Convection in a rapidly rotating spherical shell with an imposed laterally varying thermal boundary condition

We investigate thermally driven convection in a rotating spherical shell subject to inhomogeneous heating on the outer boundary, extending previous results to more rapid rotation rates and larger amplitudes of the boundary heating. The analysis explores the conditions under which steady flows can be...

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Veröffentlicht in:Journal of fluid mechanics 2009-12, Vol.641, p.335-358
Hauptverfasser: DAVIES, CHRISTOPHER J., GUBBINS, DAVID, JIMACK, PETER K.
Format: Artikel
Sprache:eng
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Zusammenfassung:We investigate thermally driven convection in a rotating spherical shell subject to inhomogeneous heating on the outer boundary, extending previous results to more rapid rotation rates and larger amplitudes of the boundary heating. The analysis explores the conditions under which steady flows can be obtained, and the stability of these solutions, for two boundary heating modes: first, when the scale of the boundary heating corresponds to the most unstable mode of the homogeneous problem; second, when the scale is larger. In the former case stable steady solutions exhibit a two-layer flow pattern at moderate rotation rates, but at very rapid rotation rates no steady solutions exist. In the latter case, stable steady solutions are always possible, and unstable solutions show convection rolls that cluster into nests that are out of phase with the boundary anomalies and remain trapped for many thermal diffusion times.
ISSN:0022-1120
1469-7645
DOI:10.1017/S0022112009991583