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- Title
Numerical study on the axisymmetric state in spherical Couette flow under unstable thermal stratification.
- Authors
Inagaki, Taishi; Itano, Tomoaki; Sugihara-Seki, Masako
- Abstract
This paper numerically investigates the shear flow between double concentric spherical boundaries rotating differentially, the so-called spherical Couette flow, under unstable thermal stratification, focusing on the boundary of the axisymmetric/nonaxisymmetric transition in wide-gap cases where the inner radius is comparable to the clearance width. While the transition of SCF has been confirmed experimentally in cases without thermal factor, insufficient knowledge on SCF subject to thermal instability, related to geophysical problems especially in the wide-gap cases, has been accumulated mainly based on numerical analysis; our motivation is to bridge the knowledge gap by a parameter extension. We reconfirm that the transition under no thermal effect is initiated by a disturbance visualised as a spiral pattern with n arms extending from the equatorial zone to the pole in each hemisphere, at the critical Reynolds number, Re cr , as previously reported. With increasing thermal factor, the buoyancy effect enables the system rotation to trigger a transition towards nonaxisymmetric states, resulting in a relative decrease in Re cr . This is in contrast with the result that the system rotation apparently suppresses via Coriolis effect the transition to the thermally convective states at low Reynolds numbers. The present study elucidates that the existence of the axisymmetric state is restricted within a closed area in the extended parameter space, along the boundary of which the spiral patterns observed experimentally in SCF continuously connect to the classical spherical Bénard convective states.
- Subjects
COUETTE flow; REYNOLDS number; CORIOLIS force; THERMAL instability; BUOYANCY
- Publication
Acta Mechanica, 2019, Vol 230, Issue 10, p3499
- ISSN
0001-5970
- Publication type
Article
- DOI
10.1007/s00707-019-02487-8