Add to ORKGA complete second-order closure computer program for the investigation of compressible, turbulent, reacting shear layers was developed. The equations for the means and the second order correlations were derived from the time-averaged Navier-Stokes equations and contain third order and higher order correlations, which have to be modeled in terms of the lower-order correlations to close the system of equations. In addition to fluid mechanical turbulence models and parameters used in previous studies of a variety of incompressible and compressible shear flows, a number of additional scalar correlations were modeled for chemically reacting flows, and a typical eddy model developed for the joint probability density function for all the scalars. ...
The objective of this research is to continue our efforts in advancing the state of knowledge in Lar...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
A fully second-order closure model for turbulent reacting flows is suggested based on Favre statisti...
A typical eddy box model for the second-order closure of turbulent, multispecies, reacting flows dev...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
The objective of the proposed research project was the analysis of single point closures based on pr...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
In modeling turbulent reactive flows, Probability Density Function (PDF) methods have an advantage o...
An enhanced diffusion-reaction reaction system (DRS) is proposed as a statistical model for the evol...
Briefs of the 1994 annual progress reports of the Research Fellows and students of the Center for Tu...
Work is continuing primarily in gas phase turbulent mixing and chemical reactions. The liquid phase ...
The application of probability density function (pdf) turbulence models is addressed. For the purpos...
Studies of chemical reactions occurring in turbulent flows are important in the understanding of com...
The objective was the development of a complete second order closure for wall bounded flows, includi...
The objective of this research is to continue our efforts in advancing the state of knowledge in Lar...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
A fully second-order closure model for turbulent reacting flows is suggested based on Favre statisti...
A typical eddy box model for the second-order closure of turbulent, multispecies, reacting flows dev...
A numerical study of three dimensional chemically reacting and non-reacting flowfields is conducted ...
The objective of the proposed research project was the analysis of single point closures based on pr...
A simple reaction rate model is proposed for turbulent diffusion flames in which the reaction rate i...
In modeling turbulent reactive flows, Probability Density Function (PDF) methods have an advantage o...
An enhanced diffusion-reaction reaction system (DRS) is proposed as a statistical model for the evol...
Briefs of the 1994 annual progress reports of the Research Fellows and students of the Center for Tu...
Work is continuing primarily in gas phase turbulent mixing and chemical reactions. The liquid phase ...
The application of probability density function (pdf) turbulence models is addressed. For the purpos...
Studies of chemical reactions occurring in turbulent flows are important in the understanding of com...
The objective was the development of a complete second order closure for wall bounded flows, includi...
The objective of this research is to continue our efforts in advancing the state of knowledge in Lar...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...
This is a continuing effort in both gas phase and liquid phase mixing, chemical reactions and combus...