11 |
Transported Joint Probability Density Function Simulation of Turbulent Spray Flames Combined with a Spray Flamelet Model Using a Transported Scalar Dissipation Rate Hu Y, Olguin H, Gutheil E Combustion Science and Technology, 189(2), 322, 2017 |
12 |
Direct comparison of PDF and scalar dissipation rates between LEM simulations and experiments for turbulent, premixed methane air flames Tsui HP, Kamal MM, Hochgreb S, Bushe WK Combustion and Flame, 165, 208, 2016 |
13 |
Edge flame structure in a turbulent lifted flame: A direct numerical simulation study Karami S, Hawkes ER, Talei M, Chen JH Combustion and Flame, 169, 110, 2016 |
14 |
Statistical Behavior of Scalar Dissipation Rate in Head-On Quenching of Turbulent Premixed Flames: A Direct Numerical Simulation Analysis Lai JW, Chakraborty N Combustion Science and Technology, 188(2), 250, 2016 |
15 |
A Priori Assessment of Scalar Dissipation Rate Closure for Large Eddy Simulations of Turbulent Premixed Combustion Using a Detailed Chemistry Direct Numerical Simulation Database Gao Y, Minamoto Y, Tanahashi M, Chakraborty N Combustion Science and Technology, 188(9), 1398, 2016 |
16 |
A Priori Direct Numerical Simulation Modeling of Scalar Dissipation Rate Transport in Head-On Quenching of Turbulent Premixed Flames Lai JW, Chakraborty N Combustion Science and Technology, 188(9), 1440, 2016 |
17 |
Numerical investigation of two-phase flame structures in a simplified coal jet flame Bai Y, Luo K, Qiu KZ, Fan JR Fuel, 182, 944, 2016 |
18 |
DNS analysis of small-scale turbulence-scalar interactions in evaporating two-phase flows Bouali Z, Duret B, Demoulin FX, Mura A International Journal of Multiphase Flow, 85, 326, 2016 |
19 |
An evaluation of the assumptions of the flamelet model for diesel combustion modeling Ameen MM, Magi V, Abraham J Chemical Engineering Science, 138, 403, 2015 |
20 |
Evaluation of scalar dissipation rate sub-models for modeling unsteady reacting jets in engines Ameen MM, Abraham J Chemical Engineering Science, 127, 334, 2015 |