| 1 |
The effect of thermal diffusion on stabilization of premixed flames
Vance FH, de Goey P, van Oijen JA
Combustion and Flame, 216, 45, 2020 |
| 2 |
Extreme role of preferential diffusion in turbulent flame propagation
Yang S, Saha A, Liang WK, Wu FJ, Law CK
Combustion and Flame, 188, 498, 2018 |
| 3 |
Stabilization of ultra-lean hydrogen enriched inverted flames behind a bluff-body and the phenomenon of anomalous blow-off
Jimenez C, Michaels D, Ghoniem AF
Combustion and Flame, 191, 86, 2018 |
| 4 |
Laminar flame speeds of stratified methane, propane, and n-heptane flames
Shi X, Chen JY, Chen YL
Combustion and Flame, 176, 38, 2017 |
| 5 |
Numerical analysis and model development for laminar flame speed of stratified methane/air mixtures
Shi X, Chen JY
Combustion and Flame, 184, 233, 2017 |
| 6 |
LES of Delft Jet-in-Hot Coflow burner to investigate the effect of preferential diffusion on autoignition of CH4/H-2 flames
Abtahizadeh E, de Goey P, van Oijen J
Fuel, 191, 36, 2017 |
| 7 |
Asymptotic analysis of steady two-reactant premixed flames using a step-function reaction rate model
Echekki T
Combustion and Flame, 172, 280, 2016 |
| 8 |
Structures of Methane-Air and Propane-Air Turbulent Premixed Bunsen Flames
Furukawa J, Yoshida Y, Williams FA
Combustion Science and Technology, 188(9), 1538, 2016 |
| 9 |
High hydrogen content syngas fuel burning in lean premixed spherical flames at elevated pressures: Effects of preferential diffusion
Dinesh KKJR, Shalaby H, Luo KH, van Oijen JA, Thevenin D
International Journal of Hydrogen Energy, 41(40), 18231, 2016 |
| 10 |
State-of-the-art in premixed combustion modeling using flamelet generated manifolds
van Oijen JA, Donini A, Bastiaans RJM, Boonkkamp JHMT, de Goey LPH
Progress in Energy and Combustion Science, 57, 30, 2016 |
