Computation of flow around Texas Tech building using k-ϵ and Kato-Launder k-ϵ turbulence model

The applicability of a finite element-differential method to the computation of steady two-dimensional lowspeed, transonic and supersonic turbulent boundary-layer flows is investigated. The turbulence model chosen for the Reynolds shear stress and turbulent heat flux is the k-t. two-equation model.

This paper describes a finite element implementation of an operator-splitting algorithm for solving transient/steady turbulent flows and presents solutions for the turbulent flow in an axisymmetric 180" narrowing bend, a benchmark problem dealt with at the 1994 WUA-CFD annual meeting. Three k-c base

The whole turbulent flow field around a two-dimensional aerofoil is solved with a consistent numerical method on a single-grid system and with an intermittency implemented two-equation model, namely the k -c -y turbulence model in elliptic form. In order to solve the numerical instability problem ar