• [1]劉旭光,顧小虎,姜富修.基于磁旁路方法的開關櫃溫升優化[J].高壓電器,2019,55(08):96-100,107.[doi:10.13296/j.1001-1609.hva.2019.08.013]
     LIU Xuguang,GU Xiaohu,JIANG Fuxiu.Temperature Rise Optimization of Switchgear Based on Magnetic Bypass Method[J].High Voltage Apparatus,2019,55(08):96-100,107.[doi:10.13296/j.1001-1609.hva.2019.08.013]
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    基于磁旁路方法的開關櫃溫升優化()
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    《高壓電器》[ISSN:1001-1609/CN:61-11271/TM]

    卷:
    第55卷
    期數:
    2019年08期
    頁碼:
    96-100,107
    欄目:
    研究與分析
    出版日期:
    2019-08-15

    文章信息/Info

    Title:
    Temperature Rise Optimization of Switchgear Based on Magnetic Bypass Method
    作者:
    劉旭光12 顧小虎12 姜富修13
    (1. 南瑞集團公司(國網電力科學研究院), 南京 211100; 2. 上海置信電氣股份有限公司 ,上海 200000; 3. 江蘇南瑞帕威爾 電氣有限公司, 南京 211100)
    Author(s):
    LIU Xuguang12 GU Xiaohu12 JIANG Fuxiu13
    (1. NARI Group Corporation(State Grid Electric Power Research Institute), Nanjing 211100, China; 2. Shanghai Zhixin Electric Co.,Ltd., Shanghai 200000, China; 3. Jiangsu Nari Power Electric Co., Ltd., Nanjing 211100, China)
    關鍵詞:
    開關櫃 溫升 磁旁路 有限元分析
    Keywords:
    switchgear temperature rise magnetic bypass finite element analysis
    DOI:
    10.13296/j.1001-1609.hva.2019.08.013
    摘要:
    文中針對引起開關櫃溫升的渦流損耗解決方案進行理論分析,采用有限元軟件進行仿真 計算渦流損耗,提出利用磁旁路方法進行開關櫃櫃體損耗優化;比較分析兩種優化方案對開關 櫃櫃體的溫升影響,仿真結果驗證優化方案的合理性,該方法的應用對于開關櫃産品的性能提 升起到重要作用。
    Abstract:
    The theoretical analysis in this paper to solve the eddy current loss caused by the switch cabinet temperature rise scheme, simulation calculation of eddy current loss by using finite element software, the switch cabinet body loss optimization using magnetic shielding method; comparative analysis of two kinds of optimization scheme of switch cabinet body temperature effect, the simulation results verify the rationality of the optimization scheme, the application of the method to an important role for the performance of the switch cabinet product upgrading.

    參考文獻/References:

    [1] 錢家骊,袁大陸,楊麗華,等. 高壓開關櫃——結構、計算、運行、發展[M]. 北京:中 國電力出版社,2008:74-96. QIAN Jiali,YUAN Dalu,YANG Lihua,et al. High voltageswitch cabinet-structure、calculate、fuction、develop[M]. Beijing:China Electric Power Press,2008:74-96.
    [2] 賈一凡,王 博,陸 瑤,等. 開關櫃溫升試驗方法研究[J].高壓電器,2013, 49(8):87-91. JIA Yifan,WANG Bo,LU Yao,et al.Research on temperature-rise test method of switchgear[J]. High Voltage Apparatus,2013,49(8):87-91.
    [3] 王秉政,江健武,趙 靈,等. 高壓開關櫃接觸發熱溫度場數值計算[J].高壓電器 ,2013,49(12):42-48. WANG Bingzheng,JIANG Jianwu,ZHAO Ling,et al.Temperature field simulation of contact heating in high voltage switchgear[J]. High Voltage Apparatus,2013,49(12):42-48.
    [4] 陳 平,薛毓強,郭建钊,等. 大電流母排三維渦流場—溫度場耦合分析[J].電力 科學與技術學報,2009,24(3):68-71. CHEN Ping,XUE Yuqiang,GUO Jianzhao,et al.Analysis of coupled eddycurrent-thermal field for heavy current bus bar[J]. Journal of Electric Power Science and Technology,2009,24(3):68-71.
    [5] 汪 倩,屈建宇,吳 剛,等. 配電開關櫃溫升特性的多物理場仿真和實驗[J].高 電壓技術,2016,42(6):1775-1780. WANG Qian,QU Jianyu,WU Gang,et al.Multi- physical field simulation and experiment of temperature-rise characteristics of switchgear compartment[J]. High Voltage Engineering,2016,42(6):1775-1780.
    [6] 程 顯,韓書谟,何 周,等. 40.5 kV環保型氣體絕緣開關櫃氣室結構設計[J]. 高電壓技術,2015,41(8):2772-2779. CHENG Xian,HAN Shumo,HE Zhou,et al.Structure design of thechamber for 40.5 kV environment-friendly cubicle gas insulated switchgear[J]. High Voltage Engineering,2015,41(8):2772-2779.
    [7] 邢 剛,尹健甯,屈建宇,等. 塗層對開關櫃散熱的影響分析[J]. 電器與能效管理 技術,2016(16):8-12. XING Gang,YIN Jianning,QU Jianyu,et al.Analysis of the heat dissipation coating of switchgear cabinet[J]. Electrical & Energy Management Technology,2016(16):8-12.
    [8] 李 晶,滿家健,周電波,等. 金屬封閉高壓開關櫃手車觸頭溫度場仿真分析及實 驗研究[J].高壓電器,2015,51(8):74-79. LI Jing,MAN Jiajian,ZHOU Dianbo,et al. Simulation analysis and experimental research on temperature distribution of metal-enclosed high voltage switchfear handcart contactor[J]. High Voltage Engineering,2015,51(8):74-79.
    [9] 侯國斌,鄧曉峰,吳藝紅,等. 電力開關設備溫升仿真研究綜述[J].電器與能效管 理技術,2017(11):1-6. HOU Guobin,DENG Xiaofeng,WU Yihong,et al.Review of temperature rise simulation of power switchgear[J]. Electrical & Energy Management Technology,2017(11):1-6.
    [10] 焦淑敏. 高壓斷路器損耗發熱的三維電磁場與流場耦合仿真分析[J]. 高壓電器, 2017,53(8):61-66. JIAO Shumin.Three dismensional coupling simulation analysis of electromagnetic field and fluid field on the loss and heat of high voltage circuit breaker[J]. High Voltage Engineering,2017,53(8):61-66.
    [11] JOONG K K,SUNG C H,KYONG Y P,et al. Temperature rise prediction of EHV GIS bus bar by coupled magneto-thermal finite element method[J]. IEEE Transactions on Magnetics,2005,41(5):1636-1639.
    [12] 段慧青,何 爲,肖冬萍,等. 基于解析數值法的配電房母排磁場屏蔽[J].電工 技術學報,2008,23(8):13-17. DUAN Huiqing,HE Wei,XIAO Dongping,et al.Magnetic field shielding for indoor distributing substation busbars based on analytical- numerical method[J]. Transactions of China Electrotechnical Society,2008,23(8): 13-17.
    [13] 高 楊,周 岩,劉婷婷,等. 高壓開關櫃的三維電磁場數值仿真[J].信息與電 子工程,2009,7(6):540-544. GAO Yang,ZHOU Yan,LIU Tingting,et al.3-D numerical simulation of electromagnetic field in HV switchgear cabinet[J]. Information and Electronic Engineering,2009,7(6):540-544.
    [14] 熊 蘭,徐敏捷,楊子康,等. 高壓開關櫃電纜室溫度場分析及在線監測系統構建 [J].電力自動化設備,2014,34(6):153-157. XIONG Lan,XU Minjie,YANG Zikang,et al. Thermal field analysis for cable room of high-voltage switchgear and design of online monitoring system[J]. Electric Power Automation Equipment,2014,34(6): 153-157.
    [15] HO S L,LI Y,LIN X,et al. Calculations of eddy current, fluid, and thermal fields in an air insulated bus duct system[J]. IEEE Transactions on Magnetics,2007,43(4):1433-1436.
    [16] LI L,ERZHI W.Application of the multiple grid method in electric field calculation of high-voltage interrupter[J]. IEEE Transactions on Magnetics,2004, 40(2):699-702.
    [17] WACTOR M.Strategies for mitigation the effects of internal arcing faults in medium-voltage metal-enclosed switchgear[J]. Revision of IEEE C37.20.7- 2001,2001,9(1):323-328.
    [18] PAWAR S,JOSHI K,ANDREWS L,et al. Application of computational fluid dynamics to reduce the new product development cycle time of the SF6 gas circuit breaker[J]. IEEE Transactions on Power Delivery,2012,27(1):156-163.
    [19] 陳德桂. 低壓開關電器熱分析方法的進展[J]. 低壓電器,2008,44(17):1-4. CHEN Degui.Progress in the thermal analysis of low voltage apparatus[J]. Low Voltage Apparatus,2008,44(17):1-4.
    [20] 孫國霞,舒乃秋,吳曉文,等. 基于多物理場耦合的氣體絕緣母線觸頭接觸溫升有 限元計算[J]. 電工技術學報,2013,28(s):408-413. SUN Guoxia,SHU Naiqiu,WU Xiaowen ,et al.Finiteelement analysis of contact temperature rise in gas insulated busbars based on coupled multi-physics[J]. Transactions of China Electrotechnical Society, 2013,28(s):408-413.

    備注/Memo

    備注/Memo:
    劉旭光(1986—),男,碩士,工程師,主要從事電力電子技術及電磁仿真技術。收稿日期:2019-02-06; 修回日期:2019-04-21
    更新日期/Last Update: 2019-08-16