论文信息 - An effective method to reduce the computing time of nonlinear time-stepping finite-element magnetic field computation

An effective method to reduce the computing time of nonlinear time-stepping finite-element magnetic field computation

Time-stepping finite-element methods have been widely used to compute the magnetic field of electrical machines. Because the reluctivities of magnetic materials are nonlinear, the finite-element equations have to be solved iteratively. In this paper, an effective method for reducing the computing time of the Newton-Raphson method coupled with the incomplete Cholesky-conjugate gradient algorithm for solving time-stepping finite-element problems is presented. The proposed method is based on a proper prediction of some predefined error tolerances in the iteration processes at each time-stepping finite-element computation. The computational analysis on an induction motor shows that the proposed strategy can reduce the nominal computing time by as much as 50%.

S. L. Ho | Weinong Fu | H. L. Li | H. C. Wong

[1] A. Kost,et al. Convergence properties of the Newton-Raphson method for nonlinear problems , 1998 .

[2] Siu Lau Ho,et al. Inclusion of interbar currents in a network-field coupled time-stepping finite-element model of skewed-rotor induction motors , 1999 .

[3] D. Kershaw. The incomplete Cholesky—conjugate gradient method for the iterative solution of systems of linear equations , 1978 .

[4] S. Ho,et al. A comprehensive approach to the solution of direct-coupled multislice model of skewed rotor induction motors using time-stepping eddy-current finite element method , 1997 .

[5] Koji Fujiwara,et al. Method for determining relaxation factor for modified Newton-Raphson method , 1993 .

[6] Osama A. Mohammed. Fast solution techniques in 3D electromagnetic field problems , 1988, Conference Proceedings '88., IEEE Southeastcon.

[7] F. Ossart,et al. Analysis of convergence in nonlinear magnetostatic finite elements problems , 1994 .

[8] J. O'Dwyer,et al. Choosing the relaxation parameter for the solution of nonlinear magnetic field problems by the Newton-Raphson method , 1995 .