Add to ORKGA slip velocity method for 2-D incompressible turbulent boundary layers was presented in AIAA Paper 88-0137. The inner part of the boundary layer was characterized by a law of the wall and a law of the wake, and the outer part was characterized by an arbitrary eddy viscosity model. In the present study for compressible flows, only a law of the wall is considered. The problem of 2-D compressible flow is treated first; then the extension to 3-D flow is addressed. A formulation for primitive variables is presented
If over the ‘outer’ region/ of the boundary layer, where the mean velocity varies but little from i...
A quadratic form in the mean velocity for the turbulent shear stress is presented. It is expressed a...
A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field...
Equations and closure methods for compressible turbulent boundary layers are discussed. Flow phenome...
The analysis uses a compressibility transformation and utilizes higher order closure rules to comple...
Compressibility transformation properties and high speed turbulent boundary layer flow with mass tra...
A computer program for calculating three dimensional compressible laminar and turbulent boundary lay...
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
Calculation of compressible turbulent boundary layers with pressure gradients and heat transfe
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
A very general method for calculating compressible three-dimensional laminar and turbulent boundary ...
The development of an invariant model designed expressly for the computation of shear flows is discu...
Evaluation of turbulent shear models and prediction of compressible turbulent boundary layers by met...
A modified form of the wall-wake profile which is applicable to flows with heat transfer is presente...
The method of matched asymptotic expansion was employed to identify the various subregions in three ...
If over the ‘outer’ region/ of the boundary layer, where the mean velocity varies but little from i...
A quadratic form in the mean velocity for the turbulent shear stress is presented. It is expressed a...
A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field...
Equations and closure methods for compressible turbulent boundary layers are discussed. Flow phenome...
The analysis uses a compressibility transformation and utilizes higher order closure rules to comple...
Compressibility transformation properties and high speed turbulent boundary layer flow with mass tra...
A computer program for calculating three dimensional compressible laminar and turbulent boundary lay...
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
Calculation of compressible turbulent boundary layers with pressure gradients and heat transfe
An analysis of the incompressible turbulent boundary layer, developing under the combined effects of...
A very general method for calculating compressible three-dimensional laminar and turbulent boundary ...
The development of an invariant model designed expressly for the computation of shear flows is discu...
Evaluation of turbulent shear models and prediction of compressible turbulent boundary layers by met...
A modified form of the wall-wake profile which is applicable to flows with heat transfer is presente...
The method of matched asymptotic expansion was employed to identify the various subregions in three ...
If over the ‘outer’ region/ of the boundary layer, where the mean velocity varies but little from i...
A quadratic form in the mean velocity for the turbulent shear stress is presented. It is expressed a...
A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field...