Air Gap Magnetic Field Calculation of Permanent Magnet Direct Drive Generator Based on Conformal Mapping and Magnetic Equivalent Circuit Method

被引：0

作者：

Zhang Z. ^{[1
]}

Han Q. ^{[2
]}

Xu X. ^{[3
]}

Yan Y. ^{[1
]}

Peng C. ^{[1
]}

机构：

[1] Xinjiang Goldwind Science Technology Co. Ltd Urumqi

[2] Department of Mechanical Engineering, Tsinghua University, Beijing

[3] Research Institute for Frontier Science & Technology, Beihang University, Beijing

来源：

Diangong Jishu Xuebao/Transactions of China Electrotechnical Society | 2023年 / 38卷 / 03期

关键词：

air gap magnetic field; cogging effect; load condition; magnetic equivalent circuit; magnetic saturation; nonlinear reluctance; Permanent magnet direct drive generator;

D O I：

10.19595/j.cnki.1000-6753.tces.210769

中图分类号：

学科分类号：

摘要：

Owing to its outstanding advantages such as good low-speed performance, high power generation efficiency, low maintenance cost and reliable operation, megawatt permanent magnet direct drive wind turbine is an ideal choice for large-scale onshore and offshore wind power generation. In the performance analysis and optimal design of permanent magnet direct drive wind turbines, accurate and efficient air gap magnetic field distribution is an important premise. In this paper, the air gap magnetic field of permanent magnet direct drive generator under load condition is studied. Based on the exact domain solution and conformal mapping, the scalar magnetic potential of the air gap magnetic field considering the cogging effect is calculated. Discrete line current element is used to quantitatively simulate the local magnetic saturation of generator stator and rotor. Based on the calculation method of the nonlinear reluctance of the stator and rotor considering the geometric size, the magnetic equivalent circuit model including the structure of the stator and rotor and the length of the air gap is established, and the corresponding iterative solution process is presented. Taking the actual megawatt permanent magnet direct drive generator in service as an example, the air gap magnetic field distribution considering the cogging effect is calculated, and the influence of magnetic saturation effect on the air gap magnetic field distribution curve waveform and harmonic components under no-load and load conditions is analyzed. The proposed analysis model and solution method are verified by comparing with the finite element results. Under the no-load condition, the air gap magnetic field intensity is basically unchanged whether the saturation effect is considered or not. The harmonic component includes the fundamental frequency and its odd frequency multiples, and the combination of the tooth slot frequency and the fundamental frequency. Under the load condition, the relative difference between the magnetic field intensity with and without saturation effects can exceed 15%, indicating that the influence of magnetic saturation effect is significantly enhanced and cannot be ignored in the load condition. Compared with the result in the no-load condition, the variation amplitude of the air gap magnetic field intensity increases obviously. The harmonic component is basically the same as that in no-load condition, but the amplitude is higher than that in no-load condition, especially for the increase of the amplitude of fundamental wave frequency. The analysis model and solution method proposed in this paper provide important preconditions for the magneto-solid coupling analysis and performance optimization design of megawatt permanent magnet direct drive wind turbines. © 2023 Chinese Machine Press. All rights reserved.

引用

页码：703 / 711

页数：8

共 23 条

[1] Wang Fengxiang, Application and development tendency of PM machines in wind power generation system, Transactions of China Electrotechnical Society, 27, 3, pp. 12-24, (2012)
[2] Gao Jian, Huang Shoudao, Zhang Wenjuan, Et al., Optimal design for permanent magnet wind power generators based on converter controlling algorithm, Transactions of China Electrotechnical Society, 28, 7, pp. 103-109, (2013)
[3] Xu Shuiqing, Tao Songbing, He Yigang, Et al., Open-circuit fault diagnosis for back-to-back converter of PMSG wind generation system based on estimated instantaneous frequency of phase current, Transactions of China Electrotechnical Society, 37, 2, pp. 433-444, (2022)
[4] He Shan, Wang Weiqing, Zhang Xinyan, Et al., Electromagnetic field calculation of high capacity direct-driven permanent magnet synchronous wind power generator based on finite element method, Power System Technology, 34, 3, pp. 157-161, (2010)
[5] (2016)
[6] Pang Gucai, Deng Zhiquan, Zhang Zhongming, Analytical calculation of no-load air gap magnetic field in surface-mounted permanent magnet motor based on improved generalized magnetic circuit method, Transactions of China Electrotechnical Society, 34, 22, pp. 4623-4633, (2019)
[7] Fan Jianjian, Wu Jianhua, Analytical calculation and parameter analysis of air-gap magnetic field distribution in permanent magnet synchronous motor with partition-between-poles Halbach magnet, Transactions of China Electrotechnical Society, 25, 12, pp. 40-47, (2010)
[8] Zhang Yuejin, Li Chunjiang, Tu Guanzhen, Et al., Analytical method for air-gap main magnetic field computation of surface mounted permanent magnet torque motors, Transactions of China Electrotechnical Society, 26, 9, pp. 13-17, (2011)
[9] Li Jiebao, Jing Libing, Zhou Xiaoyan, Et al., Exact analytical method for surface-mounted permanent-magnet brushless motors, Transactions of China Electrotechnical Society, 27, 11, pp. 83-88, (2012)
[10] Zarko D, Ban D, Lipo T A., Analytical calculation of magnetic field distribution in the slotted air gap of a surface permanent-magnet motor using complex relative air-gap permeance, IEEE Transactions on Magnetics, 42, 7, pp. 1828-1837, (2006)

← 1 2 3 →