Title :
An Energy Based Approach of Electromagnetism Applied to Adaptive Meshing and Error Criteria
Author :
Ladas, D. ; Mazauric, V. ; Meunier, G. ; Chadebec, O. ; Ebene-Ebene, M. ; Maréchal, Y. ; Wendling, P.
Author_Institution :
Innovation Direction, Schneider Electr., Grenoble
fDate :
6/1/2008 12:00:00 AM
Abstract :
In order to improve the finite-element modeling of macroscopic eddy currents (associated with motion and/or a time-varying electrical excitation), an original error criterion for adaptive meshing, based on a local power conservation, is proposed. Then, the importance of the order element in the error computation is investigated. Finally, the criterion is coupled to a ldquobubblerdquo mesh generator, and an adaptive meshing of a 2D induction heating case is performed.
Keywords :
eddy currents; electromagnetism; error analysis; finite element analysis; mesh generation; 2-D induction heating; adaptive meshing; bubble mesh generator; electromagnetism; error computation; error criterion; finite-element modeling; local power conservation; macroscopic eddy currents; time-varying electrical excitation; Adaptive meshing; eddy currents; error criterion; power conservation;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.916656
