NUMERICAL SIMULATION OF FLOW INDUCED BY A CYLINDER ORBITING IN A LARGE VESSEL

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

In this study, a virtual boundary technique is applied to the numerical simulation of stationary and moving cylinders in uniform flow. ## stiffness of most moving boundary problems restricts the This approach readily allows the imposition of a no-slip boundary explicit definition of the forcing t

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

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