<legend id="wyo1ai"><li id="wyo1ai"></li><form id="wyo1ai"></form><div id="wyo1ai"></div><strike id="wyo1ai"></strike></legend><ol id="wyo1ai"><dt id="wyo1ai"></dt><legend id="wyo1ai"></legend><del id="wyo1ai"></del></ol><pre id="wyo1ai"><tr id="wyo1ai"></tr><ul id="wyo1ai"></ul><select id="wyo1ai"></select></pre><tt id="wyo1ai"><tt id="wyo1ai"></tt><thead id="wyo1ai"></thead></tt>

          [1]朱秋楠,譚盛武,韓 峰,等.1 100 kV柱式斷路器地震模擬振動台抗震試驗研究[J].高壓電器,2019,55(07):47-55.[doi:10.13296/j.1001-1609.hva.2019.07.008]
           ZHU Qiunan,TAN Shengwu,HAN Feng,et al.Research on Seismic Test of Seismic Simulated Shaking Table for 1 100 kV Column Circuit Breaker[J].High Voltage Apparatus,2019,55(07):47-55.[doi:10.13296/j.1001-1609.hva.2019.07.008]
          點擊複制

          1 100 kV柱式斷路器地震模擬振動台抗震試驗研究()
          分享到:

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

          卷:
          第55卷
          期數:
          2019年07期
          頁碼:
          47-55
          欄目:
          研究與分析
          出版日期:
          2019-07-31

          文章信息/Info

          Title:
          Research on Seismic Test of Seismic Simulated Shaking Table for 1 100 kV Column Circuit Breaker
          作者:
          朱秋楠1 譚盛武1 韓 峰1 劉 焱2 魏建巍1 張敬濤1 段 昊3 孟憲政2
          (1. 平高集團有限公司, 河南 平頂山 467001; 2. 中國電力科學研究院有限公司, 北京 100192; 3. 國家電網公司 直流建設部, 北京 100010)
          Author(s):
          ZHU Qiunan1 TAN Shengwu1 HAN Feng1 LIU Yan2 WEI Jianwei1 ZHANG Jingtao1 DUAN Hao3 MENG Xianzheng2
          (1. Pinggao Group Co., Ltd., Henan Pingdingshan 467001, China; 2. China Electric Power Research Institute Limited Company, Beijing 100192, China; 3. DC Construction Department of SGCC, Beijing 100010, China)
          關鍵詞:
          1 100 kV柱式斷路器 拉筋 減震器 振動台試驗 抗震性能
          Keywords:
          1 100 kV column circuit breaker link shock absorber shake table test seismic performance
          DOI:
          10.13296/j.1001-1609.hva.2019.07.008
          摘要:
          地震模擬振動台抗震試驗是電氣設備抗震設計及驗證的重要手段之一。以1 100 kV全複合套管柱式斷路器爲研究對象,依據特高壓電氣設備抗震試驗方法對是否帶拉筋或減震器等4種狀態開展了地震模擬振動台試驗。通過輸入白噪聲及標准時程波地震試驗,可得到斷路器的自振頻率及關鍵部位的加速度、應變響應。對比分析4種不同狀態下斷路器的地震響應特點,掌握了拉筋和減震器對斷路器動力特性、抗震性能影響的機理。結果表明:地震作用下4種不同狀態下的斷路器的最大應變都發生在支架頂部和複合套管根部;斷路器地震響應複雜且呈現非線性特性。地震作用下設置拉筋、安裝減震器均能有效提升斷路器的抗震能力。
          Abstract:
          Seismic test of seismic simulated shaking table is one of the important means for seismic design and verification of electrical equipment. 1 100 kV column circuit breaker with fully composite bushing is used as the research object. Based on the seismic test method of UHV electrical equipment, seismic simulated shaking table tests under four states of link and shock absorber are carried out. Through white noise sweep and artificial standard time history wave seismic test, the natural frequency of circuit breaker and acceleration and strain response of key parts can be obtained. By comparing and analyzing the seismic response characteristics of circuit breaker in four different states, the dynamic and seismic performance of circuit breaker with link and shock absorber is mastered. The maximum strain of circuit breaker in four different states occurs at the support of the bracket and the bottom of the composite bushing under the action of seismic wave, the seismic responses of circuit breaker are complex and the structure presents obvious nonlinear characteristics. Under the action of seismic wave, the anti-seismic ability of circuit breaker can be effectively improved by setting link and installing shock absorber.

          參考文獻/References:

          [1] 邱 甯,程永峰,鍾 珉,等. 1 000 kV特高壓交流電氣設備抗震研究進展與展望[J]. 高電壓技術,2015,41(5):1732-1739. QIU Ning,CHENG Yongfeng,ZHONG Min,et al. Progress and prospect in seismic research of 1 000 kV UHV AC electrical equipment[J]. High Voltage Engineering,2015,41(5):1732-1739.
          [2] 中國電力科學研究院. 電網地震災害規律研究及分布圖繪制[R]. 北京:中國電力科學研究院,2014:5. China Electric Power Research Institute. Grid research and distribution of earthquake disasters in drawing[R]. Beijing: China Electric Power Research Institute, 2014:5.
          [3] 鍾 珉,房正剛. 電氣設備抗震設防水准研究[J]. 電工電氣,2013,33(10):54-58. ZHONG Min, FANG Zhenggang. Study on seismic fortification level of electrical equipment[J]. Electrotechnics Electric, 2013, 33(10):54-58.
          [4] XIE Q,ZHU R Y. Damage to electric power grid infrastructure caused by natural disasters in China[J]. IEEE Power and Energy Magazine, 2011,9(2):28-36.
          [5] 謝 強,朱瑞元,周 勇,等. 220 kV隔離開關地震模擬振動台試驗[J]. 電網技術,2012,36(9):262-267. XIE Qiang, ZHU Ruiyuan, ZHOU Yong, et al. Shake table test on 220 kV disconnecting switch[J]. Power System Technology,2012,36(9):262-267.
          [6] 王燕華,程文瀼,路 飛,等.地震模擬振動台的發展[J]. 工程抗震與加固改造, 2007, 29(5): 53-56. WANG Yanhua, CHENG Wenrang, LU Fei, et al. Development of the shaking table[J]. Earthquake Resistant Engineering and Retrofitting, 2007, 29(5): 53-56.
          [7] 王進廷,金 峰,張楚漢. 結構抗震試驗方法的發展[J]. 地震工程與工程振動,2005,25(4):37-43. WANG Jinting, JIN Feng, ZHANG Chuhan. Advances in the dynamic testing method of structures[J]. Earthquake Engineering and Engineering Vibration,2005,25(4):37-43.
          [8] 方 重. 模擬地震振動台的近況及其發展[J]. 世界地震工程,1999,15(2):89-91. FANG Zhong. Status quo of earthquake simulating shaking table and it’s development[J]. World Information on Earthquake Engineering,1999,15(2):89-91.
          [9] GIRODET A. Seismic behavior of “CANDLE” type SF6 outdoor circuit breakers and associated SF6 insulated current transformers[J]. IEEE Transactions on Power Delivery,1989,4(4):2100 -2108.
          [10] TAKHIROV S M, FENVES G L, FUJISAKI E, et al. Seismic qualification and fragility testing of line break 550 kV disconnect switches[R]. California: PEER,2004.
          [11] 謝 強. 電力系統的地震災害研究現狀與應急響應[J]. 電力建設,2008,29(8):1-6. XIE Qiang. State-of-the-art of seismic disaster research and emergency response of power system[J]. Electric Power Construction, 2008, 29(8): 1-6.
          [12] 楊亞弟,李桂榮. 電氣設施抗震研究概述[J]. 世界地震工程,1996,5(2):20-22. YANG Yadi,LI Guirong. An introduction to seismic research on electric equipments[J]. World Earthquake Engineering,1996,5(2):20-22.
          [13] 董偉民,周書瑞. 少油斷路器及其減震體系的抗震研究[J]. 電力建設,1982,3(1):25-33. DONG Weimin, ZHOU Shurui. Aseismic study of low oil circuit breaker and its damping system[J]. Electric Power Construction,1982,3(1):25-33.
          [14] 張 軍,陳大斌,張子引,等. 220 kV絕緣子及避雷器振動試驗研究[J]. 電力技術經濟,2009,21(4):47-50. ZHANG Jun, CHEN Dabin, ZHANG Ziyin, et al. Vibration test study on 220 kV insulators and lightning arrester[J]. Electric Power Technologic Economics,2009,21(4):47-50.
          [15] 謝 強,王亞非. 軟母線連接電氣設備地震模擬振動台試驗研究[J]. 中國電機工程學報,2011,31(4):112-118. XIE Qiang, WANG Yafei. Shake-table test on earthquake simulation of substation equipment interconnected by flexible bus[J]. Proceedings of the CSEE,2011,31(4):112-118.
          [16] 謝 強,王亞非,魏思航. 軟母線連接的變電站開關設備地震破壞原因分析[J]. 電力建設,2009,30 (4):10-14. XIE Qiang, WANG Yafei, WEI Sihang. Cause analysis of damage of flexible-busbar-connected switchgears under earthquake[J]. Electric Power Construction,2009,30(4):10-14.
          [17] 曹枚根,周福霖,譚 平,等. 地震作用下斷路器動力時程分析及阻尼效應研究[J]. 高壓電器,2010,46(7):27-35. CAO Meigen, ZHOU Fulin, TAN Ping, et al. Analysis on dynamic time-history of circuit breaker and damping ratio effect under earthquake[J]. High Voltage Apparatus, 2010,46(7):27-35.
          [18] 張文強,郝際平,解 琦,等. 國內外電瓷型高壓電氣設備瓷套管連接設計比較研究[J]. 電瓷避雷器,2010(2):15-20. ZHANG Wenqiang, HAO Jiping, XIE Qi, et al. Comparative study on porcelain insulators design for hign-voltage electric equipment at home and abroad[J]. Insulators and Surge Arresters, 2010(2): 15-20.
          [19] 吳光亞,蔡 炜,蘇雪源. 複合硅橡膠材料在外絕緣領域的應用[J]. 高電壓技術,2000,26(5):56-60. WU Guangya, CAI Wei, SU Xueyuan. The development and application of the silicon rubber composite material[J]. High Voltage Engineering, 2000,26(5):56-60.
          [20] 鍾 珉,程永鋒,代澤兵,等. 變電站電氣設備分級抗震設防原則研究[J]. 地震工程學報,2015,37(2):571-576. ZHONG Min, CHENG Yongfeng, DAI Zebing, et al. Study on grading seismic fortification standards of electrical equipment at transformer substation[J]. Electric Power Construction, 2015,37(2):571-576.
          [21] 張 軍,齊立忠,李科文,等. 電瓷型高壓電氣設備的抗震試驗及有限元分析[J]. 電力建設,2011,32(7):6-10. ZHANG Jun, QI Lizhong, LI Kewen, et al. Shock test and finite element analysis of porcelain high-voltage electrical equipment[J]. Electric Power Construction,2011,32(7):6-10.
          [22] 電力設施抗震設計規範:GB 50260—2013[S].2013. Code for seismic design of electrical installations:GB 50260—2013[S].2013.
          [23] 高壓開關設備和控制設備的抗震要求:GB 13540—2009[S].2010. Seismic qualification for high-voltage switchgear and controlgear:GB 13540—2009[S].2010.
          [24] Recommended practice for seismic design of substations:IEEE Std 693—2005[S]. 2005.

          備注/Memo

          備注/Memo:
          收稿日期:2018-11-09; 修回日期:2019-01-15 基金項目:國家電網公司科技項目(SGTYHT/16-JS-198/GYB17201700148)。 Project Supported by Science and Technology Project of SGCC(SGTYHT/16-JS-198/GYB17201700148).朱秋楠(1989—),女,碩士研究生,工程師,主要從事柱式斷路器設備的研制工作。
          更新日期/Last Update: 2019-07-15