Formulation of the k-omega Turbulence Model Revisited

This paper presents a reformulated version of the author'sk-ω 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-ω 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.

[1]  P. Bearman Some measurements of the distortion of turbulence approaching a two-dimensional bluff body , 1972, Journal of Fluid Mechanics.

[2]  D. Wilcox Reassessment of the scale-determining equation for advanced turbulence models , 1988 .

[3]  T. J. Coakley,et al.  Turbulence modeling methods for the compressible Navier-Stokes equations , 1983 .

[4]  A. Hellsten,et al.  New Advanced k-w Turbulence Model for High-Lift Aerodynamics , 2004 .

[5]  P. S. Klebanoff,et al.  Characteristics of turbulence in a boundary layer with zero pressure gradient , 1955 .

[6]  T. Coakley,et al.  TURBULENCE MODELING VALIDATION , 1997 .

[7]  PHYSICS AND COMPUTATIONS OF FLOWS WITH ADVERSE PRESSURE GRADIENTS , 1999 .

[8]  Three-dimensional Structure of Straight and Curved Plane Wakes , 1995 .

[9]  D. Dolling,et al.  Computation of turbulent, separated, unswept compression ramp interactions , 1992 .

[10]  D. A. Johnson,et al.  An investigation of transonic turbulent boundary layer separation generated on an axisymmetric flow model , 1979 .

[11]  Joan G. Moore,et al.  Realizability in two-equation turbulence models , 1999 .

[12]  K Wieghardt,et al.  On the turbulent friction layer for rising pressure , 1951 .

[13]  William Z. Strang,et al.  Validation of several Reynolds-averaged turbulence models in a 3-D unstructured grid code , 2000 .

[14]  Ridha Abid,et al.  A critical evaluation of two-equation models for near wall turbulence , 1990 .

[15]  B. Stratford An experimental flow with zero skin friction throughout its region of pressure rise , 1959, Journal of Fluid Mechanics.

[16]  P. Saffman,et al.  A model for inhomogeneous turbulent flow , 1970, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[17]  Gary S. Settles,et al.  Details of a Shock-Separated Turbulent Boundary Layer at a Compression Corner , 1976 .

[18]  D. C. Wilcox,et al.  Turbulence-Model Predictions for Turbulent Boundary Layers , 1974 .

[19]  S. Dash,et al.  TURBULENCE MODEL UNIFICATION AND ASSESSMENT FOR HIGH-SPEED AEROPROPULSIVE FLOWS* , 2001 .

[20]  P. Bradshaw Calculation of boundary-layer development using the turbulent energy equation , 1967, Journal of Fluid Mechanics.