110 kV變壓器直流電阻不平衡缺陷分析
張云1��,王云龍1�,程林峰1,陳兆光2
(1 廣東電網(wǎng)有限責(zé)任公司惠州供電局,廣東 惠州 516003;2 中國能建集團廣東電力設(shè)備廠有限公司����,廣東 廣州 510285)
摘 要:繞組相間或線間直流電阻不平衡率超標(biāo)是常見的變壓器缺陷��。介紹了一起110 kV變壓器輕瓦斯保護動作事件�,通過現(xiàn)場試驗數(shù)據(jù)分析,發(fā)現(xiàn)該主變變高繞組直流電阻不平衡���,其中C相變高繞組直流電阻偏大。綜合油色譜試驗數(shù)據(jù)���,初步判斷出故障部位�,經(jīng)返廠解體檢查�����,確認(rèn)是繞組出線與引線壓接不到位���,導(dǎo)致繞組直流電阻不平衡率超標(biāo)����,并對裸銅線冷壓焊接工藝提出了改進(jìn)措施以預(yù)防類似問題再次發(fā)生。
關(guān)鍵詞:變壓器�����;直流電阻��;輕瓦斯保護�����;繞組出線����;引線;冷壓焊接
中圖分類號:TM406 文獻(xiàn)標(biāo)識碼:B 文章編號:1007-3175(2018)04-0053-03
Analysis of Unbalance Defect of DC Resistance in 110 kV Transformer
ZHANG Yun1, WANG Yun-long1, CHENG Lin-feng1, CHEN Zhao-guang2
(1 Huizhou Power Supply Bureau of Guangdong Power Gird Corporation, Huizhou 516003, China;
2 Guangdong Electric Power Equipment Factory Co., Ltd, of China Energy Construction Group, Guangzhou 510285, China)
Abstract: The imbalance rate of direct current (DC) resistance between winding and line is the common transformer defect. This paper introduced an 110 kV transformer light gas protection action event. Through field test data analysis, it was found that the high-voltage winding DC resistance of main transformer was unbalanced, among which the phase-C high-voltage winding DC resistance was too large. After the oil chromatography test data was synthesized, the trouble location was initially judged. Inspection of disassembly affirmed that the winding outlet and lead wire were not crimped in place to lead to the imbalance rate of winding DC resistance exceed the standard, and for the process of bare copper wire cold pressing welding, this paper proposed the improvement measures to guard against the similar problems occurring again.
Key words: transformer; direct current resistance; light gas protection; winding outlet; lead wire; cold welding
參考文獻(xiàn)
[1] 陳化鋼. 電力設(shè)備預(yù)防性試驗方法及診斷技術(shù)[M]. 北京:中國科學(xué)技術(shù)出版社��,2001.
[2] 袁燕嶺�����,甘景福����,陳震,等. 變壓器直流電阻測試數(shù)據(jù)異常分析與處理[J]. 變壓器����,2011����,48(4):60-62.
[3] 王亮.電力變壓器直流電阻快速測量的研究[D]. 保定:華北電力大學(xué)�����,2001.
[4] 李滿坤����,周理兵. 大型電力變壓器直流電阻測試的方法及特點[J]. 變壓器,2000�����,37(7):35-39.
[5] GB 1094.4—2013 電力變壓器 第1 部分:總則[S].
[6] GB/T 6451—2015 油浸式電力變壓器技術(shù)參數(shù)和要求[S].
[7] 李其偉��,咸日常.220 kV變電站主變壓器低壓繞組熔斷事故分析[J]. 廣東電力��,2017����,30(1):89-92.
[8] 宋文翠�����,陳朋,孫成田���,等. 變壓器繞組直流電阻異常的分析與處理[J]. 變壓器��,2017����,54(5):66-69.
[9] 舒劍飛��,張建學(xué). 變壓器直流電阻測試實例分析與故障判斷[J]. 電力學(xué)報��,2010���,25(4):321-324.
[10] 李帥���,李雪. 主變直流電阻數(shù)據(jù)異常分析[J]. 變壓器,2015�,52(2):70-71.
[11] 嚴(yán)玉婷,江健武�,王亞舟,等. 變壓器直流電阻測試原理及現(xiàn)場缺陷情況分析[J]. 高壓電器,2010�����,46(10):97-101.
[12] 涂明濤���,楊清華. 典型變壓器直流電阻缺陷的分析與診斷[J]. 高電壓技術(shù)����,2008��,34(2):419-421.
[13] 敬勇. 變壓器直流電阻不平衡的原因分析[J]. 現(xiàn)代電力�,1999,16(3):40-45.
[14] 韓見文����,王常平,陸軍�,等. 淺談解決變壓器直流電阻不平衡及電阻混亂的方法[J]. 變壓器,2003�,40(1):20-23.
[15] 李文剛����,曹桂江. 淺談解決三相變壓器直流電阻不平衡率的問題[J]. 變壓器,2010,47(6):27-29.
[16] 付萌. 引線冷壓焊接新工藝探究[J]. 無線互聯(lián)科技�,2014(2):161.
[17] 趙靜月. 變壓器制造工藝[M]. 北京:中國電力出版社,2009.
