A NUMERICAL STUDY OF OSCILLATORY FLOW ABOUT A CIRCULAR CYLINDER FOR LOW VALUES OF BETA PARAMETER

A discrete vortex method incorporating viscous diffusion is used to simulate the flow about an oscillating circular cylinder. This flow is simulated considering a frame of reference fixed to the cylinder and with an oscillating cross flow. Force time histories are shown for a Reynolds number of 200

In various numerical solutions of flow around bluff bodies the unbounded physical domain is replaced by a restricted computational one whose extent depends on the size of the computational grid network. The truncation of the solution domain in the cross-flow direction reduces the computer time requi

The results of a numerical study of the viscous oscillating ¯ow around a circular cylinder at Reynolds number 200 and Keulegan±Carpenter number 20 are presented. The ®nite element method was used for the solution of the Navier±Stokes equations, in the formulation where the streamfunction and the vor

The e ect of location of the lateral boundaries, of the computational domain, on the critical parameters for the instability of the ow past a circular cylinder is investigated. Linear stability analysis of the governing equations for incompressible ows is carried out via a stabilized ÿnite element m

numbers was performed by [13,25]. More recently, through the use of advanced numerical techniques (e.g., compact In this paper a finite difference method for computing the solutions of the incompressible Navier-Stokes equations for flow about high order difference stencils and exponentially stretche