引文
[1]谢强,朱瑞元,周勇,等.220 kV隔离开关地震模拟振动台试验[J].电网技术,2012,36(9):262-267.XIE Qiang,ZHU Rui-yuan,ZHOU Yong,et al.Shake table test on 220 kV disconnecting switch[J].Power System Technology,2012,36(9):262-267.
[2]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 Mei-gen,ZHOU Fu-lin,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.
[3]SCHIFF A.Guide to improved earthquake performance of electric power systems[R].Virginia:Americal Society of Civil Engineers,1999.
[4]LIU G Y,LIU C W,WANG Y J.A study on seismic response and vulnerability of electric power system[C]//Second Proceeding of Japan-Taiwan Workshop on Lifeline Performance and Disaster Mitigation.Kobe,Japan:JapanTaiwan Workshop,2002:176-183.
[5]李亚琦,李小军,刘锡荟,等.电力系统抗震研究概况[J].世界地震工程,2002,18(4):79-84LI Ya-qi,LI Xiao-jun,LIU Xi-hui,et al.A summary on the seismic analysis in the electrical system[J].Word Earthquake Engineering.2002,18(4):79-84.
[6]谢强,朱瑞元,屈文俊.汶川地震中500kV大型变压器震害机制分析[J].电网技术,2011,35(3):221-225.XIE Qiang,ZHU Rui-yuan,QU Wen-jun.Analysis on seismic failure mechanism of 500 kV high-power transformer during Wenchuan earthquake[J].Power System Technology,2011,35(3):221-225.
[7]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):5-10YU Yong-qing,LI Guang-fan,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):5-10.
[8]谢强.5.12汶川大地震电力系统震害调查初步报告[R].上海:同济大学生命线工程研究所,2008.
[9]XIE Qiang,ZHU Rui-yuan.Damage to electric power grid infrastructure caused by natural disasters in China[J].IEEE Power and Energy Magazine,2011,9(2):28-36.
[10]谢强.电力系统的地震灾害研究现状与应急响应[J].电力建设,2008,29(8):1-6.XIE Qiang.State-of-the-art of seismic disaster research and emergency response of electric power system[J].Electric Power Construction,2008,29(8):1-6.
[11]朱海涛,刘晓华,李明,等.750 kV GIS隔离开关内部局放检测及诊断分析[J].高压电器,2010,46(8):6-9.ZHU Hai-tao,LIU Xiao-hua,LI Ming,et al.Detection and diagnostic analysis of internal partial discharge in 750 kV GIS disconnector[J].High Voltage Apparatus,2010,46(8):6-9.
[12]黄峰,吕建国,朱祝兵,等.基于ANSYS的GW7-252隔离开关抗震减震性能分析[J].科技导报,2010,28(20):52-57.HUANG Feng,LüJian-guo,ZHU Zhu-bing,et al.Performance analysis of seismic shock protection and damping of GW7-252 isolating switch based on ANSYS[J].Review of Science and Technology,2010,28(20):52-57.
[13]KARAMI M R,AKRAMI V,NIKFAR F.Dynamic properties of substation support structures[J].Journal of Constructional Steel Research,2012(78):173-182
[14]THORNBERRY L R,HARDY R.Seismic simulation test program on type CGCB-G 230 kV disconnect switch[R].Ala:Wyle Laboratories,1997.
[15]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 Rong-quan,CAO Mei-gen,ZHUO Yue,et al.Analysis on aseismic capacity of high voltage breaker and aseismic measures[J].High Voltage Apparatus,2012,48(3):12-16.
[16]刘青.隔离开关不同操作方式产生的快速暂态过电压[J].高压电器,2011,47(4):17-22.LIU Qing.Very fast transient overvoltage caused by different switching modes of disconnector[J].High Voltage Apparatus,2011,47(4):17-22.
[17]GILANI A S J,WHITTAKER A S,FENVES G L,et al.Seismic evaluation and analysis of 230 kV disconnect switches[R].California:PEER,2000.
[18]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.
[19]韩军科,朱全军,杨风利,等.基底隔震高压隔离开关抗震性能分析[J].电力建设,2008,29(6):39-42.HAN Jun-ke,ZHU Quan-jun,YANG Feng-li,et al.Analysis of quake resistance performance of HV disconnecting switch with base isolation[J].Electric Power Construction,2008,29(6):39-42.
[20]GB/T 13540—2009.高压开关设备和控制设备的抗震要求[S].GB/T 13540—2009.Seismic qualification for high-voltage switchgear and controlgear[S].