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Secondary flow due to Alfvén waves

Published online by Cambridge University Press:  11 April 2006

J. A. Shercliff
Affiliation:
Department of Engineering, University of Warwick, Coventry, England

Abstract

Large (gigajoule) amounts of energy can in principle be stored as kinetic energy in liquid metal circulating round a torus and can be extracted at the gigawatt level by Alfvén waves propagating along an imposed axial field. A major limitation on the energy that may be so stored is the disruption of these primary Alfvén waves by secondary flows in meridional planes, associated with out-of-balance centrifugal forces ahead of and behind the waves and non-uniform magnetic pressures at the wave fronts. Vorticity, created at the wave, itself propagates in secondary Alfvén waves.

This paper gives a linearized treatment of these secondary motions and the associated perturbations of the imposed axial field and compares the resulting disruption of the primary wave mode with crude estimates made in an earlier paper. The main case treated is the discharge of the stored energy into a matched resistor by an Alfvén step wave but the secondary consequences of standing primary waves are also explored. The nature of the solutions depends on the electromagnetic characteristics of the walls normal to the imposed field. The problem is mathematically interesting because it involves the joint solving of elliptic and hyperbolic equations that are coupled by the boundary conditions at these walls.

Type
Research Article
Copyright
© 1977 Cambridge University Press

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References

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Shercliff, J. A. 1965 A Textbook of Magnetohydrodynamics. Pergamon.
Shercliff, J. A. 1976 Proc. I.E.E. 123, 1035.
Walén, C. 1944 Ark. Mat. A 30, 15.
Walén, C. 1946 Ark. Mat. A 33, 18.