David C. Wilcox scite author profile

This paper presents a reformulated version of the author's k-! model of turbulence. Revisions include the addition of just one new closure coefficient and an adjustment to the dependence of eddy viscosity on turbulence properties. The result is a significantly improved model that applies to both boundary layers and free shear flows and that has very little sensitivity to finite freestream boundary conditions on turbulence properties. The improvements to the k-! model facilitate a significant expansion of its range of applicability. The new model, like preceding versions, provides accurate solutions for mildly separated flows and simple geometries such as that of a backward-facing step. The model's improvement over earlier versions lies in its accuracy for even more complicated separated flows. This paper demonstrates the enhanced capability for supersonic flow into compression corners and a hypersonic shock-wave/ boundary-layer interaction. The excellent agreement is achieved without introducing any compressibility modifications to the turbulence model.

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Formulation of the k-omega Turbulence Model Revisited

Wilcox¹

2007

159

167

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Comparison of two-equation turbulence models for boundary layers with pressure gradient

Wilcox¹

1993

AIAA Journal

266

104

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Turbulence and Transition Modeling for High-Speed Flows

Wilcox¹

1993

135

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David C. Wilcox

Reassessment of the scale-determining equation for advanced turbulence models

Formulation of the k-w Turbulence Model Revisited

Formulation of the k-omega Turbulence Model Revisited

Comparison of two-equation turbulence models for boundary layers with pressure gradient

Turbulence and Transition Modeling for High-Speed Flows

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