500kV变电站开路断路器感应电流计算与分析

Yang Su, Gang Liu, Xiaoming Zhang, Song Yan, Kai Ma, Daojun Huang, Yushun Zhao
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引用次数: 0

摘要

500kV变电站开关站内大量电力设备集中分布,导致开关站内磁场分布复杂。高压开路断路器在维修过程中会产生感应电流,对断路器维修人员构成安全隐患。本文首先测量了变电站500kV开关站内断路器、电缆、接地网、两根接地线和接地开关的感应电流,然后测量了变电站500kV开关站内的工频磁场。仿真研究。测量计算结果表明,500kV开关场中断路器产生的感应电流峰对峰值为3.93 ~ 7.33A,磁感应强度范围在0.44 ~ 8.76µT之间,最大工频磁场强度主要集中在第二母线以下,越靠近正常工作母线,磁感应强度越大;这就导致高压开路断路器产生的感应电流更大。高压开路断路器在维护时,在断路器两端悬挂接地线,可有效降低感应电压,从而保证操作人员的安全。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Calculation and Analysis of Induced Current of Open Circuit Breaker in 500kV Substation
The centralized distribution of a large number of power equipment in the switchyard of 500kV substations leads to complicated magnetic field distribution in the switchyard. High-voltage open circuit breakers under maintenance will generate induced currents, which is a safety hazard for circuit breaker maintenance workers. This article first measures the induced current of the circuit breaker, cable, grounding grid, and two grounding wires and the grounding switch in the 500kV switchyard of the substation, and then measures the power frequency magnetic field in the 500kV switchyard of the substation. simulation Research. The measurement and calculation results show that the peak-to-peak value of the induced current generated by the circuit breaker in the 500kV switching field in the 500kV switching field is 3.93∼7.33A, the magnetic induction intensity ranges between 0.44∼8.76µT, and the maximum power frequency magnetic field intensity is mainly concentrated Below the second bus, the closer to the normal working bus, the greater the magnetic induction intensity, which leads to the greater the induced current generated in the high-voltage open circuit breaker. When the high-voltage open circuit breaker is under maintenance, the ground wire is suspended at both ends of the circuit breaker to effectively reduce the induced voltage, thereby ensuring the safety of the operators.
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