Title :
Three-dimensional integral method for modeling electromagnetic inductive processes
Author_Institution :
CNRS EPM Lab., St. Martin d´´Heres, France
Abstract :
This paper describes a three-dimensional integral method that models electromagnetic phenomena taking place during inductive melting. The method is well suited to inductive systems undergoing sinusoidal excitation at midrange or high frequencies. Under these conditions, only the surfaces of the conductors need to be meshed. The unknowns of the model are current density and scalar electrical potential. Power density, electromagnetic forces, and electrical impedance can easily be derived. Comparisons between numerical results and measurements confirm the accuracy of the model.
Keywords :
electromagnetic induction; integral equations; mesh generation; 3-D integral method; current density; electrical impedance; electromagnetic forces; electromagnetic inductive process modeling; induction heating; inductive melting; inductive systems; integral equations; numerical analysis; power density; scalar electrical potential; sinusoidal excitation; Conductors; Current density; Electric potential; Electromagnetic forces; Electromagnetic induction; Electromagnetic measurements; Electromagnetic modeling; Frequency; Power system modeling; Surface impedance;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.821117
