| 1 - 11 |
Study on catalytic pyrolysis mechanism of seaweed polysaccharide monomer
Yuan C, Jiang D, Wang S, Barati B, Gong X, Cao B, Zhang RP, Zhang C, Odey EA |
| 12 - 17 |
Thermo-physical Properties and Combustion Wave Aspects of RDX Contain Low Aluminium Composite Propellant
Kalal RK, Jangid SK, Shekhar H, Alegaonkar PS, Kumar A |
| 18 - 18 |
Effect of temperature on soot inception in highly controlled counterflow ethylene diffusion flames (vol 192, pg 283, 2018)
Gleason K, Carbone F, Gomez A |
| 19 - 26 |
Autoignition studies of NH3/CH4 mixtures at high pressure
Dai LM, Gersen S, Glarborg P, Mokhov A, Levinsky H |
| 27 - 27 |
Detailed kinetic modeling of dimethoxymethane. Part I: Ab initio thermochemistry and kinetics predictions for key reactions (vol 189, pg 433, 2018)
Kopp WA, Kroger LC, Dontgen M, Jacobs S, Burke U, Curran HJ, Heufer KA, Leonhard K |
| 28 - 41 |
Revisiting diacetyl and acetic acid flames: The role of the ketene plus OH reaction
Savchenkova AS, Semenikhin AS, Chechet IV, Matveev SG, Mebel AM, Konnov AA |
| 42 - 56 |
The effect of H2O on the oxy-fuel combustion of a bituminous coal char particle in a fluidized bed: Experiment and modeling
Bu CS, Gomez-Barea A, Leckner B, Wang XY, Zhang JB, Piao GL |
| 57 - 74 |
A comprehensive kinetic model for dimethyl ether and dimethoxymethane oxidation and NOx interaction utilizing experimental laminar flame speed measurements at elevated pressure and temperature
Shrestha KP, Eckart S, Elbaz AM, Giri BR, Fritsche C, Seidel L, Roberts WL, Krause H, Mauss F |
| 75 - 83 |
CO2-mediated sulfur evolution chemistry of pyrite oxidation during oxy-fuel combustion
Yang YJ, Liu J, Wang Z, Liu F, Ding JY |
| 84 - 97 |
Development of a skeletal surrogate mechanism for emulating combustion characteristics of diesel from direct coal liquefaction
Fang XY, Huang XY, Chen WK, Qiao XQ, Ju DH |
| 98 - 100 |
Flame propagation through a spatially periodic shear flow: Extinction vs. transition to detonation
Kagan L, Sivashinsky G |
| 101 - 108 |
Laminar flame speeds of methane/air mixtures at engine conditions: Performance of different kinetic models and power-law correlations
Wang YQ, Movaghar A, Wang ZY, Liu ZF, Sun WT, Egolfopoulos FN, Chen Z |
| 109 - 120 |
Impact of pressure-based HACA rates on soot formation in varying-pressure coflow laminar diffusion flames
Mansouri A, Zimmer L, Dworkin SB, Eaves NA |
| 121 - 133 |
Experimental study of high temperature oxidation of dimethyl ether, n-butanol and methane
Bystrov N, Emelianov A, Eremin A, Loukhovitski B, Sharipov A, Yatsenko P |
| 134 - 149 |
Quantification of fuel chemistry effects on burning modes in turbulent premixed flames
Hampp F, Lindstedt RP |
| 150 - 167 |
Flamelet tabulation methods for SOx formation in pulverized solid fuel combustion
Wen X, Debiagi P, Hasse C |
| 168 - 178 |
Effect of sodium chloride on the evolution of size, mixing state, and light absorption of soot particles from a smoking laminar diffusion flame
Kazemimanesh M, Kuang C, Kostiuk LW, Olfert JS |
| 179 - 188 |
Features of hydrogen and deuterium ignition over noble metals at low pressures
Rubtsov NM, Tsvetkov GI, Chernysh VI, Troshin KY |
| 189 - 204 |
Combustion of propanol isomers: Experimental and kinetic modeling study
Capriolo G, Konnov AA |
| 205 - 217 |
Derivation and analysis of two-dimensional composition space equations for multi-regime combustion using orthogonal coordinates
Scholtissek A, Popp S, Hartl S, Olguin H, Domingo P, Vervisch L, Hasse C |
| 218 - 228 |
Impact of MWCNT/Al on the combustion behavior of hydroxyl ammonium nitrate (HAN)-based electrically controlled solid propellant
Bao LR, Zhang W, Zhang XJ, Chen YY, Chen SH, Wu LZ, Shen RQ, Ye YH |
| 229 - 233 |
Evaluation of non-ideal piston stopping effects on the "adiabatic core" and ignition delay time simulation in rapid compression machines
Wu YT, Tang CL, Yang M, Wang QD, Huang ZH, Zhao P, Curran HJ |
| 234 - 246 |
Combustion dynamics of lean fully-premixed hydrogen-air flames in a mesoscale multinozzle array
Lee T, Kim KT |
| 247 - 259 |
Influence of the chemical modeling on the quenching limits of gaseous detonation waves confined by an inert layer
Taileb S, Melguizo-Gavilanes J, Chinnayya A |
| 260 - 275 |
A mixture fraction space model for counterflow diffusion flames with incident electric field
Di Renzo M, Pascazio G |
