Please use this identifier to cite or link to this item: http://hdl.handle.net/2381/4580
Title: The stability and transition of the boundary layer on a rotating sphere.
Authors: Garrett, Stephen J.
Peake, N.
First Published: Apr-2002
Publisher: Cambridge University Press
Citation: Journal of Fluid Mechanics, 2002, 456, pp. 199-218.
Abstract: This paper is concerned with convective and absolute instabilities in the boundary-layer flow over the outer surface of a sphere rotating in an otherwise still fluid. Viscous and streamline-curvature effects are included and the analysis is conducted between latitudes of 10° and 80° from the axis of rotation. Both convective and absolute instabilities are found at each latitude within specific parameter spaces. The results of the convective instability analysis show that a crossflow instability mode is the most dangerous below θ = 66°. Above this latitude a streamline-curvature mode is found to be the most dangerous, which coincides with the appearance of reverse flow in the radial component of the mean flow. At low latitudes the disturbances are considered to be stationary, but at higher latitudes they are taken to rotate at 76% of the sphere surface speed, as observed in experimental studies. Our predictions of the Reynolds number and vortex angle at the onset of convective instability are consistent with existing experimental measurements. Results are also presented that suggest that the occurrence of the slowly rotating vortices is associated with the dominance of the streamline-curvature mode at θ = 66°. The local Reynolds number at the predicted onset of absolute instability matches experimental data well for the onset of turbulence at θ = 30°; beyond this latitude the discrepancy increases but remains relatively small below θ = 70°. It is suggested that this absolute instability may cause the onset of transition below θ = 70°. Close to the pole the predictions of each stability analysis are seen to approach those of existing rotating disk investigations.
DOI Link: 10.1017/S0022112001007571
ISSN: 0022-1120
Links: http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=101403&fileId=S0022112001007571
http://hdl.handle.net/2381/4580
Type: Article
Rights: This paper was published as Journal of Fluid Mechanics, 2002, 456, pp. 199-218. It is available from http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=101403. Doi: 10.1017/S0022112001007571
Appears in Collections:Published Articles, Dept. of Mathematics

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