Add to ORKGA hybrid model of the Reynolds stress closure was developed. This model was tested for various sizes of step flow, and the computed Reynolds stress behavior was compared with experimental data. The third order closure model was reviewed. Transport equations for the triple velocity correlation were developed and implemented in a numerical code to evaluate the behavior of the triple velocity products in various regions of the flow field including recirculating, reattaching, and redeveloping flow domains
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
This report outlines the development of a general purpose aerodynamic solver for compressible turbul...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
A numerical study of computations in backward-facing steps with flow separation and reattachment, us...
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...
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...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
Full seven-equation Reynolds stress turbulence models are a relatively new and promising tool for to...
A full Reynolds-stress closure that is capable of describing the flow all the way to the wall was fo...
The advances made in second-order near-wall turbulence closures are summarized. All closures examine...
Revised versions of Lag methodology Reynolds-stress and triple product models are applied to accepte...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
Theoretical models are developed and numerical studies conducted on various types of flows including...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
This report outlines the development of a general purpose aerodynamic solver for compressible turbul...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...
A numerical study of computations in backward-facing steps with flow separation and reattachment, us...
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...
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...
Analytical methods for the development of Reynolds stress models in turbulence are reviewed in detai...
Full seven-equation Reynolds stress turbulence models are a relatively new and promising tool for to...
A full Reynolds-stress closure that is capable of describing the flow all the way to the wall was fo...
The advances made in second-order near-wall turbulence closures are summarized. All closures examine...
Revised versions of Lag methodology Reynolds-stress and triple product models are applied to accepte...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
Theoretical models are developed and numerical studies conducted on various types of flows including...
A length-scale correction term is developed for the Speziale–Sarkar–Gatski/Launder–Reece–Rodi–ω Reyn...
This report outlines the development of a general purpose aerodynamic solver for compressible turbul...
A detailed review of recent developments in Reynolds stress modeling for incompressible turbulent sh...