Title :
Adaptive Meshing for Eddy Current Calculations
Author :
Dupuy, Delphine ; Pedreira, David ; Verbeke, Damien ; Leconte, Vincent ; Wendling, Philippe ; Rondot, Loic ; Mazauric, Vincent
Author_Institution :
CEDRAT, Meylan, France
Abstract :
In order to address their considerable impacts on both energy efficiency and performance requirements, eddy currents modeling and its accuracy are discussed from a thermodynamic approach. A dedicated error criterion is first described in a general framework, i.e., without any assumption about the potential formulation, including possible body motion, and independent from the dimension of the problem. After implementation, preliminary validation is given on an induction heating problem and an induction machine. As expected, the thermodynamic functional provides 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 :
eddy currents; induction heating; mesh generation; adaptive meshing; body motion; eddy current calculations; energy efficiency; error criterion; induction heating problem; induction machine; thermodynamic approach; Convergence; Eddy currents; Electric potential; Electromagnetic heating; Finite element analysis; Induction machines; Thermodynamics; Adaptive mesh refinement; adaptive mesh refinement; eddy currents; finite element analysis; finite-element analysis; induction heating; induction motor; industion motor;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2445830
