引文
[1]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(in Chinese).
[2]张子引,赵彪,曹伟炜,等.四川汶川8.0级地震电网受灾情况调研与初步分析[J].电力技术经济,2008,20(4):1-4.Zhang Ziyin,Zhao Biao,Cao Weiwei,et al.Investigation and preliminary analysis of damages on the power grid in the Wenchuan earthquake of M8.0[J].Electric Power Technologic Economics,2008,20(4):1-4(in Chinese).
[3]尤红兵,田学民,赵凤新,等.汶川大地震及电力系统抗震研究[J].动力与电气工程师,2008,5(2):27-30.
[4]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(in Chinese).
[5]谢强,朱瑞元.汶川地震中支持式管型母线破坏机理分析[J].电力建设,2010,31(3):8-12.Xie Qiang,Zhu Ruiyuan.Seismic failure analysis of support type pipe bus in Wenchuan earthquake[J].Electric Power Construction,2010,31(3):8-12(in Chinese).
[6]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(in Chinese).
[7]韩军科,朱全军,杨风利,等.基底隔震技术在高压电气设备中的应用[J].电网技术,2007,31(S2):78-80.Han Junke,Zhu Quanjun,Yang Fengli,et al.Application of base isolation in high voltage electrical equipment[J].Power System Technology,2007,31(S2):78-80(in Chinese).
[8]伍磊,袁越,季侃,等.微型电网及其在防震减灾中的应用[J].电网技术,2008,32(16):36-40.Wu Lei,Yuan Yue,Ji Kan,et al.Microgrid and its application in earthquake prevention and disaster reduction[J].Power System Technology,2008,32(16):36-40(in Chinese).
[9]李宏男,胡大柱,黄连状.地震作用下输电塔体系塑性极限状态分析[J].中国电机工程学报,2006,26(24):196-203.Li Hongnan,Hu Dazhu,Huang Lianzhuang.Plastic limit analysis of the transmission tower system subjected to earthquake action[J].Proceedings of the CSEE,2006,26(24):196-203(in Chinese).
[10]岳茂光,李宏男,王东升,等.行波激励下输电塔-线体系纵向地震反应分析[J].中国电机工程学报,2006,26(23):147-152.Yue Maoguang,Li Hongnan,Wang Dongsheng,et al.Longitudinal response of the power transmission tower-cable system under travelingseismic wave excitations[J].Proceedings of the CSEE,2006,26(23):147-152(in Chinese).
[11]田利,李宏男,黄连壮.多点激励下输电塔-线体系的侧向地震反应分析[J].中国电机工程学报,2008,28(16):110-116.Tian Li,Li Hongnan,Huang Lianzhuang.Lateral response of transmission tower-line system under multiple support excitations[J].Proceedings of the CSEE,2008,28(16):110-116(in Chinese).
[12]尤红兵,赵凤新,刘锡荟.美国《变电站抗震设计推荐规程》评介[J].电力建设,2009,30(6):48-52.You Hongbing,Zhao Fengxin,Liu Xihui.Introduction of recommended code of substation aseismatic design USA[J].Electric Power Construction,2009,30(6):48-52(in Chinese).
[13]马勇杰.换流站阀厅结构选型与抗震分析[J].电力建设,2009,30(2):42-45.Ma Yongjie.Structural selection and anti-quake analysis of converter station valve hall[J].Electric Power Construction,2009,30(2):42-45(in Chinese).
[14]文波,牛荻涛,张俊发,等.隔震技术在高压电力设施中的应用[J].工业建筑,2009,39(1):36-41.Wen Bo,Niu Ditao,Zhang Junfa,et al.Application of isolation technology in high-voltage electrical equipment[J].Industrial Construction,2009,39(1):36-41(in Chinese).
[15]Ersoy S,Saadeghvaziri,Liu G Y.Analytical and experimental seismic studies of transformer isolated with friction pendulum system and design aspects[J].Earthquake Spectra,2001,17(4):569-595.
[16]Saadeghvaziri M A,Feng M.Experimental and analytical study of base-isolation for electric power equipment[R].Buffalo:State University of New York at Buffalo,2001.
[17]Takhirov S M,Fenves G L,Eric F.Ground motions for earthquake simulator qualification of electrical substation equipment[R].Berkeley:Pacific Earthquake Engineering Research Center,University of California,2004.
[18]曹枚根,朱全军,默增禄,等.高压输电线路防震减灾研究现状及震害防御对策[J].电力建设,2007,28(5):23-27.Cao Meigen,Zhu Quanjun,Mo Zenglu,et al.Current research status of HV transmission line earthquake prevention and disaster relief andearthquake countermeasures[J].Electric Power Construction,2007,28(5):23-27(in Chinese).
[19]曹枚根,周福霖,徐忠根,等.大跨越输电塔线体系减震控制分析研究[J].电网技术,2007,31(14):45-51.Cao Meigen,Zhou Fu1in,Xu Zhonggen,et al.Research on seismic control of large crossing transmission towers for transmission lines[J].Power System Technology,2007,31(14):45-51(in Chinese).
[20]IEEE.IEEE Standard693Recommended practice for seismic design of substations[S].Los Alamitos,California:IEEE Publications Office,2005.
[21]日本电气技术标准调查委员会.JEAG5003—1998电气设备抗震设计指南[S].日本:日本电气技术标准调查委员会,1998.
[22]高象波,姚德康.SW6-220少油断路器悬吊减震体系的研究[J].电力建设,1989,10(12):6-9.
[23]高象波,姚德康.少油断路器支承减震体系的振动台试验[J].电力建设,1990,11(6):12-14.
[24]中国电力规划设计协会,DLGJ160—2003高压电气设备减震技术规定[S].北京:中国电力出版社,2004.
[25]李亚琦,电瓷型高压电气设备体系抗震性能分析[D].北京:中国地震局地球物理研究所,2002.
[26]李亚琦,李小军,刘锡荟.铅合金减震的动力特性及适用范围[J].地震学报,2005,21(1):86-95.Li Yaqi,Li Xiaojun,Liu Xihui.Dynamic behavior and applicability of lead alloy absorber[J].Acta Seismologica Sinica,2005,21(1):86-95(in Chinese).
[27]GB50260—1996电力设施抗震设计规范[S].北京:中国计划出版社,1996.