4.2 Article

Two-dimensional hybrid model for magnetic field calculation in electrical machines: exact subdomain technique and magnetic equivalent circuit

出版社

EMERALD GROUP PUBLISHING LTD
DOI: 10.1108/COMPEL-01-2021-0008

关键词

Electromagnetic fields; Permanent magnet machine; Finite element analysis; Hybrid magnetic model; Exact subdomain technique; Magnetic equivalent circuit

资金

  1. General Directorate of Scientific Research and Technological Development (DGRSDT) of Algeria

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This paper introduces a new two-dimensional hybrid analytical model for magnetic field calculation in electrical machines, which combines an exact subdomain technique and magnetic equivalent circuit. The technique is applied to dual-rotor permanent magnet synchronous machines, providing accurate results under both no-load and on-load conditions. The direct coupling between the analytical model and magnetic equivalent circuit, as well as the modeling of current density distribution using Maxwell's equations, contribute to the originality and value of this research.
Purpose The purpose of this paper is to propose a two-dimensional (2-D) hybrid analytical model (HAM) in polar coordinates, combining a 2-D exact subdomain (SD) technique and magnetic equivalent circuit (MEC), for the magnetic field calculation in electrical machines at no-load and on-load conditions. Design/methodology/approach In this paper, the proposed technique is applied to dual-rotor permanent magnet (PM) synchronous machines. The magnetic field is computed by coupling an exact analytical model (AM), based on the formal resolution of Maxwell's equations applied in subdomains, in regions at unitary relative permeability with a MEC, using a nodal-mesh formulation (i.e. Kirchhoff's current law), in ferromagnetic regions. The AM and MEC are connected in both directions (i.e. r- and theta-edges) of the (non-)periodicity direction (i.e. in the interface between teeth regions and all its adjacent regions as slots and/or air-gap). To provide accurate solutions, the current density distribution in slot regions is modeled by using Maxwell's equations instead to MEC and characterized by an equivalent magnetomotive force (MMF) located in the slots, teeth and yoke. Findings It is found that whatever the iron core relative permeability, the developed HAM gives accurate results for both no-load and on-load conditions. Finite element analysis demonstrates the excellent results of the developed technique. Originality/value The main objective of this paper is to achieve a direct coupling between the AM and MEC in both directions (i.e. r- and theta-edges). The current density distribution is modeled by using Maxwell's equations instead to MEC and characterized by an MMF.

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