Design of Pole Detection Coils for Open-Circuit and Short-Circuit Faults in Multiphase Brushless Exciter
Sun Yuguang1, Du Wei1, Gui Lin1, Duan Xianwen2, Hao Liangliang3
1. State Key Laboratory of Power System Operation and Control Department of Electrical Engineering Tsinghua University Beijing 100084 China; 2. China Nuclear Power Operations Co. Ltd Shenzhen 518172 China; 3. School of Electrical Engineering Beijing Jiaotong University Beijing 100044 China
Abstract:Multiphase brushless exciters have been widely used in large-capacity nuclear power units, but there is a lack of reliable measures for detection and protection of common faults at present. In this paper, a new type of fault detecting coil installed on the field pole of the brushless exciter, named as pole detection coil, was designed, and the connection ways of the detection coils was also studied. Characteristics of the phase current and armature reaction magnetic field were analyzed under normal operation and various fault conditions such as inter-turn short-circuit of field windings, open-circuit of diode, line break fault and internal short-circuit of armature windings in the multiphase brushless exciters with polygon connection armature. And then, the harmonic characteristics of the open-circuit voltage generated in the detection coil port were theoretically analyzed, and were verified by experiments on a model prototype of 11-phase brushless exciter. Theoretical analysis and experimental results show that, common faults in the multiphase brushless exciters could be detected and distinguished by the pole detection coil with the proposed connection ways, which provides a new idea to improve the operation safety and reliability of the multiphase brushless exciter.
孙宇光, 杜威, 桂林, 段贤稳, 郝亮亮. 用于多相无刷励磁机开路与短路故障检测的磁极探测线圈设计[J]. 电工技术学报, 2022, 37(14): 3542-3554.
Sun Yuguang, Du Wei, Gui Lin, Duan Xianwen, Hao Liangliang. Design of Pole Detection Coils for Open-Circuit and Short-Circuit Faults in Multiphase Brushless Exciter. Transactions of China Electrotechnical Society, 2022, 37(14): 3542-3554.
[1] 任泰安, 阚超豪, 胡杨, 等. 极对数组合形式对绕线转子无刷双馈电机性能的影响[J]. 电工技术学报, 2020, 35(3): 509-519. Ren Taian, Kan Chaohao, Hu Yang, et al.Influence of pole-pairs combination on the performance of wound-rotor brushless double-fed machine[J]. Transactions of China Electrotechnical Society, 2020, 35(3): 509-519. [2] 许国瑞, 胡一平, 李伟力, 等. 双轴励磁同步电机同步电抗随运行工况的变化规律[J]. 电工技术学报, 2020, 35(2): 236-245. Xu Guorui, Hu Yiping, Li Weili, et al.The variation law of synchronous reactance along with the operation condition of dual-excited synchronous generator[J]. Transactions of China Electrotechnical Society, 2020, 35(2): 236-245. [3] 付兴贺, 江政龙, 吕鸿飞, 等. 电励磁同步电机无刷励磁与转矩密度提升技术发展综述[J]. 电工技术学报, 2022, 37(7): 1689-1702. Fu Xinghe, Jiang Zhenglong, Lü Hongfei, et al.Review of the blushless excitation and torque density improvement in wound field synchronous motors[J]. Transactions of China Electrotechnical Society, 2022, 37(7): 1689-1702. [4] 赵冬梅, 王浩翔, 陶然. 计及风电-负荷不确定性的风-火-核-碳捕集多源协调优化调度[J]. 电工技术学报, 2022, 37(3): 707-718. Zhao Dongmei, Wang Haoxiang, Tao Ran.A multi-source coordinated optimal scheduling model con-sidering wind-load uncertainty[J]. Transactions of China Electrotechnical Society, 2022, 37(3): 707-718. [5] 王光, 陈俊, 张琦雪, 等. 无刷旋转励磁发电机组励磁绕组接地保护系统研制和工程应用[J]. 中国电力, 2017, 50(7): 159-163. Wang Guang, Chen Jun, Zhang Qixue, et al.Research and project application of field winding ground fault protection system on brushless rotating excitation generator[J]. Electric Power, 2017, 50(7): 159-163. [6] 陈宇锋. 发电机旋转二极管非导通检测系统DNC故障分析[J]. 广西电力, 2004(4): 43-44. Chen Yufeng.Analysis about DNC failure in generator rotating diode non conduction detection system[J]. Guangxi Electric Power, 2004(4): 43-44. [7] 袁金, 刘国强, 陈晓义, 等. 霍尔元件用于无刷励磁旋转二极管故障在线监测[J]. 电机技术, 2013(1): 22-26, 34. Yuan Jin, Liu Guoqiang, Chen Xiaoyi, et al.Hall elements used in online monitoring to the default of rotating rectifier in the large-size brushless exciter[J]. Electrical Machinery Technology, 2013(1): 22-26, 34. [8] 朱荣, 孙晖. 阿尔斯通TKJ型无刷励磁机磁极线圈烧损原因及处理对策[J]. 大电机技术, 2008(5): 56-58. Zhu Rong, Sun Hui.The causes of countermeasures against the burnt accidents of the magnetic pole coils of the TKJ-type blushless exciter of Alstom[J]. Large Electric Machine and Hydraulic Turbine, 2008(5): 56-58. [9] 郝亮亮, 李佳慧, 李洪学, 等. 核电多相角形无刷励磁系统旋转二极管开路故障特征分析[J]. 电力系统自动化, 2019, 43(11): 112-120. Hao Liangliang, Li Jiahui, Li Hongxue, et al.Characteristic analysis of open-circuit fault of rotating diode in nuclear multi-phase angular brush-less excitation system[J]. Automation of Electric Power Systems, 2019, 43(11): 112-120. [10] 郝亮亮, 常江, 李洪学, 等. 核电多相角形无刷励磁机定子匝间短路故障特征分析[J]. 中国电机工程学报, 2019, 39(22): 6726-6736. Hao Liangliang, Chang Jiang, Li Hongxue, et al.Characteristics analysis of stator inter-turn short circuits in nuclear power multi-phase angular brush-less exciter[J]. Proceedings of the CSEE, 2019, 39(22): 6726-6736. [11] 郝亮亮, 李佳慧, 段贤稳, 等. 核电多相环形无刷励磁机转子绕组短路故障特征分析[J]. 电工技术学报, 2020, 35(6): 1251-1261. Hao Liangliang, Li Jiahui, Duan Xianwen, et al.Characteristic analysis of short-circuit fault in rotor winding of nuclear power multi-phase annular brush-less exciter[J]. Transactions of China Electrotechnical Society, 2020, 35(6): 1251-1261. [12] Zouaghi T, Poloujadoff M.Modeling of polyphase brushless exciter behaviour for failing diode oper-ation[J]. IEEE Transactions on Energy Conversion, 1998, 13(3): 214-220. [13] 刘为群, 吴龙, 牟伟. 多相无刷励磁系统旋转整流器故障检测新方法[J]. 大电机技术, 2010(6): 61-65. Liu Weiqun, Wu Long, Mu Wei.New fault detection method for rotary rectifier of multi-phase brushless excitation system[J]. Large Electric Machine and Hydraulic Turbine, 2010(6): 61-65. [14] 郝亮亮, 王善铭, 邱阿瑞, 等. 多相无刷励磁系统旋转整流器故障的仿真与识别[J]. 电工技术学报, 2012, 27(4): 138-144. Hao Liangliang, Wang Shanming, Qu Arui, et al.Simulation and recognition for rotary rectifier fault in multiphase brushless excitation system[J]. Transa-ctions of China Electrotechnical Society, 2012, 27(4): 138-144. [15] Kumar P N, Isha T B.FEM based electromagnetic signature analysis of winding inter-turn short-circuit fault in inverter fed induction motor[J]. CES Transa-ctions on Electrical Machines and Systems, 2019, 3(3): 309-315. [16] 曾德纯, 兰安秀, 廖正菁, 等. 无刷同步电机转子电流测量及旋转整流器故障检测[J]. 东方电机, 1995(4): 125-128. Zeng Dechun, Lan Anxiu, Liao Zhengjing, et al.Field current measurement and rotary rectifier faults detecting of brushless excitation synchronous machine[J]. Dongfang Electrical Machine, 1995(4): 125-128. [17] 史德利, 王庭山, 胡建波. 配核电百万千瓦级发电机5800kW无刷励磁机研制[J]. 大电机技术, 2014(1): 69-71, 80. Shi Deli, Wang Tingshan, Hu Jianbo.Developing and manufacturing summary of 5800kW brushless exciter[J]. Large Electric Machine and Hydraulic Turbine, 2014(1): 69-71, 80. [18] 刘念. 旋转整流器故障的神经网络识别研究[J]. 电力系统自动化, 1998, 22(10): 31-33. Liu Nian.Study on a neural network recognition to faults of rotating rectifiers[J]. Automation of Electric Power Systems, 1998, 22(10): 31-33. [19] 胡德剑, 王建立, 王黔. 宁德核电厂无刷励磁机原理、结构和运行监测[J]. 东方电气评论, 2013, 27(4): 60-64. Hu Dejian, Wang Jianli, Wang Qian.Principle structure and operating inspection of brushless exciter for Ningde nuclear power station[J]. Dongfang Electric Review, 2013, 27(4): 60-64. [20] Wu Yucai, Cai Bochong, Ma Qianqian.An online diagnostic method for rotary diode open-circuit faults in brushless exciters[J]. IEEE Transactions on Energy Conversion, 2018, 33(4): 1677-1685. [21] Albright D R.Interturn short-circuit detector for turbine-generator rotor windings[J]. IEEE Transa-ctions on Power Apparatus and Systems, 1971, 90(2): 478-483. [22] 孙宇光, 余锡文, 魏锟, 等. 发电机绕组匝间故障检测的新型探测线圈[J]. 中国电机工程学报, 2014, 34(6): 917-924. Sun Yuguang, Yu Xiwen, Wei Kun, et al.A new type of search coil for detecting inter-turn faults in synchronous machines[J]. Proceedings of the CSEE, 2014, 34(6): 917-924.
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