Numerical solutions for impulsively started and decelerated viscous flow past a circular cylinder |
| |
Authors: | Xuegeng Wang Charles Dalton |
| |
Abstract: | A finite difference study of the unsteady two-dimensional flow past a circular cylinder has been conducted using vorticity and streamfunction as the dependent variables. The two cases considered were impulsively started and decelerated flows. The impulsively started problem was considered to validate the method and has yielded results which agree quite closely with existing results from both calculations and experiments. The decelerated flow analysis produced results which can be explained in terms of induced velocity effects from existing wake vortices for both suddenly stopped and uniformly decelerated flows. |
| |
Keywords: | Circular cylinder Impulsively started flow Decelerating flow Finite difference solution Vortex shedding Drag and lift coefficients |
|