Title :
Proper Generalized Decomposition Method Applied to Solve 3-D Magnetoquasi-Static Field Problems Coupling With External Electric Circuits
Author :
Henneron, Thomas ; Clenet, Stephane
Author_Institution :
Lab. of Electr. Eng. & Power Electron., Univ. Lille 1, Villeneuve d´Ascq, France
Abstract :
In the domain of numerical computation, proper generalized decomposition (PGD), which consist in approximating the solution by a truncated sum of separable functions, is applied more and more in mechanics, and has shown its efficiency in terms of computation time and memory requirements. We propose to evaluate the PGD method to solve three-dimensional (3-D) quasi-static field problems coupling with an external electric circuit. The numerical model, obtained from the PGD formulation, is used to study the 3-D examples. The results are compared with those obtained when solving the full original problem. It is shown in this paper that the computation time rate versus the number of time steps is very small compared with the one in a classical time-stepping method, and can be very efficient to solve problems when small time steps are required.
Keywords :
coupled circuits; finite element analysis; magnetic fields; 3D magnetoquasi-static field problem; PGD method; external electric circuits; finite-element method; proper generalized decomposition method; time-stepping method; Approximation methods; Computational modeling; Couplings; Equations; Inductors; Magnetic domains; Mathematical model; Electric circuit; Finite element method; electric circuit; finite-element method; proper generalized decomposition; proper generalized decomposition (PGD); quasi static problem; quasi-static problem; reduced order model; reduced-order model;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2383998
