Title :
A grid convergence study of a highly separated turbulent flow
Author :
Hansen, Robert P. ; Forsythe, James
Author_Institution :
Dept. of Civil & Mech. Eng., US Mil. Acad., Washington, DC, USA
Abstract :
Highly separated flows create unique engineering problems and difficult numerical-simulation challenges. The increased availability of high-performance computing systems has renewed interest in accurately computing unsteady flow about relatively simple geometries. This paper investigates flows over a circular cylinder using Cobalt, a finite-volume program, and compare solutions to experimental measurements and other computational work.
Keywords :
Navier-Stokes equations; compressible flow; computational fluid dynamics; finite volume methods; flow separation; flow simulation; turbulence; vortices; Cobalt; circular cylinder crossflow; finite-volume program; flow geometry; grid convergence; grid density effects; high-performance computing systems; highly separated turbulent flow; numerical simulation; recirculation zone length; unsteady flow; vortex shedding; Computational geometry; Computational modeling; Convergence; Drag; Engine cylinders; Helicopters; Military computing; Numerical simulation; Shape; Testing;
Journal_Title :
Computing in Science & Engineering
DOI :
10.1109/MCSE.2004.59
