Simulation of vortex shedding past a square cylinder near a wall

This paper presents the results of numerical simulations of vortex shedding past a free-standing square cylinder at Re D =22000, obtained with different turbulence models. Using wall functions, the standard k-m model is compared with a modification suggested by Kato and Launder (Proc. 9th Symp. Turb

This paper is concerned with the numerical simulation of the ¯ow structure around a square cylinder in a uniform shear ¯ow. The calculations were conducted by solving the unsteady 2D Navier±Stokes equations with a ®nite difference method. The effect of the shear parameter K of the approaching ¯ow on

## Abstract It is common knowledge that flow around bluff bodies exhibits oscillatory behaviour. The aim of the present study is to compute the steady two‐dimensional flow around a square cylinder at different Reynolds numbers and to determine the onset of unsteadiness through a linear stability an

Numerical calculations of the flow around a square cylinder (prism) oscillating in line with the mean flow are reported for a Reynolds number \(\operatorname{Re}=200\). The unsteady forces on the cylinder are evaluated dependent on the frequency and amplitude of the cylinder motion. The interaction