Title :
A Finite Element Subproblem Method for Position Change Conductor Systems
Author :
Dular, Patrick ; Krähenbühl, Laurent ; Sabariego, Ruth V. ; Luz, Mauricio V Ferreira da ; Kuo-peng, Patrick ; Geuzaine, Christophe
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of Liege, Liege, Belgium
Abstract :
Analyses of magnetic systems with position changes of both massive and stranded conductors are performed via a finite element subproblem method. A complete problem is split into subproblems associated with each conductor and the magnetic regions. Each complete solution is then expressed as the sum of subproblem solutions supported by different meshes. The subproblem procedure simplifies both meshing and solving processes, with no need of remeshing, and accurately quantifies the effect of the position changes of conductors on both local fields, e.g., skin and proximity effects, and global quantities, e.g., inductances and forces. Applications covering parameterized analyses on conductor positions to moving conductor systems can benefit from the developed approach.
Keywords :
coils; conductors (electric); eddy currents; inductance; magnetic cores; mesh generation; skin effect; solenoids; conductor positions; eddy current; finite element subproblem method; forces; inductances; magnetic systems; massive conductors; meshing; parameterized analyses; position change conductor systems; proximity effect; skin effect; solving processes; stranded conductors; Coils; Conductors; Finite element methods; Inductance; Magnetic cores; Magnetic domains; Proximity effect; Conductor systems; finite element method (FEM); subdomain method;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2176924
