Add to ORKGA direct numerical simulation of high speed reacting and non-reacting flows for H2-air systems is presented. The calculations are made for a convective Mach number of 0.38 with hyperbolic tangent initial profile and finite rate chemical reactions. A higher-order numerical method is used in time accurate mode to time advance the solution to a statistical steady state. About 600 time slices of all the variables are then stored for statistical analysis. It is shown that most of the problems of high-speed combustion with air are characterized by relatively weak heat release. The present study shows that: (1) the convective speed is reduced by heat release by about 10 percent at this convective Mach number M(sub c) = 0.38; (2) the variation of t...
The effects of compressibility, chemical reaction exothermicity, and non-equilibrium chemical modeli...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
The influence of high-enthalpy effects on hypersonic turbulent boundary layers is investigated by me...
This computational study is a direct simulation calculation of high speed reacting and non-reacting ...
Two-dimensional numerical simulations of a temporally evolving mixing layer with an exothermic infin...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between t...
A computational study of a nonreacting high-speed mixing layer is performed. A higher order algorith...
The hypervelocity two-dimensional reacting supersonic mixing layer experiments of Erdos et al. with ...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
The hypervelocity two-dimensional reacting supersonic mixing layer experiments of Erdos et al. with ...
A numerical study of the stability of compressible mixing layers in which a diffusion flame is embed...
The capability of empirical combustion models to predict the mean reaction rate for supersonic mixin...
The capability of empirical combustion models to predict the mean reaction rate for supersonic mixin...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
The effects of compressibility, chemical reaction exothermicity, and non-equilibrium chemical modeli...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
The influence of high-enthalpy effects on hypersonic turbulent boundary layers is investigated by me...
This computational study is a direct simulation calculation of high speed reacting and non-reacting ...
Two-dimensional numerical simulations of a temporally evolving mixing layer with an exothermic infin...
The effects of heat release were studied in a planar, gaseous reacting mixing layer formed between t...
A computational study of a nonreacting high-speed mixing layer is performed. A higher order algorith...
The hypervelocity two-dimensional reacting supersonic mixing layer experiments of Erdos et al. with ...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
Experiments were conducted to study the effects of heat release in a planar, gas-phase, reacting mix...
The hypervelocity two-dimensional reacting supersonic mixing layer experiments of Erdos et al. with ...
A numerical study of the stability of compressible mixing layers in which a diffusion flame is embed...
The capability of empirical combustion models to predict the mean reaction rate for supersonic mixin...
The capability of empirical combustion models to predict the mean reaction rate for supersonic mixin...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
The effects of compressibility, chemical reaction exothermicity, and non-equilibrium chemical modeli...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
The influence of high-enthalpy effects on hypersonic turbulent boundary layers is investigated by me...