Author:
POTHÉRAT A.,SOMMERIA J.,MOREAU R.
Abstract
This paper presents a model for quasi-two-dimensional MHD flows between two
planes with small magnetic Reynolds number and constant transverse magnetic field
orthogonal to the planes. A method is presented that allows three-dimensional effects
to be taken into account in a two-dimensional equation of motion thanks to a model
for the transverse velocity profile. This model is obtained by using a double perturbation
asymptotic development both in the core flow and in the Hartmann layers arising
along the planes. A new model is thus constructed that describes inertial effects in
these two regions. Two separate classes of phenomena are found: one related to inertial
effects in the Hartmann layer gives a model for recirculating flows and the other
introduces the possibility of having a transverse dependence of the velocity profile in
the core flow. The ‘recirculating’ velocity profile is then introduced in the transversally
averaged equation of motion in order to provide an effective two-dimensional equation
of motion. Analytical solutions of this model are obtained for two experimental
configurations: isolated vortices generated by a point electrode and axisymmetric
parallel layers occurring in the MATUR (MAgneticTURbulence) experiment. The
theory is found to give a satisfactory agreement with the experiment so that it can
be concluded that recirculating flows are actually responsible for both vortex core
spreading and excessive dissipative behaviour of the axisymmetric sidewall layers.
Publisher
Cambridge University Press (CUP)
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics
Cited by
92 articles.
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