| 1 |
A detailed kinetic study on oxidation of benzyl alcohol
Zhou L, Yu D, Wang Z, Cheng LJ, Jin ZH, Weng JJ, Yang JZ, Tian ZY
Combustion and Flame, 207, 10, 2019 |
| 2 |
Numerical study of water effects on the laminar burning velocity of methanol
Liang K
Biomass & Bioenergy, 108, 307, 2018 |
| 3 |
A chemical kinetic mechanism for the low- and intermediate-temperature combustion of Polyoxymethylene Dimethyl Ether 3 (PODE3)
He TJ, Wang Z, You XQ, Liu HY, Wang YD, Li XY, He X
Fuel, 212, 223, 2018 |
| 4 |
Laminar burning velocity of 2-methylfuran-air mixtures at elevated pressures and temperatures: Experimental and modeling studies
Xu CS, Zhong AH, Wang HY, Jiang CZ, Sahu A, Zhou WH, Wang CM
Fuel, 231, 215, 2018 |
| 5 |
High-temperature oxidation kinetics of iso-octane/n-butanol blends-air mixture
Li XT, Hu EJ, Meng X, Lu X, Huang ZH
Energy, 133, 443, 2017 |
| 6 |
A component library framework for deriving kinetic mechanisms for multi-component fuel surrogates: Application for jet fuel surrogates
Narayanaswamy K, Pitsch H, Pepiot P
Combustion and Flame, 165, 288, 2016 |
| 7 |
A wide range kinetic modeling study of PAH formation from liquid transportation fuels combustion
Keita M, Nicolle A, El Bakali A
Combustion and Flame, 174, 50, 2016 |
| 8 |
Development of multi-component diesel surrogate fuel models - Part II: Validation of the integrated mechanisms in 0-D kinetic and 2-D CFD spray combustion simulations
Poon HM, Pang KM, Ng HK, Gan S, Schramm J
Fuel, 181, 120, 2016 |
| 9 |
A simplified mechanism for the prediction of the ion current during methane oxidation in engine-like conditions
Rao R, Honnery D
Combustion and Flame, 162(7), 2928, 2015 |
| 10 |
Impact of SO2 on the formation of soot from ethylene pyrolysis
Abian M, Millera A, Bilbao R, Alzueta MU
Fuel, 159, 550, 2015 |
