A simple eddy viscosity formulation for turbulent boundary layers near smooth walls

Abstract

The aim of this study is to improve the prediction of near-wall mean streamwise velocity profile U+ by using a simple method. The U+ profile is obtained by solving the momentum equation which is written as an ordinary differential equation. An eddy viscosity formulation based on a near-wall turbulent kinetic energy k+ function (R. Absi, Analytical solutions for the modeled k-equation, ASME J. Appl. Mech. 75, 044501, 2008) and the van Driest mixing length equation (E.R. van Driest, On turbulent flow near a wall, J. Aero. Sci. 23, 1007, 1956) is used. The parameters obtained from the k+ profiles are used for the computation of U+ (variables with the superscript of + are those nondimensionalized by the wall friction velocity uτ and the kinematic viscosity ). Comparisons with DNS data of fully-developed turbulent channel flows for 109 < Reτ < 2003 show good agreement (where Reτ denotes the friction Reynolds number defined by uτ, and the channel half-width δ).