Effect of Rotor Eccentricity Fault on Air Gap Magnetic Field in Brushless Doubly-Fed Machine
Ge Baojun, Mao Bo, Lin Peng, Xiao Fang, Niu Huanran
National Engineering Research Center of Large Electric Machines and Heat Transfer Technology Harbin University of Science and Technology Harbin 150080 China
Abstract:In order to accurately analyze the distribution characteristics and variation law of the air gap magnetic field of the brushless doubly-fed electric machine after the rotor eccentric fault, the magnetic field generated by two sets of windings of different pole numbers on the stator side was analyzed by the magnetic potential and magnetic permeability method. The influence of the air gap magnetic field was established. Then the field-circuit coupling model of brushless doubly-fed electric machine with rotor eccentricity considered was established, and the air gap magnetic field under the eccentric fault of the brushless doubly-fed electric machine was calculated. It was analyzed that the static and dynamic eccentricity of the rotor will cause the air gap magnetic field distortion and introduce new spatial harmonic components. The rotor dynamic eccentricity fault will also introduce new time harmonics. The variation law of time harmonics with eccentricity and the distribution of time harmonics along the selected air gap circle under the same eccentricity were studied. The analytic method results are consistent with the simulation results of the field-circuit coupling model and compared with the results from test coils. This paper provides a theoretical basis for the detection and diagnosis of rotor eccentricity faults.
戈宝军, 毛博, 林鹏, 肖芳, 牛焕然. 无刷双馈电机转子偏心对气隙磁场的影响[J]. 电工技术学报, 2020, 35(3): 502-508.
Ge Baojun, Mao Bo, Lin Peng, Xiao Fang, Niu Huanran. Effect of Rotor Eccentricity Fault on Air Gap Magnetic Field in Brushless Doubly-Fed Machine. Transactions of China Electrotechnical Society, 2020, 35(3): 502-508.
[1] Williamson S, Ferreira A C, Wallace A K.Generalized theory of the brushless doubly-fed machine. part I: analysis[J]. IEE Proceedings, Electrical Power Applications, 1997, 144(2): 111-122, . [2] Williamson S, Ferreira A C, Wallace A K.Generalised theory of the brushless doubly-fed machine. 2: model verification and performance[J]. IEE Proc eedings-Electric Power Application, 1997, 144(2): 123-129. [3] 杨顺昌. 无刷双馈电机的电磁设计特点[J]. 中国电机工程学报, 2001, 21(7): 107-110. Yang Shunchang.Feature of electromagnetic design for brushless doubly-fed machines[J]. Proceedings of the CSEE, 2001, 21(7): 107-110. [4] 张雄希, 刘振兴. 基于倒频谱分析的电机故障检测[J].电力系统保护与控制, 2010, 38(20): 145-147. Zhang Xiongxi, Liu Zhenxing.Fault detection for motor based on cepstrum analysis[J]. Power System Protection and Control, 2010, 38(20): 145-147. [5] 张菁菁, 王臻. 基于奇异值分解滤波的Prony技术在异步电机偏心故障检测中的研究[J]. 电机与控制应用, 2016, 43(3): 83-88. Zhang Jingjing, Wang zhen. Research on the detecting eccentricity fault of asynchronous motor based on singular value decomposition filter and prony technique[J]. Motor and Control Applications, 2016, 43(3): 83-88. [6] 靳彦虎. 基于定子电流信号分析的异步电机定转子故障的诊断[D]. 石家庄:河北科技大学, 2013. [7] Cardoso A J M, Saraiva E S. Computer-aided detection of airgap eccentricity in operating three-phase induction motors by Park's vector approach[J]. IEEE Transactions on Industry Applications, 2002, 29(5): 897-901. [8] Huang Xianghui.Diagnotics of air gap eccentricity in closed-loop drive-connected induction motors[C]//4th IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives Conference, Atlanta, GA, USA 2005, DOI: 10.1109/DEMPED. 2003.1234592. [9] 仇志坚, 李琛, 周晓燕, 等. 表贴式永磁电机转子偏心空载气隙磁场解析[J]. 电工技术学报, 2013, 28(3): 114-121. Qiu Zhijian, Li Wei, Zhou Xiaoyan, et al.Analytical calculation of no-load air-gap magnetic field in surface-mounted permanent magnet motors with rotor eccentricity[J]. Transactions of China Electrotechnical Society, 2013, 28(3): 114-121. [10] 章跃进, 章君达. 偏心式谐波磁力齿轮气隙磁场分式线性变换解析模型[J]. 电工技术学报, 2018, 33(15): 3572-3577. Zhang Yuejin, Zhang Junda.Analytical model of magnetic field of eccentric harmonic magnetic gear using fractional linear transformation method[J]. Transactions of China Electrotechnical Society, 2018, 33(15): 3572-3577. [11] 陈世坤. 电机设计[M]. 北京: 机械工业出版社, 1990. [12] 邓先明, 姜建国. 无刷双馈电机的工作原理及电磁设计[J]. 中国电机工程学报, 2003, 23(11): 130-136. Deng Xianming, Jiang Jianguo.The principle and electromagnetic design of brushless doubly-fed machines[J]. Proceedings of the CSEE, 2003, 23(11): 130-136. [13] 孙宇光, 王祥珩, 桂林, 等. 场路耦合法计算同步发电机定子绕组内部故障的暂态过程[J]. 中国电机工程学报, 2004, 24(1): 136-141. Sun Yuguang, Wang Xiangheng, Gui Lin, et al.Transient calculation of stator’s internal faults in synchronous generator using FEM coupled with multi-loop method[J]. Proceedings of the CSEE, 2004, 24(1): 136-141. [14] 赵洪森, 戈宝军, 陶大军, 等. 大型核电汽轮发电机定子内部短路故障时局部电磁力分布研究[J]. 电工技术学报, 2018, 33(7): 1497-1507. Zhao Hongsen, Ge Baojun, Tao Dajun, et al.Local electromagnetic force distribution study on giant nuclear turbo-generators with stator short-circuit fault[J]. Transactions of China Electrotechnical Society, 2018, 33(7): 1497-1507 . [15] 赵洪森, 戈宝军, 陶大军, 等. 定子绕组匝间短路对发电机电磁转矩特性的影响[J]. 电工技术学报, 2016, 31(5): 192-198. Zhao Hongsen, Ge Baojun, Tao Dajun, et al.Influence of stator winding inter turn short circuit fault on generator electromagnetic torque characteristics[J]. Transactions of China Electrotechnical Society, 2016, 31(5): 192-198. [16] 肖士勇, 戈宝军, 陶大军, 等. 同步发电机定子绕组匝间短路时转子动态电磁力计算[J]. 电工技术学报, 2018, 33(13): 2956-2962. Xiao Shiyong, Ge Baojun, Tao Dajun, et al.Calculation of rotor dynamic electromagnetic force of synchronous generator under the stator winding interturn short circuit fault[J]. Transactions of China Electrotechnical Society, 2018, 33(13): 2956-2962. [17] 贾磊. 绕线转子无刷双馈电机电磁设计与运行特性研究[D]. 武汉: 华中科技大学, 2016. [18] 王汉丰. 潜水电机偏心故障下的磁场特性分析及其在线检测[D]. 合肥:合肥工业大学, 2016. [19] 阚超豪, 丁少华, 刘祐良, 等. 基于气隙磁场分析的无刷双馈电机偏心故障研究[J]. 微电机, 2017, 50(3): 5-8,18. Kan Chaohao, Ding Shaohua, Liu Youliang, et al.Study on eccentricity fault of brushless doubly-fed machine based on air gap magnetic field analysis[J]. Micromotor, 2017, 50(3): 5-8,18.
2020, Vol. 35 
