A general one-equation turbulence model for free shear and wall-bounded flows

This paper presents an adaptive finite element method for solving incompressible turbulent flows using a k-e model of turbulence. Solutions are obtained in primitive variables using a highly accurate quadratic finite element on unstructured grids. A projection error estimator is presented that takes

A nonlinear stress±strain model, derived from the modeled Reynolds stress transport equation, is modi®ed to account for the near wall eects in wall-bounded turbulent ¯ows. Since it is known that wall re¯ection of the turbulent pressure ®eld modi®es the pressure±strain correlation, the approach taken

Scaling laws for wall-bounded turbulence are derived and their properties are analyzed via vanishing-viscosity asymptotics; a comparison of the results with recent experiments shows that the observed scaling law differs significantly from the customary logarithmic law of the wall. The Izakson-Millik