| 1 |
Influence of flame-holder temperature on the acoustic flame transfer functions of a laminar flame
Mejia D, Miguel-Brebion M, Ghani A, Kaiser T, Duchaine F, Selle L, Poinsot T
Combustion and Flame, 188, 5, 2018 |
| 2 |
Prediction of flame structure and pollutant formation of Sandia flame D using Large Eddy Simulation with direct integration of chemical kinetics
Jaravel T, Riber E, Cuenot B, Pepiot P
Combustion and Flame, 188, 180, 2018 |
| 3 |
A multipurpose reduced mechanism for ethanol combustion
Millan-Merino A, Fernandez-Tarrazo E, Sanchez-Sanz M, Williams FA
Combustion and Flame, 193, 112, 2018 |
| 4 |
Including real fuel chemistry in LES of turbulent spray combustion
Felden A, Esclapez L, Riber E, Cuenot B, Wang H
Combustion and Flame, 193, 397, 2018 |
| 5 |
Impact of direct integration of Analytically Reduced Chemistry in LES of a sooting swirled non-premixed combustor
Felden A, Riber E, Cuenot B
Combustion and Flame, 191, 270, 2018 |
| 6 |
Influence of chemical schemes, numerical method and dynamic turbulent combustion modeling on LES of premixed turbulent flames
Rochette B, Collin-Bastiani F, Gicquel L, Vermorel O, Veynante D, Poinsot T
Combustion and Flame, 191, 417, 2018 |
| 7 |
Extension of a wide-range three-step hydrogen mechanism to syngas
Boivin P, Williams FA
Combustion and Flame, 196, 85, 2018 |
| 8 |
Automatic reduction and optimisation of chemistry for turbulent combustion modelling: Impact of the canonical problem
Jaouen N, Vervisch L, Domingo P, Ribert G
Combustion and Flame, 175, 60, 2017 |
| 9 |
A multi-timescale and correlated dynamic adaptive chemistry and transport (CO-DACT) method for computationally efficient modeling of jet fuel combustion with detailed chemistry and transport
Sun WQ, Ju YG
Combustion and Flame, 184, 297, 2017 |
| 10 |
The Computational Singular Perturbation/Perfectly Stirred Reactor Approach in Reduced Chemistry of Premixed Ethanol Combustion
Fratalocchi V, Kok JBW
Combustion Science and Technology, 189(10), 1659, 2017 |
