Add to ORKGThe purposes of the present article are to remind practitioners why the usual textbook approaches may not be appropriate for treating gas flows heated from the surface with large heat fluxes and to review the successes of some recent applications of turbulence models to this case. Simulations from various turbulence models have been assessed by comparison to the measurements of internal mean velocity and temperature distributions by Shehata for turbulent, laminarizing and intermediate flows with significant gas property variation. Of about fifteen models considered, five were judged to provide adequate predictions
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
The first part of this work presents a comparison of predictions obtained with several two-equation ...
For dominant forced convection with significant gas property variation, even in low Mach number flow...
ABSTRACT A two-equation k-ω model is used to model a strongly heated, low-Mach number gas flowing up...
Numerical simulations of geometrical configurations similar to those present in the internal cooling...
Numerical simulations of geometrical configurations similar to those present in the internal cooling...
Numerical simulations of geometrical congurations similar to those present in the internal cooling d...
Measurements of mean velocity and mean temperature fields and wall parameters for air flowing in a s...
The well-stirred assumption with surface-averaged convection coefficients is commonly employed by bu...
As part of a series of investigations of the relative rates of transfer of heat and momentum in a tu...
Results from a study to assess the accuracy of turbulent heating and skin friction prediction techni...
The present study deals with the assessment of different turbulence models for heated wall jet flow....
The surface renewal model of wall turbulence is coupled with the classical eddy diffusivity/mixing l...
The compressible, viscous, turbulent gas expansion flow behind an accelerating projectile moving in ...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
The first part of this work presents a comparison of predictions obtained with several two-equation ...
For dominant forced convection with significant gas property variation, even in low Mach number flow...
ABSTRACT A two-equation k-ω model is used to model a strongly heated, low-Mach number gas flowing up...
Numerical simulations of geometrical configurations similar to those present in the internal cooling...
Numerical simulations of geometrical configurations similar to those present in the internal cooling...
Numerical simulations of geometrical congurations similar to those present in the internal cooling d...
Measurements of mean velocity and mean temperature fields and wall parameters for air flowing in a s...
The well-stirred assumption with surface-averaged convection coefficients is commonly employed by bu...
As part of a series of investigations of the relative rates of transfer of heat and momentum in a tu...
Results from a study to assess the accuracy of turbulent heating and skin friction prediction techni...
The present study deals with the assessment of different turbulence models for heated wall jet flow....
The surface renewal model of wall turbulence is coupled with the classical eddy diffusivity/mixing l...
The compressible, viscous, turbulent gas expansion flow behind an accelerating projectile moving in ...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
This paper presents a novel methodology for improving eddy viscosity models in predicting wall-bound...
The first part of this work presents a comparison of predictions obtained with several two-equation ...