Solution of skin-effect problems by means of the hybrid SDBCI method
Author:
Aiello Giovanni,Alfonzetti Salvatore,Salerno Nunzio
Abstract
Purpose
– The purpose of this paper is to present a modified version of the hybrid Finite Element Method-Dirichlet Boundary Condition Iteration method for the solution of open-boundary skin effect problems.
Design/methodology/approach
– The modification consists of overlapping the truncation and the integration boundaries of the standard method, so that the integral equation becomes singular as in the well-known Finite Element Method-Boundary Element Method (FEM-BEM) method. The new method is called FEM-SDBCI. Assuming an unknown Dirichlet condition on the truncation boundary, the global algebraic system is constituted by the sparse FEM equations and by the dense integral equations, in which singularities arise. Analytical formulas are provided to compute these singular integrals. The global system is solved by means of a Generalized Minimal Residual iterative procedure.
Findings
– The proposed method leads to slightly less accurate numerical results than FEM-BEM, but the latter requires much more computing time.
Practical implications
– Then FEM-SDBCI appears more appropriate than FEM-BEM for applications which require a shorter computing time, for example in the stochastic optimization of electromagnetic devices.
Originality/value
– Note that FEM-SDBCI assumes a Dirichlet condition on the truncation boundary, whereas FEM-BEM assumes a Neumann one.
Subject
Applied Mathematics,Electrical and Electronic Engineering,Computational Theory and Mathematics,Computer Science Applications
Reference22 articles.
1. Aiello, G.
,
Alfonzetti, S.
and
Borzì, G.
(1997), “A generalized minimal residual acceleration of the charge iteration procedure”, J. Phys. III, Vol. 7 No. 10, pp. 1955-1966. 2. Aiello, G.
,
Alfonzetti, S.
and
Coco, S.
(1994), “Charge iteration: a procedure for the finite element computation of unbounded electrical fields”, Int. J. Numer. Methods Eng., Vol. 37 No. 24, pp. 4147-4166. 3. Aiello, G.
,
Alfonzetti, S.
and
Dilettoso, E.
(2003), “Finite element solution of eddy current problems in unbounded domains by means of the hybrid FEM−DBCI method”, IEEE Trans. Mag, Vol. 39 No. 3, pp. 1409-1412. 4. Aiello, G.
,
Alfonzetti, S.
,
Borzì, G.
and and
Salerno, N.
(1999), “An overview of the ELFIN code for finite element research in electrical engineering”, in
Konrad, A.
and
Brebbia, C.A.
(Eds), Software for Electrical Engineering Analysis and Design, WIT Press, Southampton, pp. 143-152. 5. Aiello, G.
,
Alfonzetti, S.
,
Borzì, G.
and
Salerno, N.
(2001), “An improved solution scheme for open-boundary skin effect problems”, IEEE Trans. Magn., Vol. 37 No. 5, pp. 3474-3477.
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