Three-dimensional stability of vortex arrays
- Creators
- Robinson, A. C.
- Saffman, P. G.
Abstract
The stability to three-dimensional disturbances of three classical steady vortex configurations in an incompressible inviscid fluid is studied in the limit of small vortex cross-sectional area and long axial disturbance wavelength. The configurations examined are the single infinite vortex row, the Karman vortex street of staggered vortices and the symmetric vortex street. It is shown that the single row is most unstable to a two-dimensional disturbance, while the Karman vortex street is most unstable to a three-dimensional disturbance over a significant range of street spacing ratios. The symmetric vortex street is found to be most unstable to three-dimensional or two-dimensional symmetric disturbances depending on the spacing ratio of the street. Short remarks are made concerning the relevance of the calculations to the observed instabilities in free shear layer, wake and boundary-layer type flows.
Additional Information
© 1982 Cambridge University Press. Reprinted with permission. (Received 18 January 1982 and in revised form 1 June 1982) This work was supported by NASA Lewis Research Center (NAG 3-179) and the Department of Energy (Office of Basic Energy Sciences).Attached Files
Published - ROBjfm82.pdf
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Additional details
- Eprint ID
- 10023
- Resolver ID
- CaltechAUTHORS:ROBjfm82
- NAG 3-179
- NASA
- Department of Energy (DOE)
- Created
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2008-04-07Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field