Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN1007-3175

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雷擊造成的線路短路點識別和定位方法

來源:電工電氣發(fā)布時間:2016-04-05 16:05 瀏覽次數(shù):867

雷擊造成的線路短路點識別和定位方法 

韓志錕 
江蘇省電力設(shè)計院,江蘇 南京 211102 
 

摘 要: 雷擊造成線路故障后,故障點的及時識別和定位有利于電力系統(tǒng)穩(wěn)定運行。對故障性雷擊進行仿真,根據(jù)故障行波的特點提出判斷故障點與雷擊點位置異同的方法。并提出利用相關(guān)分析法處理故障行波,根據(jù)相關(guān)法的定義得到相關(guān)峰含義,推導得出測距公式,利用測距公式,對仿真模型進行故障測距。測距結(jié)果驗證表明,該方法對近距離復雜波頭的識別準確有效,可有效進行故障性雷擊的故障測距。
關(guān)鍵詞: 雷擊;輸電線路;故障測距;相關(guān)分析法;相關(guān)峰
中圖分類號:TM855 文獻標識碼:A 文章編號:1007-3175(2013)11-0010-05


Identifying and Positioning of Line Short Circuit PointCaused by Lightning Stroke 

HAN Zhi-kun 
Jiangsu Electric Power Design Institute, Nanjing 211102, China 
 

Abstract: After line fault caused by lightning stroke, in-time identifying and positioning of fault point is favorable for stable operation of power system. This paper carried out simulation for fault lightning stroke point. According to the features of fault waves, a method to judge the difference between fault point and lightning stroke point was raised and the correlation analysis method was proposed to deal with fault travelling wave. According to the definition of correlation, the correlation peak definition was obtained, thus to derive distance measuring formula. The formula was used to carry fault distance measurement for simulation model. The result of distance measurement shows that the method is correct and valid for the identification of short distance complicated peak wave head identification, can effectively carry out fault distance measurement of lightning stroke.
           Key words: lightning stroke; transmission line; fault distance measurement; correlation analysis; correlation peak


參考文獻
[1] 葛耀中.新型繼電保護和故障測距的原理與技術(shù)[M].西安:西安交通大學出版社,2007.
[2] 周鑫,呂飛鵬,吳飛,等. 基于小波變換的T 型線路故障測距新算法[J]. 電力系統(tǒng)保護與控制,2010,38(2):8-11.
[3] 李強,王銀樂.高壓輸電線路的故障測距方法[J].電力系統(tǒng)保護與控制,2009,37(23):192-197.
[4] 成樂祥,李揚,唐瑜.基于改進形態(tài)Haar小波在輸電線路故障測距中的應(yīng)用研究[J].電力系統(tǒng)保護與控制,2010,38(6):30-34.
[5] Poisson Q, Rioual P,Meunier M.New signal processing tools applied to power quality analysis[J].IEEE Transactions on Power Delivery, 1999, 14(2):561-566.
[6] 王鋼,李海鋒,趙建倉,等.基于小波多尺度分析的輸電線路直擊雷暫態(tài)識別[J].中國電機工程學報,2004,24(4):139-144.
[7] Chanda D, Kishore N K, Sinha A K, et al. A wavelet, multiresolution-based analysis for location of the point of strike of a lightning overvoltage on a transmission line[J].IEEE Transactions on Power Delivery, 2004, 19(4):1727-1733.
[8] Imece A F, Durbak D W, Elahi H, et al. Modeling guidelines for fast front transients[J].IEEE Transactions on Power Delivery, 1996, 11(1):493-506.
[9] 郭寧明.行波故障測距中的雷擊識別及定位研究[D].北京:中國電力科學研究院,2008.
[10] 黃雄,王志華,尹項根,等. 高壓輸電線路行波測距的行波波速確定方法[J]. 電網(wǎng)技術(shù),2004,28(19):34-37.
[11] 盧毅,韓志錕,汪燚春,等.T 型輸電線路行波故障測距的改進算法[J]. 電力系統(tǒng)保護與控制,2011,39(5):17-21.
[12] Omologo M, Svaizer P.Use of the crosspower-spectrum phase in acoustic event localization[J].IEEE Transactions on Speechand Audio Progressing, 1997, 5(3):288-292.
[13] LU Y, TAN X, HU X.PD detection and localization by acoustic measurements in an oilfilled transformer[J].IEE Proceeding-Science Measurement Technology, 2000, 147(2):81-85.
[14] 李友軍,王俊生,鄭玉平,等.幾種行波測距算法的比較[J].電力系統(tǒng)自動化,2001,25(14):36-39.
[15] 林福昌. 高電壓工程[M]. 北京:中國電力出版社,2006.
[16] 郭寧明,覃劍. 輸電線路雷擊故障情況下的短路點定位方法[J]. 電力系統(tǒng)自動化,2009,33(10):74-77.