Philip Desenfans, Zifeng Gong, Dries Vanoost, Konstantinos Gryllias, Jeroen Boydens, Herbert De Gersem, Davy Pissoort
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引用次数: 0
摘要
目的当转子和定子齿接近时,连接气隙磁通管的横截面积超过齿重叠面积。在计算具有倾斜转子的电机的单片磁性等效电路 (MEC) 的气隙磁导率时,忽略了这种磁通环效应。本文旨在将不偏斜转子的气隙磁导率计算方法纳入磁通量边缘效应,并将其扩展到偏斜和径向偏心转子。假设轴向独立,则根据偏斜旋转不偏斜气隙磁导率并沿轴向积分,从而得到第一种方法。对积分进行近似分析,得出第二种方法。结果与常用的参考方法进行了比较,并通过非线性有限元法(FEM)模拟进行了验证。对于倾斜转子和普通转子偏心率(即气隙长度的 50%以下),与参考方法相比,所提出的方法能更好地与 FEM 验证保持一致。在计算时间成本方面,分析方法与参考方法不相上下。原创性/价值针对具有倾斜转子的单片 MEC,提出了两种新型气隙渗透方法。讨论并验证了这两种方法的特点。
Improved air gap permeance modelling for single-slice magnetic equivalent circuits of skewed induction motors
Purpose
When rotor and stator teeth are close, the connecting air gap flux tube's cross-sectional area exceeds the tooth overlap area. This flux fringing effect is disregarded in the air gap permeance calculation of single-slice magnetic equivalent circuits (MECs) of electric motors with skewed rotors. This paper aims to extend an air gap permeance calculation method incorporating flux fringing for unskewed rotors to skewed and radially eccentric rotors.
Design/methodology/approach
Assuming axial independence, the unskewed air gap permeance is rotated according to the skew and integrated along the axial dimension, resulting in a first method. The integral is approximated analytically, resulting in a second method. Results are compared to a commonly used reference method and validated using a non-linear finite element method (FEM) simulation.
Findings
The proposed methods provide better alignment with the FEM validation compared to the reference method for skewed rotors and common rotor eccentricity, i.e. below 50% of the air gap length. The analytical method is shown to be competitive with the reference method regarding computational time cost.
Originality/value
Two novel air gap permeance methods are proposed for single-slice MECs with skewed rotors. Their characteristics are discussed and validated.
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