《电力自动化设备》

引用本文:	吴玉璋,嵇兴康,李华忠,张琦雪,李建春,马启超,徐金.同步发电机励磁变压器低压侧单相接地故障识别与定位方法[J].电力自动化设备,2024,44(10):165-171.
	WU Yuzhang,JI Xingkang,LI Huazhong,ZHANG Qixue,LI Jianchun,MA Qichao,XU Jin.Method for identifying and locating single-phase grounding fault at low-voltage side of excitation transformer in synchronous generator[J].Electric Power Automation Equipment,2024,44(10):165-171.

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同步发电机励磁变压器低压侧单相接地故障识别与定位方法
吴玉璋¹, 嵇兴康², 李华忠¹, 张琦雪¹, 李建春¹, 马启超¹, 徐金¹
1.南京南瑞继保电气有限公司，江苏南京 211102;2.浙江浙能电力股份有限公司，浙江杭州 311100

摘要:

同步发电机励磁变压器低压侧未配置零序电压接地保护，当发生单相接地故障时会造成转子接地保护动作，从而误导故障排查方向。为实现励磁变低压侧单相接地故障准确识别与定位，利用叠加原理分析发生单相接地故障时转子对地电压的故障特征，提出当转子对地电压工频分量与励磁变高压侧相电压之比超过判据门槛，且转子对地绝缘电阻值较低时，判定故障点在励磁变压器低压侧。进一步地，通过分析转子对地电压工频分量与励磁变高压侧相电压的相位关系，实现励磁变压器低压侧接地故障相判别。通过仿真模型和动模实验验证了所提方法的正确性和有效性。

关键词: 励磁变压器单相接地故障转子电压叠加原理故障特征故障识别

DOI：10.16081/j.epae.202408005

分类号:

基金项目:

Method for identifying and locating single-phase grounding fault at low-voltage side of excitation transformer in synchronous generator

WU Yuzhang¹, JI Xingkang², LI Huazhong¹, ZHANG Qixue¹, LI Jianchun¹, MA Qichao¹, XU Jin¹

1.Nanjing NR Electric Co.,Ltd.,Nanjing 211102, China;2.Zhejiang Zheneng Electric Power Co.,Ltd.,Hangzhou 311100, China

Abstract:

The low-voltage side of the excitation transformer in synchronous generator is not equipped with zero-sequence voltage grounding protection. A single-phase grounding fault at low-voltage side of the excitation transformer would trigger the rotor grounding relay protection, which might misdirect fault diagnosis. For accurately identifying and locating single-phase grounding fault at the low-voltage side of the excitation transformer, superposition theorem is used to analyze the fault symptoms of rotor-to-ground voltages during single-phase grounding fault. Then it is proposed that, when the ratio of the rotor-to-ground voltage’s fundamental frequency value to the excitation transformer’s high-voltage-side phase voltage exceeds the threshold criterion, and the rotor-to-ground insulation resistance value is low, the fault point can be concluded to be on the low-voltage side of the excitation transformer. Furthermore, by analyzing the phase relationship between the fundamental frequency component of rotor-to-ground voltage and the excitation transformer’s high-voltage-side phase voltage, the phase discrimination of the low-voltage side grounding fault is achieved. The correctness and effectiveness of the proposed method is proved by simulation and dynamic experiment.

Key words: excitation transformer single-phase grounding fault rotor voltage superposition theorem fault symptom fault identification

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