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

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染污復(fù)合絕緣子電場(chǎng)仿真研究

來(lái)源:電工電氣發(fā)布時(shí)間:2017-08-23 13:23 瀏覽次數(shù):3
染污復(fù)合絕緣子電場(chǎng)仿真研究
 
王曉杰
(國(guó)網(wǎng)福建省電力有限公司電力科學(xué)研究院,福建 福州 350007)
 
    摘 要:基于Ansoft Maxwell有限元軟件,建立了110 kV復(fù)合絕緣子及其染污模型,介紹了清潔絕緣子、污染絕緣子電場(chǎng)分布規(guī)律,分析了染污絕緣子存在如位置、數(shù)量及電參數(shù)等不同形式的干燥帶時(shí)沿面電場(chǎng)的分布規(guī)律。研究結(jié)果表明:不論絕緣子出現(xiàn)何種形式的干燥帶,接近高壓端的干燥帶總是具有更高的電場(chǎng)強(qiáng)度;干燥帶出現(xiàn)在絕緣子傘裙的上下表面時(shí),干燥帶的電場(chǎng)分布規(guī)律相同;在一定范圍內(nèi),干燥帶電場(chǎng)強(qiáng)度分布取決于干燥帶相對(duì)介電常數(shù)。
    關(guān)鍵詞:染污絕緣子;干燥帶;相對(duì)介電常數(shù);有限元分析
    中圖分類號(hào):TM216     文獻(xiàn)標(biāo)識(shí)碼:A     文章編號(hào):1007-3175(2017)08-0027-04
 
Research on Electric Field Distribution of Contaminated Composite Insulators
 
WANG Xiao-jie
(State Grid Fujian Electric Power Company Research Institute, Fuzhou 350007, China)
 
    Abstract: Based on the software of finite element analysis (FEA), Ansoft Maxwell, this paper established the model of 110 kV composite insulators. Introduction was made to the electric field distribution law of cleaning insulators and contaminated Insulators. This paper analyzed how numbers and location of dry band influenced on its electric field distribution. The research results show that the closer to the high voltage section the dry band, the higher the electric field intensity. When the dry band presented up and down surface of insulators umbrella skirts, their electric field distribution of the dry band had the same law. Within limits, the electric field intensity of the dry band was mainly determined by the relative permittivity of dry band.
    Key words: contaminated insulator; dry band; relative permittivity; finite element analysis
 
參考文獻(xiàn)
[1] 張智偉. 輸配電線路復(fù)合絕緣子的選擇與技改[J].絕緣材料,2008,41(1):26-29.
[2] 羅勇芬,韋加雄,何立柱,等. 內(nèi)電極和均壓環(huán)配置法優(yōu)化復(fù)合絕緣子的沿面電場(chǎng)和電位分布[J].電瓷避雷器,2009(1):7-11.
[3] MUKHERJEE P K, AHMED A, SINGER H.Electric field distortion caused by asymmetric pollution on insulator surfaces[J].IEEE Transactions on Dielectrics and ElectricalInsulation,1999,6(2):175-180.
[4] HUO Feng, CHEN Yong, CAI Wei, et al.Surface electrical field distribution simulation and insulation characteristics test of polluted insulators[J].High Voltage Engineering,2008,34(12):2621-2625.
[5] 劉向?qū)? 污穢條件下復(fù)合絕緣子電場(chǎng)仿真研究[J].電瓷避雷器,2014(5):31-36.
[6] 郝艷捧,熊國(guó)錕,劉芹,等. 基于有限元法的染污直流支柱復(fù)合絕緣子傘裙參數(shù)優(yōu)化[J]. 中國(guó)電機(jī)工程學(xué)報(bào),2013,33(22):183-190.
[7] 邱大慶. 覆冰、污穢條件下復(fù)合絕緣子電場(chǎng)分布研究[J]. 電瓷避雷器,2015(1):26-30.
[8] CHAKRAVONI S, STEINBIGLER H.Boundary element studies on insulator shape and electric field around HV insulators with or without pollution[J].IEEE Transactions on Electrical Insulation,2000,7(2):169-176.