Add to ORKGTwo-dimensional numerical simulations of a temporally evolving mixing layer with an exothermic infinitely fast diffusion flame between two unmixed reactants have been carried out in the limit of zero Mach number to study the effect of the heat release on the early stages of the evolution of the flow. Attention has been directed to relatively large values of the oxidizer-to-fuel mass stoichiometric ratio typical of hydrocarbon flames, and initial vorticity distributions thicker than the temperature and species distributions have been chosen to mimic the situation at the outlet of a jet. The results show that, during the stages of the evolution covered by the present simulations, enhancement of combustion occurs by local stretching of the fla...
Turbulent mixing and combustion are investigated in a gaseous shear layer formed between two streams...
[出版社版]The evolution of two- and three-dimensional vortical structures in an initially nonpremixed te...
Flame-vortex interaction is a canonical configuration that contains the fundamental element of flow,...
A direct numerical simulation of high speed reacting and non-reacting flows for H2-air systems is pr...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between t...
The effects of compressibility, chemical reaction exothermicity, and non-equilibrium chemical modeli...
A numerical study of the stability of compressible mixing layers in which a diffusion flame is embed...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between f...
The results of an inviscid spatial calculation for a compressible reacting mixing layer are reported...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
The role of streamwise-spanwise vorticity interactions that occur in turbulent shear flows on flame/...
A fully second-order closure model for turbulent reacting flows is suggested based on Favre statisti...
Direct numerical simulation data obtained from two statistically stationary, one-dimensional, planar...
Turbulent mixing and combustion are investigated in a gaseous shear layer formed between two streams...
[出版社版]The evolution of two- and three-dimensional vortical structures in an initially nonpremixed te...
Flame-vortex interaction is a canonical configuration that contains the fundamental element of flow,...
A direct numerical simulation of high speed reacting and non-reacting flows for H2-air systems is pr...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between t...
The effects of compressibility, chemical reaction exothermicity, and non-equilibrium chemical modeli...
A numerical study of the stability of compressible mixing layers in which a diffusion flame is embed...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between f...
The results of an inviscid spatial calculation for a compressible reacting mixing layer are reported...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
Direct Numerical Simulation realizations were created of a temporal mixing layer in which combustion...
The role of streamwise-spanwise vorticity interactions that occur in turbulent shear flows on flame/...
A fully second-order closure model for turbulent reacting flows is suggested based on Favre statisti...
Direct numerical simulation data obtained from two statistically stationary, one-dimensional, planar...
Turbulent mixing and combustion are investigated in a gaseous shear layer formed between two streams...
[出版社版]The evolution of two- and three-dimensional vortical structures in an initially nonpremixed te...
Flame-vortex interaction is a canonical configuration that contains the fundamental element of flow,...