Title :
An Energy-Compliant Magnetodynamic Error Criterion for Eddy-Current Calculations
Author :
Rondot, Loïc ; Mazauric, Vincent G. ; Wendling, Philippe F.
Author_Institution :
CEDRAT, Meylan, France
fDate :
6/1/2010 12:00:00 AM
Abstract :
In order to improve the finite element modeling of macroscopic eddy currents, a quadratic energy-based error criterion is obtained from a thermodynamic description of electromagnetism. Attention is first paid on the analytical derivation of the criterion in a general sense-i.e. without any assumption about the potential formulation and including possible body motion-especially to validate its relevance in 2D or 3D and to stress its independence from the formulation or the kind of application. Preliminary validation is given on a Thomson´s effect device: As expected, the state functions provide the global convergence of the calculation within an iterative procedure whereas the conservation of the electromagnetic power is assessed locally to highlight the ill-checked elements.
Keywords :
Thomson effect; eddy currents; electromagnetism; finite element analysis; iterative methods; thermodynamics; Thomson effect device; electromagnetic power; electromagnetism; energy-compliant magnetodynamic error criterion; finite element modeling; iterative procedure; macroscopic eddy current calculations; quadratic energy-based error criterion; state functions; Convergence; Eddy currents; Electromagnetic modeling; Finite element methods; Magnetostatics; Maxwell equations; Motion analysis; Technological innovation; Thermal stresses; Thermodynamics; Eddy currents; electromagnetism; error criterion; finite element method; transient;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2041054
