet flame port burner
Hariharan V, Mishra DP |
| 354 - 368 |
Investigation into the thermal behavior and FTIR micro-characteristics of re-oxidation coal
Zhu HQ, Zhao HR, Wei HY, Wang W, Wang HR, Li K, Lu XX, Tan B |
| 369 - 384 |
Autoignition behavior of gasoline/ethanol blends at engine-relevant conditions
Cheng S, Kang D, Fridlyand A, Goldsborough SS, Saggese C, Wagnon S, McNenly MJ, Mehl M, Pitz WJ, Vuilleumier D |
| 385 - 397 |
Low pressure flame blowoff of the stagnation region of cast PMMA cylinders in axial mixed convective flow
Marcum JW, Rachow P, Ferkul PV, Olson SL |
| 398 - 411 |
Large eddy simulation of turbulent diffusion jet flames based on novel modifications of flamelet generated manifolds
Zadsirjan S, Tabejamaat S, Abtahizadeh E, van Oijen J |
| 412 - 425 |
A DNS study of the impact of gravity on spherically expanding laminar premixed flames
Berger L, Hesse R, Kleinheinz K, Hegetschweiler MJ, Attili A, Beeckmann J, Linteris GT, Pitsch H |
| 426 - 438 |
Near-limit H-2-O-2-N-2 combustion in nonpremixed counterflow mixing layers
Carpio J, Rajamanickam P, Sanchez AL, Williams FA |
| 439 - 452 |
A comprehensive study of flamelet tabulation methods for pulverized coal combustion in a turbulent mixing layer - Part I: A priori and budget analyses
Wen X, Rieth M, Scholtissek A, Stein OT, Wang HO, Luo K, Kempf AM, Kronenburg A, Fan J, Hasse C |
| 453 - 467 |
A comprehensive study of flamelet tabulation methods for pulverized coal combustion in a turbulent mixing layer-Part II: Strong heat losses and multi-mode combustion
Wen X, Rieth M, Scholtissek A, Stein OT, Wang HO, Luo K, Kronenburg A, Fan JR, Hasse C |
| 468 - 471 |
Laser pulse initiation of RDX-Al and PETN-Al composites explosion
Aduev BP, Nurmukhametov DR, Liskov IY, Tupitsyn AV, Belokurov GM |
| 472 - 484 |
Simulated production of OH, HO2, CH2O, and CO2 during dilute fuel oxidation can predict 1st-stage ignition delays
Buras ZJ, Safta C, Zador J, Sheps L |
