Stability experiments in rotating-disk flow
Abstract
An experimental study of the transitional flow on a flat disk, rotating in still air, has been conducted. Using digitized hot-wire data, the axes of the stationary spiral vortices, which are the primary instability mechanism for the disk flow, have been mapped-out in terms of both spatial coordinates and velocity fluctuations. Data are presented for a clean disk and for a disk with a single, isolated roughness element. The data show that the disk vortices are generated at discrete roughness disturbance sites on the disk and that they propagate and grow as wave packets. The familiar vortex pattern of 30 or so vortices results only when these wave packets have merged and filled the entire circumference. The appearance of stationary, secondary vortices prior to turbulent breakdown has also been observed. Comparisons with linear stability theory show reasonable agreement with measured growth rate data.
- Publication:
-
16th Fluid and Plasma Dynamics Conference
- Pub Date:
- July 1983
- Bibcode:
- 1983fpdy.conf.....W
- Keywords:
-
- Boundary Layer Flow;
- Flow Stability;
- Rotating Disks;
- Transition Flow;
- Vortices;
- Hot-Wire Flowmeters;
- Leading Edges;
- Surface Roughness Effects;
- Sweptback Wings;
- Three Dimensional Boundary Layer;
- Fluid Mechanics and Heat Transfer