Computation of turbulent flows past arbitrary two-dimensional surface-mounted obstructions

The incompressible, laminar, isothermal ¯ow of a Newtonian ¯uid at steady state past a surface-mounted obstacle (¯ow over a step) is studied in a two-dimensional numerical experiment using the Galerkin ®nite element method. The dimensionless Navier±Stokes equations are solved in the whole range of t

This study accurately predicts the cases of turbulent flow around a surface-mounted two-dimensional rib with varying lengths. The numerical method employs a differencing scheme for integrating the elliptic Reynolds-averaged Navier-Stokes equations and the continuity equation. A two-equation k-m turb

This paper is devoted to the computation of turbulent flows by a Galerkin finite element method. Effects of turbulence on the mean field are taken into account by means of a k--E turbulence model. The wall region is treated through wall laws and, more specifically, Reichardt's law. An inlet profile