Prograde and retrograde precession of a fluid-filled cylinder


Prograde and retrograde precession of a fluid-filled cylinder

Pizzi, F.; Giesecke, A.; Simkanin, J.; Stefani, F.

We numerically study precession driven flows in a cylindrical container whose nutation angle varies between 60 and 90 degrees for prograde and retrograde precession. For prograde precession we observe sharp transitions between a laminar and a turbulent flow state with low and high geostrophic axisymmetric flow components related with a centrifugal instability, while for retrograde precession a rather smooth transition between a low state and a high state occurs. At the same time prograde and perpendicular precession shows an abrupt breakdown of the flow directly excited by the forcing mechanism, which is not the case for retrograde motion. We characterize the corresponding flow states in terms of the directly driven, non-axisymmetric Kelvin mode, the axisymmetric geostrophic mode, and an axisymmetric poloidal flow which is promising for precession-driven dynamo action. The latter issue is discussed with particular view on an optimal parameter choice for the DRESDYN dynamo project.

Keywords: precession; core flow; dynamo; instability; transition

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Permalink: https://www.hzdr.de/publications/Publ-33455
Publ.-Id: 33455