A FINITE ELEMENT METHOD FOR MODELING OF ELECTROMAGNETIC PROBLEMS

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Authors

  • Dang Quoc Vuong (Corresponding Author) School of Electrical Engineering, Hanoi University of Science and Technology

Keywords:

Magnetodynamics; Electromagnetic devices; Magnetic flux density; Leakage flux; Fringing flux; Eddy current losses; Finite element method.

Abstract

Electromagnetic devices are present everywhere in our daily life. In particular, they extremely play an important role  in the fields of the electrical system. Therefore, the modeling and analyzing the electromagetic problems become currently a matter of concern and topicality for researchers and designers of electrical devices. This paper introduces a finite element method to compute accurate distributions of leakage and fringing fluxes with air-gap variations, and eddy current losses of the magnetic circuits, that cannot generally be solved by a direct analytic method. The method is approached for the magnetic flux density formulation.

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Published

06-05-2020

How to Cite

Vuong. “A FINITE ELEMENT METHOD FOR MODELING OF ELECTROMAGNETIC PROBLEMS”. Journal of Military Science and Technology, no. 66A, May 2020, pp. 25-31, https://online.jmst.info/index.php/jmst/article/view/209.

Issue

No. 66A (2020)

Section

Research Articles