在運(yùn)水樹老化電纜絕緣性能提升技術(shù)的應(yīng)用
李巍巍1��,楊琳1����,朱柯1���,曹騎峰2����,王虎2�,張藝凡3
(1 國網(wǎng)四川省電力公司電力科學(xué)研究院,四川 成都 610072����;2 國網(wǎng)四川省電力公司成都供電公司,四川 成都 610041�;
3 國網(wǎng)四川省電力公司眉山供電公司,四川 眉山 620010)
摘 要:基于硅氧烷的水樹老化電纜修復(fù)技術(shù)為解決配網(wǎng)電纜老化問題提出了新的解決方案���。介紹了水樹老化交聯(lián)聚乙烯電纜修復(fù)技術(shù)����,分析了其在實(shí)際應(yīng)用中對電纜絕緣性能的提升效果以及注入技術(shù)的相關(guān)檢測手段�����,實(shí)際案例中運(yùn)行電纜的現(xiàn)場修復(fù)測試結(jié)果表明,修復(fù)后老化電纜的絕緣性能有明顯提升��,并成功并網(wǎng)運(yùn)行����,說明該修復(fù)技術(shù)對老化電纜絕緣性能有良好的恢復(fù)作用。
關(guān)鍵詞:交聯(lián)聚乙烯電纜����;水樹老化;硅氧烷�;修復(fù)技術(shù)
中圖分類號:TM247;TM855 文獻(xiàn)標(biāo)識碼:B 文章編號:1007-3175(2018)04-0044-04
Application of Technology of Improving Insulation Performance of Water Tree Aging Cable
LI Wei-wei1,YANG Lin1, ZHU Ke1, CAO Qi-feng2, WANG Hu2, ZHANG Yi-fan3
(1 State Grid Sichuan Power Supply Company Electric Power Research Institute, Chengdu 610072, China;
2 State Grid Sichuan Power Supply Company Chengdu Power Supply Company, Chengdu 610041, China;
3 State Grid Sichuan Power Supply Company Meishan Power Supply Company, Meishan 620010, China)
Abstract: On the basis of the technology of water tree aging cable rejuvenation based on siloxane, this paper put forward a new solution to solve the aging problem of the distribution network cable. Introduction was made to the water tree aging crosslinked polyethylene cable rejuvenation technology. This paper analyzed the lifting effect of cable insulation performance in practical application and the correlation detection means injecting technology. In practical case the onsite rejuvenation test result of operation cable shows that after the rejuvenation, the aging cable insulation performance is improved significantly, which illustrate the rejuvenation technology plays a good part in recovering the aging cable insulation performance.
Key words: crosslinked polyethylene cable cables; water-tree age; siloxane; rejuvenation technology
參考文獻(xiàn)
[1] 王少華����,葉自強(qiáng),梅冰笑��,等. 電力電纜故障原因及檢測方法研究[J]. 電工電氣��,2011(5):48-51.
[2] 喻巖瓏���,李晟,孫輝��,等. XLPE電纜絕緣老化與剩余壽命評估的試驗(yàn)方法[J]. 電網(wǎng)與清潔能源,2011��,27(4):26-29.
[3] 楊威. 電纜橋架的現(xiàn)狀與發(fā)展前景[J]. 電工電氣�����,2009(2):1-3.
[4] CRINE J P, JOW J.A Water Treeing Model[J]. IEEE Transactions on Dielectrics and Electrical Insulation�����,2005���,12(4):801-808.
[5] 王樂��,孫穎�����,汪輝平�����,等. 絕緣材料水樹產(chǎn)生及發(fā)展機(jī)理的研究現(xiàn)狀[J]. 電線電纜�,2006(6):5-8.
[6] 周凱���,楊滴�����,陶文彪�,等. 修復(fù)液的擴(kuò)散行為對水樹電纜修復(fù)后電氣性能的影響機(jī)制[J]. 中國電機(jī)工程學(xué)報(bào),2015��,35(19):5095-5102.
[7] 黃曉峰. 交聯(lián)聚乙烯電力電纜絕緣老化評估及修復(fù)方法研究[D]. 成都:西南交通大學(xué)��,2014.
[8] ROSS R, SMIT J J.Composition and growth of water trees in XLPE[J]. IEEE Transactions on Electrical Insulation��,1992�����,27(3):519-531.
[9] 黨智敏����,亢婕,屠德民. 聚合物中水樹的研究現(xiàn)狀[J]. 電線電纜���,2001(4):30-33.
[10] ZHOU K, HUANG M, TAO W, et al.A possible water tree initiation mechanism for serviceaged XLPE cables:Conversion of electrical tree to water tree[J]. IEEE Transactions on Dielectrics and Electrical Insulation��,2016�,23(3):1854-1861.
[11] ARAS F, ALEKPEROV V, CAN N, et al. Aging of 154 kV underground power cable insulation under combined thermal and electrical stresses[J]. IEEE Electrical Insulation Magazine�,2007,23(5):25-33.
[12] GLEN J B, GARY A V. Cable Rejuvenation Mechanisms[C]//Voltage Stabilization UV Stabilization�����,2006.
[13] 朱曉輝. 老化中壓XLPE電纜修復(fù)新技術(shù)研究[J]. 電力設(shè)備�,2007,8(5):42-44.
[14] 周凱���,陶霰韜����,趙威���,等. 在水樹通道內(nèi)生成納米TiO2的電纜修復(fù)方法及其絕緣增強(qiáng)機(jī)制研究[J].中國電機(jī)工程學(xué)報(bào)�����,2013����,33(7):202-210.
[15] STAGI W R.Cable Injection Technology[C]//IEEE/ PES Transmission & Distribution Conference and Exposition:Latin America����,2006.
