<option id="h78nni"></option>

    [1]楊 甯,畢建剛,弓豔朋,等.1 100 kV GIS設備內部缺陷局部放電帶電檢測方法試驗研究及比較分析[J].高壓電器,2019,55(08):37-47,57.[doi:10.13296/j.1001-1609.hva.2019.08.006 ]
     YANG Ning,BI Jiangang,GONG Yanpeng,et al.Experimental Research and Comparative Analysis on Live Test Methods of Partial Discharge of Internal Defects in 1 100 kV GIS[J].High Voltage Apparatus,2019,55(08):37-47,57.[doi:10.13296/j.1001-1609.hva.2019.08.006 ]
    點擊複制

    1 100 kV GIS設備內部缺陷局部放電帶電檢測方法試驗研究及比較分析()
    分享到:

    《高壓電器》[ISSN:1001-1609/CN:61-11271/TM]

    卷:
    第55卷
    期數:
    2019年08期
    頁碼:
    37-47,57
    欄目:
    研究與分析
    出版日期:
    2019-08-15

    文章信息/Info

    Title:
    Experimental Research and Comparative Analysis on Live Test Methods of Partial Discharge of Internal Defects in 1 100 kV GIS
    作者:
    楊 甯1 畢建剛1 弓豔朋1 楊 圓1 常文治1 許 淵1 高群偉2 尹軍華2
    (1. 中國電力科學研究院, 北京 100192; 2. 河南平高電氣股份有限公司, 河南 平頂山  467001)
    Author(s):
    YANG Ning1 BI Jiangang1 GONG Yanpeng1 YANG Yuan1 CHANG Wenzhi1 XU Yuan1 GAO Qunwei2 YIN Junhua2
    (1. China Electric Power Research Institute, Beijing 100192, China; 2. Henan Pinggao Electric Co., Ltd., Henan Pingdingshan 467001, China)
    關鍵詞:
    GIS 內部缺陷 局部放電 仿真分析 試驗研究
    Keywords:
    GIS internal defect partial discharge simulation experimental research
    DOI:
    10.13296/j.1001-1609.hva.2019.08.006
    摘要:
    局部放電帶電檢測是判斷特高壓變電站GIS設備內部絕緣狀況的重要手段之一。爲分析 不同帶電檢測方法的檢測效果,依托1 100 kV GIS真型試驗平台,設計了5種內部缺陷,並對缺 陷模型進行了仿真計算。在仿真分析基礎上,對其內部缺陷進行了試驗研究,複現了GIS設備內 部的真實放電。根據試驗結果,利用雷達圖的評價方法,對特高頻法、超聲波法、高頻電流法 局部放電帶電檢測的有效性進行了比較分析。試驗及比較分析結果爲研究1 100 kV GIS設備內 部缺陷特征積累了經驗,並對指導特高壓變電站GIS設備的帶電檢測工作,以及多種檢測方法的 融合應用提供了數據支撐,並具有一定的借鑒價值。
    Abstract:
    Live test of partial discharge is one of the most important method to judge internal insulation condition of GIS equipment in UHV substation. In order to analyze the effect of different live test methods,internal defect models were established on the real type testing platform of 1 100 kV GIS. Then simulations and experimental research were carried out on the defect models. According to the test results,the effectiveness of the partial discharge live tests, including ultra- high frequency method,acoustic emission method and high frequency current method, was comparatively evaluated using radar graph. This study may facilitate the research of internal defect features of 1 100 kV GIS equipment, and provide data support to the live detection of GIS equipment in ultra-high voltage substation and to the integrative application of multiple detection methods.

    參考文獻/References:

    [1] 舒印彪. 1 000 kV交流特高壓輸電技術的研究與應用[J]. 電網技術,2005,29(19):9- 14. SHU Yinbiao. 1 000 kV UHV AC technology research and application[J]. Power System Technology,2005,29(19):9-14.
    [2] 劉振亞. 特高壓電網[M]. 北京:中國經濟出版社,2005:395-397. LIU Zhenya. Ultra high voltage grid[M]. Beijing:China Economic Publishing House,2005:395- 397.
    [3] 劉振亞. 特高壓交流電氣設備[M]. 北京:中國電力出版社,2008:1-7. LIU Zhenya. UHV AC electrical equipment[M]. Beijing: China Electric Power Press,2008 :1-7.
    [4] 劉振亞. 特高壓交直流電網[M]. 北京:中國電力出版社,2013:7-23. LIU Zhenya. Ultra-high voltage AC & DC grid[M]. Beijing:China Electric Power Press, 2013:7-23.
    [5] 崔博源,王甯華,王承玉,等. 特高壓氣體絕緣金屬封閉開關設備用盆式絕緣子的 質量控制[J]. 高電壓技術,2014,40(12):3888-3894. CUI Boyuan,WANG Ninghua,WANG Chengyu,et al. Quality control for basin insulator used in gas insulated metal enclosed switchgear of ultra high voltage[J]. High Voltage Engineering,2014,40 (12):3888-3894.
    [6] 王 宇,楊楚明,林博楚. 氣體絕緣金屬封閉開關設備制造環節典型缺陷與關鍵點 管控[J]. 廣東電力,2016,29(8):107-110. WANG Yu,YANG Chuming,LIN Bochu. Typical defects and key points management for manufacturing chain of gas insulated metal enclosed switchgear[J]. Guangdong Electric Power,2016,29(8):107-110.
    [7] 羅學琛. SF6氣體絕緣全封閉組合電器(GIS) [M]. 北京:中國電力出版社,1999: 357-362. LUO Xuechen. SF6 gas insulated metal enclosed switchgear(GIS)[M]. Beijing :China Electric Power Press,1999:357-362.
    [8] 肖登明,董 越,黃東海. 我國特高壓輸電工程的GIS技術[J]. 高電壓技術,2006 ,32(12):115-117. XIAO Dengming,DONG Yue,HUANG Donghai. GIS technology of UHV transmission engineering in China[J]. High Voltage Engineering,2006,32(12): 115-117.
    [9] 李興旺,劉 軍,劉夢娜. 一起氣體絕緣金屬封閉開關設備懸浮放電缺陷分析[J]. 高壓電器,2015,51(10):205-208. LI Xingwang,LIU Jun,LIU Mengna. Analysis on a floating discharge defect in GIS disconnecting switch[J]. High Voltage Apparatus, 2015,51(10):205-208.
    [10] PEARSON J S,FARISH O,HAMPTON B F,et al. Partial discharge diagnostics for gas-insulated substations[J]. IEEE Transactions on Dielectrics and Electrical Insulation,1995,2(5):893-905.
    [11] BOGGS S A. Partial discharge:Overview and signal generation[J]. IEEE Electrical Insulation Magazine,1990,6(4):33-39.
    [12] JUDD M D,FARISH O,HAMPTON B F. The excitation of UHF signals by partial discharges in GIS[J]. IEEE Transactions on Dielectrics and Electrical Insulation,1996,3(2):213-228.
    [13] HOSHINO T,KATO K,HAYAKAWA N,et al. A novel technique for detecting electromagnetic wave caused by partial discharge in GIS[J]. IEEE Transactions on Power Delivery,2001,16(4):545-551.
    [14] KAWADA M. Ultra wide band VHF/UHF radio interferometer system for detecting partial discharge source[C]//Power Engineering Society Winter Meeting. New York,USA:IEEE,2002:1482-1487.
    [15] SCHEI A,KYRKJEEIDE S,LARSEN V. Acoustic insulation analyzer for periodic condition assessment of Gas Insulated Substations[C]//Transmission & Distribution Conference & Exhibition:Asia Pacific IEEE/PES. Yokohama,Japan:IEEE ,2002:919-924.
    [16] 劉君華,姚 明,黃成軍,等. 采用聲電聯合法的GIS局部放電定位試驗研究[J]. 高電壓技術,2009,35(10):2458-2463. LIU Junhua,YAO Ming,HUANG Chengjun,et al. Experimental research on partial discharge localization in GIS using ultrasonic associated with electromagnetic wave method[J]. High Voltage Engineering,2009, 35(10):2458-2463.
    [17] KAWADA M,TUNGKANAWANICH A,KAWASAKI Z I,et al. Detection of wide-band E-M signals emitted from partial discharge occurring in GIS using wavelet transform[J]. IEEE Power & Energy Society,2000,15(2):467-471.
    [18] 丁登偉,唐 誠,高文勝,等. GIS中典型局部放電的頻譜特征及傳播特性[J]. 高 電壓技術,2014,40(10):3243-3251. DING Dengwei,TANG Cheng,GAO Wensheng,et al. Frequency attributes and propagation properties of typical partial discharge in GIS[J]. High Voltage Engineering,2014,40(10):3243-3251.
    [19] 劉君華,郭燦新,姚 明,等. 局部放電電磁波在GIS中傳播路徑的分析[J]. 高電 壓技術,2009,35(5):1044-1048. LIU Junhua,GUO Canxin,YAO Ming,et al. Analysis on the propagation routes of electromagnetic waves of partial discharge in GIS[J]. High Voltage Engineering,2009,35(5):1044-1048.
    [20] 劉君華,姚 明,黃成軍,等. GIS中局部放電電磁波的模式特性[J]. 高電壓技術 ,2009,35(7):1654-1660. LIU Junhua,YAO Ming,HUANG Chengjun,et al. Characteristics of PD EM-wave modes in GIS[J]. High Voltage Engineering,2009,35 (7):1654-1660.
    [21] 丁 然,田 野,任紅向,等. 氣隙局部放電模型改進及仿真[J]. 高電壓技術, 2016,42(12):3934-3940. DING Ran,TIAN Ye,REN Hongxiang,et al. Improved model and simulation of partial discharge in void[J]. High Voltage Engineering,2016, 42(12):3934-3940.
    [22] JUDD M D,HAMPTON B F,FARISH O. Modelling partial discharge excitation of UHF signals in waveguide structures using Green’s functions[J]. IEE Proc. Sci. Meas. Technol.,1996,143(1):63-70.
    [23] OKABE S,YUASA S,KANEKO S,et al. Simulation of propagation characteristics of higher order mode electromagnetic waves in GIS[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2006,13(4):855-861.
    [24] 鄭惠莉,劉 陳,翟丹妮. 基于雷達圖的綜合評價方法[J]. 南京郵電學院學報, 2001,21(2):75-79. ZHENG Huili,LIU Chen,ZHAI Danni. Comprehensive evaluating method based on radar-graph[J]. Journal of Manjing University of Posts and Telecommunications,2001,21(2):75-79.
    [25] 吳 翔,何怡剛,張大波,等. 基于最優權重與雷達圖的變壓器狀態評估[J]. 電 力系統保護與控制,2017,45(2):55-60. WU Xiang,HE Yigang,ZHANG Dabo,et al. Transformer condition assessment based on optimal weight and radar map[J]. Power System Protection and Control,2017,45(2):55-60.

    備注/Memo

    備注/Memo:
    楊 甯(1986—),男,工程師,碩士,主要從事電力設備狀態檢修與故障診斷技術方面的研究 工作。收稿日期:2019-02-01; 修回日期:2019-03-19
    更新日期/Last Update: 2019-08-16