| 1 |
Data driven analysis and prediction of MILD combustion mode
Jigjid K, Tamaoki C, Minamoto Y, Nakazawa R, Inoue N, Tanahashi M
Combustion and Flame, 223, 474, 2021 |
| 2 |
ATOMIZATION MODELING USING SURFACE DENSITY AND STOCHASTIC FIELDS
Ahmed A, Tretola G, Navarro-Martinez S, Vogiatzaki K, Duret B, Reveillon J, Demoulin FX
Atomization and Sprays, 30(4), 239, 2020 |
| 3 |
Analysis of the spray flame structure in a lab-scale burner using Large Eddy Simulation and Discrete Particle Simulation
Paulhiac D, Cuenot B, Riber E, Esclapez L, Richard S
Combustion and Flame, 212, 25, 2020 |
| 4 |
Large Eddy Simulation of soot evolution in turbulent reacting flows: Strain-Sensitive Transport Approach for Polycyclic Aromatic Hydrocarbons
Yang S, Lew JK, Mueller ME
Combustion and Flame, 220, 219, 2020 |
| 5 |
Investigation of a High Karlovitz, High Pressure Premixed Jet Flame with Heat Losses by LES
Gruhlke P, Janbazi H, Wlokas I, Beck C, Kempf AM
Combustion Science and Technology, 192(11), 2138, 2020 |
| 6 |
A large eddy simulation study of cyclones: The effect of sub-models on efficiency and erosion prediction
Tofighian H, Amani E, Saffar-Avval M
Powder Technology, 360, 1237, 2020 |
| 7 |
LARGE EDDY SIMULATIONS ON ASYMMETRICAL ATOMIZATION OF THE ELLIPTICAL JET WITH CAVITATION
Zhang L, Wang Q, Guan W, Cao TY, Duan L, Pachiannan T, He ZX
Atomization and Sprays, 29(2), 177, 2019 |
| 8 |
Investigation on turbulence in the vicinity of liquid-liquid interfaces Large eddy simulation and PIV experiment
Saeedipour M, Puttinger S, Doppelhammer N, Pirker S
Chemical Engineering Science, 198, 98, 2019 |
| 9 |
Mechanism of small bubble breakup in an unbaffled stirred vessel
Yamamoto T, Fang Y, Komarov SV
Chemical Engineering Science, 197, 26, 2019 |
| 10 |
Large Eddy Simulation of soot evolution in turbulent reacting flows: Presumed subfilter PDF model for soot-turbulence-chemistry interactions
Yang S, Lew JK, Mueller ME
Combustion and Flame, 209, 200, 2019 |
