Add to ORKGA numerical study of computations in backward-facing steps with flow separation and reattachment, using the Reynolds stress closure is presented. The highlight of this study is the improvement of the Reynold-stress model (RSM) by modifying the diffusive transport of the Reynolds stresses through the formulation, solution and subsequent incorporation of the transport equations of the third moments, bar-u(i)u(j)u(k), into the turbulence model. The diffusive transport of the Reynolds stresses, represented by the gradients of the third moments, attains greater significance in recirculating flows. The third moments evaluated by the development and solution of the complete transport equations are superior to those obtained by existing algebraic c...
Theoretical models are developed and numerical studies conducted on various types of flows including...
The advances made in second-order near-wall turbulence closures are summarized. All closures examine...
Transport characteristics of the turbulent kinetic energy, k, and the shear stream, bar(-uv), were s...
A hybrid model of the Reynolds stress closure was developed. This model was tested for various sizes...
The numerical study of the Reynolds-stress turbulence closure for separating, reattaching, recircula...
The roles of pressure-strain and turbulent diffusion models in the numerical calculation of turbulen...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
A numerical method is presented to solve the three-dimensional Navier-Stokes equations in combinatio...
A study is made to improve the predictions of Reynolds stresses in backward facing step flows, throu...
This report describes two projects. Firstly, a Reynolds stress closure for near-wall turbulence is d...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
A reference DNS database is presented, which includes third- and fourth-order moment budgets for uns...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
Performance tests of the third-order turbulence closure for predictions of separating and recirculat...
Theoretical models are developed and numerical studies conducted on various types of flows including...
The advances made in second-order near-wall turbulence closures are summarized. All closures examine...
Transport characteristics of the turbulent kinetic energy, k, and the shear stream, bar(-uv), were s...
A hybrid model of the Reynolds stress closure was developed. This model was tested for various sizes...
The numerical study of the Reynolds-stress turbulence closure for separating, reattaching, recircula...
The roles of pressure-strain and turbulent diffusion models in the numerical calculation of turbulen...
The improvement of capabilities for computer simulation of turbulent recirculating flows was investi...
Separation and reattachment of turbulent shear layers is observed in many important engineering appl...
A numerical method is presented to solve the three-dimensional Navier-Stokes equations in combinatio...
A study is made to improve the predictions of Reynolds stresses in backward facing step flows, throu...
This report describes two projects. Firstly, a Reynolds stress closure for near-wall turbulence is d...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
A reference DNS database is presented, which includes third- and fourth-order moment budgets for uns...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
Performance tests of the third-order turbulence closure for predictions of separating and recirculat...
Theoretical models are developed and numerical studies conducted on various types of flows including...
The advances made in second-order near-wall turbulence closures are summarized. All closures examine...
Transport characteristics of the turbulent kinetic energy, k, and the shear stream, bar(-uv), were s...