NUMERICAL SIMULATION OF THE FLOW INDUCED BY A TRANSVERSELY OSCILLATING INCLINED ELLIPTIC CYLINDER

Flow past a transversely vibrating circular cylinder is numerically simulated by solving the Navier}Stokes equations and by implementing a modi"ed velocity correction method. Galerkin weighted residual formulation is employed for the spatial discretization along with a second order Runge}Kutta time

## Abstract The numerical solution of the free‐surface fluid flow on a rotating elliptical cylinder is presented. Up to the present, research has concentrated on the circular cylinder for which steady solutions are the main interest. However, for noncircular cylinders, such as the ellipse, steady s

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

The turbulent flow past a circular cylinder (Re=3900) was computed by large eddy simulation (LES). The objective was not to investigate the physical phenomena of this flow in detail but to study numerical and modeling aspects which influence the quality of LES solutions. Concerning the numerical met