A new Finite Element Method for magneto-dynamical problems: two-dimensional results |
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Authors: | J. L. Guermond, J. L orat,C. Nore |
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Affiliation: | a Laboratoire d'informatique pour la mécanique et les sciences de l'ingénieur, CNRS, BP 133, 91403, Orsay cedex, France;b Luth, Observatoire de Paris-Meudon, place Janssen, 92195, Meudon, France |
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Abstract: | A mixed Lagrange finite element technique is used to solve the Maxwell equations in the magneto-hydrodynamic (MHD) limit in an hybrid domain composed of vacuum and conducting regions. The originality of the approach is that no artificial boundary condition is enforced at the interface between the conducting and the insulating regions and the non-conducting medium is not approximated by a weakly conducting medium as is frequently done in the literature. As a first evaluation of the performance of the method, we study two-dimensional (2D) configurations, where the flow streamlines of the conducting fluid are planar, i.e., invariant in one direction, and either the magnetic field (“magnetic scalar” case) or the electric field (“electric scalar” case) is parallel to the invariant direction. Induction heating, eddy current generation, and magnetic field stretching are investigated showing the usefulness of finite element methods to solve magneto-dynamical problems with complex insulating boundaries. |
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Keywords: | Finite element method 2D magnetodynamics |
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