GIS過熱案例分析及回路電阻檢測方法探討
鄧威
(廣東電網(wǎng)有限責任公司中山供電局,廣東 中山 528400)
摘 要:GIS設(shè)備過熱故障原因主要有導體連接部位螺栓松動、電弧灼傷、彈簧疲勞、接觸面積減小等造成接觸電阻增大,溫度急劇升高,導體或緊固件熔化導致設(shè)備短路故障。在分析幾起GIS設(shè)備過熱故障、異常案例的基礎(chǔ)上,評估了回路電阻檢測、氣體分解物測試、局部放電檢測等幾種方法對于GIS過熱故障前預防、故障后定位的應用效果,認為回路電阻檢測對于發(fā)現(xiàn)各種原因?qū)е碌腉IS過熱缺陷最為直接有效。經(jīng)模擬實驗輔助驗證,證明了該方法的有效性,并對GIS設(shè)備回路電阻檢測提出了相關(guān)建議。
關(guān)鍵詞:GIS;過熱;案例分析;回路電阻檢測
中圖分類號:TM595 文獻標識碼:A 文章編號:1007-3175(2017)12-0051-05
Case Analysis and Discussion on Loop Resistance Detection Method for Overheat of Gas Insulated Switchgear
DENG Wei
(Zhongshan Power Supply Bureau of Guangdong Power Grid Co., Ltd, Zhongshan 528400, China)
Abstract: The overheat faults of gas insulated switchgear (GIS) equipment were caused mainly by the conductor connection bolt looseness, arc burning, spring fatigue, contact area reduction and so on, which gave rise to the contact resistance increasing, the temperature rising sharply and the conductor or fastener melting, resulting in the equipment short circuit faults. This paper analyzed several faults and abnormal cases of GIS equipment overheat and evaluated the application effect for the prevention before GIS equipment overheat faults and the location after faults by the loop resistance, gas decomposer and partial discharge etc detection methods. The loop resistance detection was the direct and effective method to find various kinds of reasons leading to the GIS overheat defect. The auxiliary verification of simulation experiment verifies the validity of this method. This paper proposes some suggestions on the loop resistance detection of GIS equipment.
Key words: gas insulated switchgear; overheat; case analysis; loop resistance detection
參考文獻
[1] 王文洪,何滿棠.252 kV GIS設(shè)備罐體發(fā)熱缺陷的原因分析[J]. 高壓電器,2009,45(3):148-150.
[2] 范鎮(zhèn)南,羅永剛,趙斌,等. 內(nèi)部導體結(jié)構(gòu)對GIS母線損耗發(fā)熱的影響[J]. 電機與控制學報,2011,15(5):22-27.
[3] 金向朝,謝志楊,劉秀甫,等. 基于有限元法的三相同殼結(jié)構(gòu)GIS母線熱分析[J]. 武漢大學學報( 工學版),2013,46(5):654-658.
[4] 王俊波,苗銀銀,羅容波,等. GIS觸頭接觸狀況檢測現(xiàn)狀分析[J]. 高壓電器,2013,49(12):137-140.
[5] 師曉巖,查瑋,孫福,等.UHV GIS內(nèi)部溫度場的紅外熱診斷技術(shù)[J]. 高電壓技術(shù),2007,33(6):16-20.
[6] 范慶濤. 六氟化硫氣體過熱性分解實驗系統(tǒng)研制及實驗方法研究[D]. 重慶:重慶大學,2013.
[7] 賈志杰,張斌.GIS 回路電阻超標缺陷定位分析[J].中國電力,2015,48(5):46-50.
[8] 李景湖.500 kV加林站220 kV GIS回路電阻超標分析及處理[J]. 貴州電力技術(shù),2015,18(11):54-55.
[9] 周仿榮,程志萬,劉紅文,等. 超高壓GIS設(shè)備主回路電阻測量比較分析[J]. 云南電力技術(shù),2016,44(2):58-60.
[10] 劉佳鑫,魯旭臣,韋德福,等. GIS長母線回路電阻測試方法研究[J]. 東北電力技術(shù),2015,36(5):16-19.