《电力自动化设备》

引用本文:	李　杨,计荣荣,沈扬,周浩,易强,孙可.特高压交流单相接地故障过电压计算及限制方法[J].电力自动化设备,2014,34(8):
	LI Yang,JI Rongrong,SHEN Yang,ZHOU Hao,YI Qiang,SUN Ke.Calculation and suppression of single-phase grounding overvoltage in UHVAC system[J].Electric Power Automation Equipment,2014,34(8):

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特高压交流单相接地故障过电压计算及限制方法
李　杨¹, 计荣荣², 沈扬³, 周浩¹, 易强⁴, 孙可⁵
1.浙江大学电气工程学院，浙江杭州 310027;2.浙江省电力公司检修分公司，浙江杭州 311232;3.浙江省电力设计院，浙江杭州 310012;4.南京大全电气研究院有限公司，江苏南京 211100;5.浙江省电力公司，浙江杭州 310007

摘要:

基于系统电源阻抗特性对单相接地故障过电压的影响规律，提出了综合考虑该过电压的各影响因素后求取单相接地故障过电压最大值的方法，利用该方法可以在较少的仿真计算量下准确地求出单相接地故障过电压最大值。对不同长度线路的单相接地故障过电压的限制问题进行了探讨，并从综合考虑工频过电压和操作过电压的角度提出了沿线高抗补偿容量的最优分配方案，最后对单回线路与双回线路的单相接地故障过电压进行了比较，提出了相应的过电压限制措施。结果表明线路长度小于500 km时，采用线路两端设置高抗和金属氧化物避雷器（MOA）的措施，即可有效限制该过电压；当长度超过600 km时，需在长线路中间进行分段落点，设置MOA及合适的高抗补偿容量来限制该过电压，分段距离宜控制在400 km左右；相同长度下，单回线路的单相接地故障过电压较双回线路严重。

关键词: 特高压输电交流特高压过电压接地故障分析阻抗特性线路分段计算

DOI：

分类号:

基金项目:基金项目：国家重点基础研究发展计划（973计划）资助项目（2011-CB209405）

Calculation and suppression of single-phase grounding overvoltage in UHVAC system

LI Yang¹, JI Rongrong², SHEN Yang³, ZHOU Hao¹, YI Qiang⁴, SUN Ke⁵

1.College of Electrical Engineering，Zhejiang University，Hangzhou 310027，China;2.Overhauling Branch，Zhejiang Electric Power Corporation，Hangzhou 311232，China;3.Zhejiang Electric Power Design Institute，Hangzhou 310012，China;4.Nanjing Daqo Electric Institute Co.，Ltd.，Nanjing 211100，China;5.Zhejiang Electric Power Corporation，Hangzhou 310007，China

Abstract:

Based on the effect of power source impedance on single-phase grounding overvoltage，a method to accurately calculate the maximum single-phase grounding overvoltage with less simulative computation is proposed，which considers various influencing factors synthetically. The suppression of single-phase grounding overvoltage is studied for different line lengths and the optimal allocation of HV（High Voltage） shunt reactor compensation capacity along line is proposed from the aspect of both frequency overvoltage and switching overvoltage. The single-phase grounding overvoltage is compared between single-loop and dual-loop lines，which shows that of former is serious than that of latter，and the corresponding countermeasures are given：MOA（Ｍetal Oxide Arrester） and HV shunt reactor should be installed at both ends for line with length less than 500 km；distributed MOA and HV shunt reactor installed for each segment of line with length greater than 600 km，the length of line segment should be about 400 km.

Key words: UHV power transmission UHVAC overvoltage electric grounding failure analysis impedance characteristic line segment calculations

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