| 1 - 13 |
Combustion of rocket-grade kerosene droplets loaded with graphene nanoplatelets-A search for reasons behind optimum mass loadings
Yadav AK, Nandakumar K, Srivastava A, Chowdhury A |
| 14 - 22 |
Yet another kinetic mechanism for hydrogen combustion
Konnov AA |
| 23 - 30 |
CH3SH conversion in a tubular flow reactor. Experiments and kinetic modelling
Alzueta MU, Pernia R, Abian M, Millera A, Bilbao R |
| 31 - 45 |
Mechanisms of flame extinction and lean blowout of bluff body stabilized flames
Morales AJ, Lasky IM, Geikie MK, Engelmann CA, Ahmed KA |
| 46 - 55 |
Impacts of oxidant characteristics on the ignition of n-propanol-air hydrothermal flames in supercritical water
Reddy SN, Nanda S, Kumar P, Hicks MC, Hegde UG, Kozinski JA |
| 56 - 71 |
Modelling soot formation in a benchmark ethylene stagnation flame with a new detailed population balance model
Hou DY, Lindberg CS, Manuputty MY, You XQ, Kraft M |
| 72 - 82 |
Shock-tube study of dimethyl ether ignition by high-voltage nanosecond discharge
Kosarev IN, Kindysheva SV, Kochetov IV, Starikovskiy AY, Aleksandrov NL |
| 83 - 91 |
Confined flame propagation of Al/PTFE mechanically activated composites
Huston MR, Sippel TR |
| 92 - 104 |
Statistics and topology of local flame-flame interactions in turbulent flames
Tyagi A, Boxx I, Peluso S, O'Connor J |
| 105 - 119 |
The impact of hydrogen enrichment on the flow field evolution in turbulent explosions
Li T, Hampp F, Lindstedt RP |
| 120 - 129 |
Probing the local radiative quenching during the transition from a non-smoking to a smoking laminar coflow ethylene/air non-premixed flame
Bonnety J, Guibaud A, Jalain R, Matynia A, Consalvi JL, Liu FS, Legros G |
| 130 - 142 |
Chemical and nanostructural characteristics of the particulate matter produced by renewable diesel fuel in an automotive diesel engine
Cadrazco M, Santamaria A, Agudelo JR |
| 143 - 156 |
Ignition delay time and H2O measurements during methanol oxidation behind reflected shock waves
Pinzon LT, Mathieu O, Mulvihill CR, Schoegl I, Petersen EL |
| 157 - 169 |
Experimental and kinetic modeling study of ignition characteristics of RP-3 kerosene over low-to-high temperature ranges in a heated rapid compression machine and a heated shock tube
Mao YB, Yu L, Wu ZY, Tao WC, Wang SX, Ruan C, Zhu L, Lu XC |
| 170 - 179 |
Nonlinear mode transition mechanisms of a self-excited Jet A-1 spray flame
Ahn B, Lee J, Jung S, Kim KT |
| 180 - 189 |
An Exponential Integrator with Schur-Krylov Approximation to accelerate combustion chemistry computation
Liu ZG, Consalvi JL, Kong WJ |
| 190 - 203 |
Droplet combustion and sooting characteristics of UCO biodiesel, heating oil and their mixtures under realistic conditions
Muelas A, Remacha P, Ballester J |
| 204 - 216 |
End-gas autoignition behaviors under pressure wave disturbance
Terashima H, Matsugi A, Koshi M |
| 217 - 229 |
Quantitative imaging of nitric oxide concentration in a turbulent n-heptane spray flame
Mulla IA, Godard G, Cabot G, Grisch F, Renou B |
| 230 - 237 |
Combustion characteristics of magnesium borides and their agglomerated particles
Guo Y, Zhou X, Zhang W, Deng L, Du YC, Cheng SC |
| 238 - 246 |
The role of gravity in the asymmetry of flames in narrow combustion chambers
Bioche K, Pieyre A, Ribert G, Richecoeur F, Vervisch L |
| 247 - 254 |
Experimental and kinetic investigation of pyrolysis and oxidation of nitromethane
Weng JJ, Tian ZY, Zhang KW, Ye LL, Liu YX, Wu LN, Yu D, Yang JZ, Cao CC, Zou JB |
| 255 - 264 |
Training convolutional neural networks to estimate turbulent sub-grid scale reaction rates
Lapeyre CJ, Misdariis A, Cazard N, Veynante D, Poinsot T |
| 265 - 278 |
Measurement of the reaction rate of H + O-2 + M -> HO2 + M, for M=Ar, N-2, CO2, at high temperature with a sensitive OH absorption diagnostic
Choudhary R, Girard JJ, Peng YZ, Shao JK, Davidson DF, Hanson RK |
| 279 - 300 |
Large Eddy Simulation of a dual swirl gas turbine combustor: Flame/flow structures and stabilisation under thermoacoustically stable and unstable conditions
Chen ZX, Langella I, Swaminathan N, Stohr M, Meier W, Kolla H |
| 301 - 312 |
An experimental study of turbulent lifted flames at elevated pressures
Guiberti TF, Boyette WR, Masri AR, Roberts WL |
| 313 - 333 |
Fluid dynamic and autoignition characteristics of early fuel sprays using hybrid atomization LES
Shinjo J, Umemura A |
| 334 - 340 |
The Emmons problem: Role of an impermeable leading segment
Li SP, Yao Q, Law CK |
| 341 - 351 |
2,5-Dimethyltetrahydrofuran combustion: Ignition delay times at high and low temperatures, speciation measurements and detailed kinetic modeling
Fenard Y, Song H, Minwegen H, Parab P, Mergulhao CS, Vanhove G, Heufer KA |
| 352 - 361 |
The blue whirl: Boundary layer effects, temperature and OH* measurements
Hariharan SB, Anderson PM, Xiao HH, Gollner MJ, Oran ES |
| 362 - 374 |
Numerical investigation of auto-igniting turbulent lifted CH4/air jet diffusion flames in a vitiated co-flow using a RANS based stochastic multiple mapping conditioning approach
Ghai SK, De S |
| 375 - 385 |
Effect of high-temperature gas flow on ignition of the water-coal fuel particles
Salomatov V, Kuznetsov G, Syrodoy S, Gutareva N |
| 386 - 396 |
Cluster analysis of Al agglomeration in solid propellant combustion
Xiao LQ, Pang WQ, Qin Z, Li JZ, Fu XL, Fan XZ |
| 397 - 406 |
Shock focusing and detonation initiation at a flame front
Xiao HH, Oran ES |
| 407 - 423 |
Effects of CO2 addition on soot formation of ethylene non-premixed flames under oxygen enriched atmospheres
Hoerlle CA, Pereira FM |
