Title :
A Three-Dimensional Electromagnetic Shell Finite Element for Coupled Vector-Scalar Potential Formulations
Author :
Thomas, P. ; Menach, Y. Le
Author_Institution :
Lab. d´´Anal. des Materiels Electr., Electricite de France, Clamart, France
Abstract :
In many eddy current problems solved by FEM, meshing of the skin depth leads to CAD difficulties and large computing. In order to avoid such problems, one currently use surface impedance conditions: boundary conditions in the case of massive conductors or transmission conditions or shell elements in the case of thin conducting layers. In this paper, we propose a new shell finite element with arbitrary thickness that is compatible with the (A-φ) and (T-Ω) formulations. Both formulations exist in some general purpose finite element electromagnetic codes like Code_Carmel3D. To validate the approach, two elementary numerical tests are treated.
Keywords :
copper; eddy currents; electromagnets; fault currents; magnetic cores; magnetic domains; mesh generation; surface impedance; CAD; Code_Carmel3D; boundary conditions; coupled vector-scalar potential formulations; eddy current problems; electrical engineering domain; electromagnetic codes; elementary numerical tests; fault current; finite element method; massive conductors; meshing; shell elements; skin depth; surface impedance conditions; thin conducting layers; thin copper deposit; three-dimensional electromagnetic shell; transmission conditions; Copper; Electric potential; Electromagnetics; Finite element methods; Magnetic domains; Surface impedance; Vectors; Eddy-currents; electromagnetic fields; finite element method;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2174974
