Title :
Numerical and experimental analysis of an electro-thermal coupled problem for transverse flux induction heating equipment
Author :
Dughiero, F. ; Forzan, M. ; Lupi, S. ; Tasca, M.
Author_Institution :
Dept. of Electr. Eng., Padova Univ., Italy
fDate :
9/1/1998 12:00:00 AM
Abstract :
This paper describes a quasi 3D-FEM electromagnetic and thermal computation of transverse flux inductors used in the metal industry for the continuous heating of metal strips. The coupled steady-state eddy current and thermal problem is solved for the prediction of the temperature distribution in the workpiece, a fundamental step towards the optimum design of the inductors. The computation has been used for the design of a heater for the continuous heat treatment of golden or silver metal strips. The suitability of the method presented here for the optimum design of transverse flux inductors has been confirmed by measurements on a laboratory prototype with thin silver strips workpieces
Keywords :
electromagnetic fields; finite element analysis; induction heating; magnetic flux; metallurgical industries; temperature distribution; thermal analysis; continuous heat treatment; continuous heating; electro-thermal coupled problem; metal industry; metal strips; optimum design; quasi 3D-FEM; steady-state eddy current; transverse flux induction heating equipment; workpiece temperature distribution; Eddy currents; Electromagnetic heating; Electromagnetic induction; Heat treatment; Inductors; Metals industry; Silver; Steady-state; Strips; Temperature distribution;
Journal_Title :
Magnetics, IEEE Transactions on
