中国电机工程学报 2008, 28(25) 105-110  DOI:      ISSN: 0258-8013 CN: 11-2107/TM
本期目录 | 下期目录 | 过刊浏览 | 高级检索                                                            [打印本页]   [关闭]
继电保护、通信及自动化
扩展功能
本文信息
Supporting info
PDF(271KB)
[HTML全文]
参考文献[PDF]
参考文献
服务与反馈
把本文推荐给朋友
加入我的书架
加入引用管理器
引用本文
Email Alert
文章反馈
浏览反馈信息
本文关键词相关文章
T型线路
故障测距
继电保护
过渡电阻
本文作者相关文章
施世鸿
PubMed
Article by
T型高压输电线路故障测距
施世鸿 何奔腾 张武军
浙江大学电气工程学院 浙江大学电气工程学院 浙江大学电气工程学院
摘要: 现有的T型线路故障测距算法都是先判断故障支路,然后将3端线路等效成双端线路进行测距。该文指出了在T节点附近短路,尤其是经高阻短路时,现有的T型线路故障测距方法由于无法正确判别故障支路而存在一个测距死区。考虑上述问题,该文利用过渡阻抗的纯电阻性质,提出了一种新的T型线路故障测距方法。该方法打破了传统的先判断故障支路再故障定位的模式,无需事先判别故障支路即可测距。该方法无测距死区,测距精度不受过渡电阻和故障类型影响,较好的克服了传统方法在T节点附近有测距死区的不足。EMTP仿真结果表明该方法正确,测距精度高。
关键词 T型线路   故障测距   继电保护   过渡电阻  
Fault Location for HV Three-terminal Transmission Lines
SHI Shi-hong HE Ben-teng ZHANG Wu-jun
Abstract: All of the fault location methods currently used for teed lines need to identify the fault section first, then convert the three-terminal line to a two-terminal line to locate the fault. The fact that while the fault occurs near the teed node, especially through a large resistance, the fault location methods currently used can't identify the fault section correctly, thus fail to locate the fault was pointed out. Considering the above, a new fault location method for teed lines, which makes use of the pure resistive characteristic of fault impedance is presented. This method breaks the mold of traditional methods that it must identify the fault section before locating the fault. The proposed method can locate the fault without identifying the fault section first. And this method doesn't have dead zone of fault location, it can accurately locate the fault occurring near the teed node. The accuracy is independent of fault resistance and fault type. Above all, this method perfectly solves the disadvantage of currently used methods that there is a dead zone of fault location near the teed node. Results of EMTP based simulation indicate that this method is correct and accurate.
Keywords: teed line   fault location   protective relaying   transition resistance  
收稿日期 2007-06-18 修回日期 1900-01-01 网络版发布日期  
DOI:
基金项目:

通讯作者: 施世鸿
作者简介:
作者Email: xixihao84@163.com
参考文献:
本刊中的类似文章
Copyright by 中国电机工程学报