摘要
为了研究异性导电媒质对直流接地极跨步电压分布的影响,通过CDEGS建立水平双圆环直流接地极模型,计算极址外部附近以及极址区域内存在异性导电媒质时的跨步电压分布。结果表明:当接地极极址外部附近存在一块高(低)电阻率的异性媒质时,将会使外环靠近异性媒质区域的溢流密度及跨步电压下降(升高);当极址内部的表层局部区域存在一块高(低)电阻率的异性媒质时,将会使位于异性导电媒质的环段的溢流密度下降(升高),但跨步电压却反而增加(降低);当极址内部的下层局部区域存在一块高(低)电阻率的异性媒质时,将会使位于异性导电媒质的环段的溢流密度和跨步电压同时降低(升高)。研究成果可为直流输电工程中接地极设计及选址提供参考。
To study the influence of anisotropic conductive medium on the step voltage distribution of DC grounding electrode,a horizontal double-ring DC grounding electrode model was established by CDEGS,and the step voltage distribution near the electrode site and in the electrode site area was calculated.The results show that when there was a high(low)-resistivity anisotropic medium near the grounding electrode site,the overflow density and step voltage of the outer ring near the anisotropic medium decreased(increased).When there was a high(low)-resistivity anisotropic medium on the inner surface of the polar site,the overflow density of the ring in the anisotropic conductive medium decreased(increased),but the step voltage increased(decreased).When there was a high(low)-resistivity anisotropic medium in the lower part of the polar site,the overflow density and step voltage of the ring in the anisotropic conductive medium decreased(increased)at the same time.The research results can provide a reference for grounding electrode design and site selection in HVDC projects.
作者
谭波
童雪芳
刘鸣亚
董晓辉
王湘汉
TAN Bo;TONG Xue-fang;LIU Ming-ya;DONG Xiao-hui;WANG Xiang-han(Wuhan Branch of China Electric Power Research Institute,Wuhan 430074,China;State Key Laboratory of Power Grid Environmental Protection,Wuhan 430074,China)
出处
《科学技术与工程》
北大核心
2021年第4期1409-1414,共6页
Science Technology and Engineering
基金
国家电网公司2019年科技指南项目(5200-201955056A-0-0-00)。
关键词
直流接地极
土壤模型
异性媒质
跨步电压
HVDC earth electrode
soil model
heterosexual medium
step voltage
