矿井供电电缆绝缘电阻不对称对交流杂散电流分布的影响
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摘要
在分析矿井交流杂散电流产生机理的基础上,以某矿井交流供电系统为研究对象,结合交流杂散电流可能流通的路径,搭建了矿井交流杂散电流模型,并采用Matlab/Simulink软件进行仿真分析,研究了高低压电缆绝缘电阻在不同不平衡系数下交流杂散电流的分布规律。研究结果表明:当高压或低压电缆绝缘电阻发生不对称后,因其产生的交流杂散电流主要分布在绝缘电阻不对称区间内的屏蔽层/地线芯、金属网等结构上;当整条电缆绝缘电阻不对称时,交流杂散电流在返回电网的回流路径中不断增大;随着电缆绝缘电阻不平衡系数的增大,流经屏蔽层/地线芯、金属网及各接地极的交流杂散电流有效值均增大。
Taking AC power supply system of a mine as research object and combining possible circulation path of AC stray current,a mine AC stray current model was built based on analysis of generation mechanism of mine AC stray current.Distribution laws of AC stray current under different unbalance coefficient of insulation resistance of high voltage or low voltage cable were researched by Matlab/Simulink simulation.The research results show that when insulation resistance of high voltage or low voltage cable is asymmetry,the generated AC stray current mainly distributes in shielding or ground wire and metal net in asymmetry section of insulation resistance.When insulation resistance of the entire cable is asymmetric,AC stray current increases continuously in return path to power grid.With the increase of unbalance coefficient of insulation resistance,effective value of AC stray current flowing through shielding or ground wire,metal net and each ground electrode all increases.
Taking AC power supply system of a mine as research object and combining possible circulation path of AC stray current,a mine AC stray current model was built based on analysis of generation mechanism of mine AC stray current.Distribution laws of AC stray current under different unbalance coefficient of insulation resistance of high voltage or low voltage cable were researched by Matlab/Simulink simulation.The research results show that when insulation resistance of high voltage or low voltage cable is asymmetry,the generated AC stray current mainly distributes in shielding or ground wire and metal net in asymmetry section of insulation resistance.When insulation resistance of the entire cable is asymmetric,AC stray current increases continuously in return path to power grid.With the increase of unbalance coefficient of insulation resistance,effective value of AC stray current flowing through shielding or ground wire,metal net and each ground electrode all increases.
引文
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[3]秦怡,张栋梁,曹雪祥.煤矿井下杂散电流的产生及防治措施分析[J].矿业安全与环保,2012,39(4):88-90.
[4]梁智勇.基于磁阻效应的矿井杂散电流检测仪的开发[D].太原:太原理工大学,2014.
[5]赵猛.煤矿井下杂散电流产生机理及防治措施的研究[D].太原:太原理工大学,2015.
[6]刘明岩.配电网中性点接地方式的选择[J].电网技术,2004,28(16):86-89.LIU Mingyan.Selection of neutral grounding modes in power distribution network[J].Power System Technology,2004,28(16):86-89.
[7]周林,张有玉,刘强,等.三相不平衡度算法的比较研究[J].华东电力,2010,38(2):210-215.ZHOU Lin,ZHANG Youyu,LIU Qiang,et al.Comparative study of three-phase unbalance algorithm[J].East China Electric Power,2010,38(2):210-215.
[8]吴君,党建军.改进的矿井高压电网对地电容电流实用计算方法研究[J].煤矿机电,2010(5):6-8.WU Jun,DANG Jianjun.Study on the practical current calculation method of improved earth capacity at mine high-voltage power network[J].Colliery Mechanical&Electrical Technology,2010(5):6-8.
[9]曾祥君,胡京莹,王媛媛,等.基于柔性接地技术的配电网三相不平衡过电压抑制方法[J].中国电机工程学报,2014,34(4):678-684.ZENG Xiangjun,HU Jingying,WANG Yuanyuan,et al.Suppressing method of three-phase unbalanced overvoltage based on distribution networks flexible grounding control[J].Proceedings of the CSEE,2014,34(4):678-684.
[10]吴君,朱瑞卿.煤矿井下高压电网中性点接地方式与漏电保护方案研究[J].矿山机械,2014,42(8):120-122.WU Jun,ZHU Ruiqing.Study on neutral-point grounding mode and leakage protection scheme for high-voltage power network in underground collieries[J].Mining&Processing Equipment,2014,42(8):120-122.
[11]陈立军.10kV配电网单相接地电容电流的工程计算法探讨[J].继电器,2006,34(15):83-85.CHEN Lijun. Measuring method of one-phase grounding capacitive current in 10 kV distribution network[J].Relay,2006,34(15):83-85.
[12]谢菁,薛永端,徐丙垠.小电流接地系统不对称电压有源补偿控制方法[J].电力系统自动化,2015,39(5):115-121.XIE Jing,XUE Yongduan,XU Bingyin.An active compensation and control method of asymmetrical voltage in non-solidly grounded system[J].Automation of Electric Power Systems,2015,39(5):115-121.
[13]罗超,耿蒲龙,曲兵妮,等.矿井供电系统单相接地故障零模特征仿真研究[J].工矿自动化,2018,44(6):57-63.LUO Chao,GENG Pulong,QU Bingni,et al.Simulation research on zero-module characteristics of single-phase grounding fault in mine power supply system[J].Industry and Mine Automation,2018,44(6):57-63.
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