Stability of the Taylor-Couette flow under a radial thermoelectric body force

Harunori Yoshikawa; Innocent Mutabazi; Olivier Crumeyrolle; Antoine Meyer

Stability of the Taylor-Couette flow under a radial thermoelectric body force

ORAL

Abstract

A circular Couette flow developed between coaxial two infinite-length cylinders is considered in the case where only the inner cylinder is rotating. A radial temperature gradient and a radial electric field are applied to the flow, their coupling resulting in the dielectrophoretic body force density. This thermoelectric force can stabilize and destabilize the flow, depending on the heating direction. The critical Taylor number, wavenumber and frequency are determined for a wide range of control parameters. The mechanism behind the instability will be discussed.

^*This work benefited from a financial support from CNES (French Space Agency), the CPER-Haute Normandie under the program THETE and from the FEDER.

Nov. 26, 2013, 8:39 AM – Nov. 26, 2013, 8:52 AM

Authors

Harunori Yoshikawa
- Laboratoire Ondes et Milieux Complexes (UMR 6294 CNRS - Universite du Havre)
Innocent Mutabazi
- LOMC, UMR6294, CNRS-Universit\'e du Havre
- Le Havre University and CNRS
- Laboratoire Ondes et Milieux Complexes (UMR 6294 CNRS - Universite du Havre)
Olivier Crumeyrolle
- Laboratoire Ondes et Milieux Complexes (UMR 6294 CNRS - Universite du Havre)
Antoine Meyer
- Laboratoire Ondes et Milieux Complexes (UMR 6294 CNRS - Universite du Havre)