全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元
投递稿件

查看量下载量

相关文章

更多...
高压电器  2015 

高压开关设备抗震性能振动台试验研究

, PP. 98-103

Keywords: 高压开关设备,抗震性能,振动台试验,自振频率

Full-Text   Cite this paper   Add to My Lib

Abstract:

为了更好地探究高压开关设备的抗震性能,针对某型式高压开关设备,分别选用正弦扫频波、正弦共振调幅五波和实际记录地震波进行地震模拟振动台试验。试验结果表明,开关柜的纵、横向自振频率分别在10.74、2.69Hz左右;断路器及与母线相连接部位振动较为强烈,为结构的薄弱环节,设计时须予以重视;在多次经历地震波后,开关设备的各项性能指标无明显变化,主要连接部位无明显破坏特征,绝缘子根部截面的应力值满足规范要求。

 References

[1]  陈 淮,李 杰.高压电气设备抗震可靠性分析方法[J].世界地震工程,2000, 16(2):19-23. CHEN Huai, LI Jie. Seismic reliability analysis of high voltage electrical equipments[J]. World Earthquake Engineering,2000,16(2): 19-23.
[2]  程永锋,朱全军,卢智成.变电站电力设施抗震措施研究现状与发展趋势[J]. 电网技术,2008,32(22):84-89. CHENG Yongfeng,ZHU Quanjun,LU Zhicheng. Progress and development trend on seismic measures of electric power equipments in transformer substation[J]. Power System Technology,2008,32(22): 84-89.
[3]  杨少勇,赵建国.电力系统地震灾害预防技术综述[J]. 电网技术,2010,34(8):57-63. YANG Shaoyong,ZHAO Jianguo. An overview on prevention technology of earthquake disaster for power grids[J]. Power System Technology,2010,34(8): 57-63.
[4]  李亚琦,李小军,刘锡荟.电力系统抗震研究概况[J]. 世界地震工程,2002,18(4):79-84. LI Yaqi,LI Xiaojun,LIU Xihui. A summary on the seismic analysis in the electrical system[J]. World Earthquake Engineering,2002,18(4):79-84.
[5]  范荣全,曹枚根,卓 越,等.高压断路器抗震能力分析及抗震减震措施[J].高压电器,2012,48(3):12-16. FAN Rongquan,CAO Meigen,ZHUO Yue,et al. Analysis on aseismic capacity of high voltage breaker and aseismic measures[J]. High Voltage Apparatus,2012,48(3): 12-16.
[6]  VANZI I. Seismic reliability of electric power networks:methodology and application[J]. Structural Safety,1996,18(4): 311-327.
[7]  THORNBERRY L R,HARDY R. Seismic simulation test program on type CGCB 230 kV disconnect switch[R]. Ala: Wyle Laboratories,1997.
[8]  于永清,李光范,李 鹏,等.四川电网汶川地震电力设施受灾调研分析[J]. 电网技术,2008,32(11):1-6. YU Yongqing,LI Guangfan,LI Peng,et al. Investigation and analysis of electric equipment damage in Sichuan power grid caused by wenchuan earthquake[J]. Power System Technology,2008,32(11): 1-6.
[9]  XIE Qiang,ZHU Ruiyuan. Damage to electric power grid infrastructure caused by natural disasters in China[J]. IEEE Power and Energy Magazine,2011,9(2): 28-36.
[10]  尤红兵,赵凤新.庐 山.7.0级地震及电力设施破坏原因分析[J]. 电力建设,2013,34(8):100-104. YOU Hongbing,ZHAO Fengxin,LU Shan. M7.0 earthquake in Lushan and damage cause analysis of power facilities[J]. Electric Power Construction,2013,34(8): 100-104.
[11]  林 莘,史可鉴,徐建源.特高压HGIS设备抗震性能分析[J]. 沈阳工业大学学报:(社会科学版),2013,35(2):121-125. LIN Xin,SHI Kejian,XU Jianyuan. Analysis on seismic performance of ultra-high voltage HGIS equipment[J]. Journal of Shenyang University of Technology (Social Science Edition),2013,35(2): 121-125.
[12]  GB/T 13540―2009 高压开关设备和控制设备的抗震要求[S].2009. GB/T 13540―2009 Seismic qualification for high voltage switchgear and controlgear[S].2009.
[13]  GB/T 2424.25―2000 电工电子产品环境试验第三部分:试验导则 地震试验方法[S].2000. GB/T 2424.25―2000 Environmental testing for electric and electronic products ― Part3: Test guidance― Seismic test methods[S]. 2000.
[14]  GB 50260―2013 电力设施抗震设计规范[S].2013. GB 50260―2013 Code for seismic design of electrical installations[S].2013.
[15]  李洪泉,高占阳,陈 飞.陶板幕墙抗震性能振动台试验研究[J].世界地震工程,2012,28(3):11-14. LI Hongquan,GAO Zhanyang,CHEN Fei. Shaking table test on seismic behavior of ceramic plate curtain wall[J]. World Earthquake Engineering,2012,28(3): 11-14.
[16]  楼 丹,武 奇.72.5 kV气体绝缘开关设备的抗震计算分析[J]. 高压电器,2013,49(6):78-80. LOU Dan,WU Ji. Anti-seismic analysis of 72.5 kV gas insulated switchgear[J]. High Voltage Apparatus,2013,49(6): 78-80.
[17]  谢 强,王健生,杨 雯,等.220 kV断路器抗震性能地震模拟振动台试验[J]. 电力建设,2011,32(10):10-14. XIE Qiang,WANG Jiansheng,YANG Wen,et al. Shake table test on seismic performance of 220 kV circuit breaker[J]. Electric Power Construction,2011,32(10): 10-14.
[18]  曹枚根,周福霖,谭 平,等.地震作用下断路器动力时程分析及阻尼效应研究[J]. 高压电器,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.
[19]  柳永玉,王均梅,王晓琪,等. 500 kV电流互感器抗震性能分析[J]. 世界地震工程,2010,26(1): 219-223. LIU Yongyu,WANG Junmei,WANG Xiaoqi,et al. Seismic performance analysis of 500 kV current mutual transformer[J]. World Earthquake Engineering,2010,26(1): 219-223.
[20]  赵 阳,黄新波,朱海涛,等.智能高压开关柜IED设计[J]. 陕西电力,2014,42(7):69-74.   ZHAO Yang,HUANG Xinbo,ZHU Haitao,et al.Design on intelligent electronic device of high voltage switchgear[J]. 2014,42(7):69-74.
[21]  顾云霞,孙海文,金 虎.TEV与超声波法在开关柜局部放电检测中的应用[J]. 陕西电力,2012,40(12):12-16.   GU Yunxia,SUN Haiwen,JIN Hu.Probe into partial discharge detection and location of switchgear based on TEV and ultrasonic wave methods[J]. Shaanxi Electric Power 2012,40(12):12-16.
[22]  ANG A S,PIRES J,VILLAVERDE R,et al. Seismic probabilistic reliability assessment of electric power transmission systems[J]. Reliability Engineering and System Safety,1996,51(1): 7-12.
[23]  IEEE Std 693―2005 Recommended practice for seismic design of substations[S]. 2005.
[24]  张 杰,马宏伟.矿用高压开关柜的弧光监测与保护系统[J]. 电力系统保护与控制,2013,41(11):141-145. ZHANG Jie ,MA Hongwei.Online monitoring and protection system for the arc fault of the mining high-voltage switchgear[J]. Power System Protection and Control,2013,41(11):141-145

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133