电力系统抗震可靠性研究与分析综述
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摘要
地震是最可能造成电力系统遭受严重破坏的自然灾害。对电力系统的震害特点进行了一些研究和介绍,针对这些特点提出了提高电力系统抗震可靠性的措施和建议,并对电力系统抗震可靠性研究现状及发展趋势作了综述。
Earthquake is the most possible natural disaster for electric power system.The characteristics of earthquake disasters to electric power system are studied.Some suggestions on improving aseismic reliability of electric power system are presented.Finally,the present status and developmental trend of aseismic reliability research in electric power system are overviewed.
Earthquake is the most possible natural disaster for electric power system.The characteristics of earthquake disasters to electric power system are studied.Some suggestions on improving aseismic reliability of electric power system are presented.Finally,the present status and developmental trend of aseismic reliability research in electric power system are overviewed.
引文
[1]王锡凡.现代电力系统分析[M].北京:科学出版社,2003.
[2]赵成刚,冯启民.生命线地震工程[M].北京:地震出版社,1994.
[3]杨亚弟,苏文藻,张其浩.电气设施抗震研究概述[J].世界地震工程,1985,1(4):4-8.
[4]李宏男,陆鸣,王前信.大跨越自立式高压输电塔-电缆体系的简化抗震计算方法[J].地震工程与工程振动,1990,10(2):73-87.
[5]Ang A.H.S,Pires J.,Seismic Probabilistic Assessment of Elec-tric Power Transmission Systems[A]//Proc.of 10th World Con-ference of Earthquake Engineering[C].Madrid,Spain,1992.
[6]刘大海,杨翠如.厂房抗震设计[M].北京:中国建筑工业出版社,1997.
[7]李天,李杰,沈祖炎.电力系统地震灾害分析[J].世界地震工程,2000,16(4):19-24.
[8]A.H.-S.Ang,J.Pires.Seismic Probabilistic reliability assess-ment of electric power transmission system[R].11thwcee,Ma-drid,Spain,1992:5583-5589.
[9]I.Vanzi.Seismic reliability of electric power networks:methodolo-gy and application[J].Structural Safety,1996,18(4):311-327.
[10]G.-Y.Liu,C.-W.Liu,Y.-J.Wang.Seismic PerformanceAnalysis of Electric Power Network in Taiwan[R].InternationalConference on Advances and New Challenges in Earthquake Engi-neering Research.Harbin China,2002.
[11]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.
[12]李天,李杰,沈祖炎.高压变电站抗震可靠性分析(一)[J].地震工程与工程振动,2000,20(3):43-49.
[13]李天,李杰,沈祖炎.高压变电站抗震可靠性分析(二)[J].地震工程与工程振动,2000,20(4):37-43.
[14]杨亚弟.网络工程抗震能力分析技术[R].中国地震局“九五”重点项目,2000.
[15]苏幼坡,刘瑞兴,马亚杰.城市生命线地震后恢复曲线与恢复过程优化的影响因素分析[J].灾害学,2000,15(4):49-54.
[16]柳春光,李秀菊,崔高航,等.供电系统功能失效分析[J].世界地震工程,2002,18(3):19-23.
[17]IEEE Standard 693,IEEE Recommended Practice for Seismic De-sign of Substations[S],Institute of Electrical and Electronic Engi-neers,Inc.,New York,USA,1997.
[18]FEMA.FEMA Earthquake Loss Estimation Methodology-HA-ZUS99[R].Technical Manual.Federal Emergency ManagementAgency.Washington D.C.,USA,1997.
[19]Hwang HHM,Chou T.Evaluation of Seismic Performance of anelectric Substation using event tree/fault tree technique[J].Probabilistic Engineering Mechanics 1988,13(2).
[20]李天,李杰,沈祖炎.高压变电站主接线系统抗震可靠性分析[J].世界地震工程,2000,16(3):58-62.
[21]文波,张俊发,韩永兴,等.变电站配电楼的隔震设计研究[J].建筑结构,2005,35(11):25-28.
[22]Kiureghian AD,Sackman AL,Hong KJ.Interaction in intercon-nected electrical substation equipment subjected to earthquakeground motions[R].PEER1999/01,1999.
[23]Song Junho,Der Kiureghian Armen,Reliability of Electrical Sub-station Equipment Connected by Rigid Bus[A]//Proc.of the13th World Conference on Earthquake Engineering[M/CD].Can-ada,2004:186.
[24]Gilani AS,Whittaker AS,Fenves GL,Fujisaki E.Seismic Evalu-ation and Retrofit of230-kVPorcelain Transformer Bushings[R].Report No.PEER 1999/14.Pacific Earthquake Engineering Re-search Center,University of California,Berkeley,1999.
[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]郭振岩.变压器抗地震性能的研究[D].沈阳:沈阳工业大学,2004.
[27]尹荣华,李东亮,刘戈林,等.高压输电塔震害及抗震研究[J].世界地震工程,2005,21(1):51-54.
[28]王正旭.电力工业自然灾害及减灾对策[J].灾害学,2001,16(3):54-58.
[2]赵成刚,冯启民.生命线地震工程[M].北京:地震出版社,1994.
[3]杨亚弟,苏文藻,张其浩.电气设施抗震研究概述[J].世界地震工程,1985,1(4):4-8.
[4]李宏男,陆鸣,王前信.大跨越自立式高压输电塔-电缆体系的简化抗震计算方法[J].地震工程与工程振动,1990,10(2):73-87.
[5]Ang A.H.S,Pires J.,Seismic Probabilistic Assessment of Elec-tric Power Transmission Systems[A]//Proc.of 10th World Con-ference of Earthquake Engineering[C].Madrid,Spain,1992.
[6]刘大海,杨翠如.厂房抗震设计[M].北京:中国建筑工业出版社,1997.
[7]李天,李杰,沈祖炎.电力系统地震灾害分析[J].世界地震工程,2000,16(4):19-24.
[8]A.H.-S.Ang,J.Pires.Seismic Probabilistic reliability assess-ment of electric power transmission system[R].11thwcee,Ma-drid,Spain,1992:5583-5589.
[9]I.Vanzi.Seismic reliability of electric power networks:methodolo-gy and application[J].Structural Safety,1996,18(4):311-327.
[10]G.-Y.Liu,C.-W.Liu,Y.-J.Wang.Seismic PerformanceAnalysis of Electric Power Network in Taiwan[R].InternationalConference on Advances and New Challenges in Earthquake Engi-neering Research.Harbin China,2002.
[11]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.
[12]李天,李杰,沈祖炎.高压变电站抗震可靠性分析(一)[J].地震工程与工程振动,2000,20(3):43-49.
[13]李天,李杰,沈祖炎.高压变电站抗震可靠性分析(二)[J].地震工程与工程振动,2000,20(4):37-43.
[14]杨亚弟.网络工程抗震能力分析技术[R].中国地震局“九五”重点项目,2000.
[15]苏幼坡,刘瑞兴,马亚杰.城市生命线地震后恢复曲线与恢复过程优化的影响因素分析[J].灾害学,2000,15(4):49-54.
[16]柳春光,李秀菊,崔高航,等.供电系统功能失效分析[J].世界地震工程,2002,18(3):19-23.
[17]IEEE Standard 693,IEEE Recommended Practice for Seismic De-sign of Substations[S],Institute of Electrical and Electronic Engi-neers,Inc.,New York,USA,1997.
[18]FEMA.FEMA Earthquake Loss Estimation Methodology-HA-ZUS99[R].Technical Manual.Federal Emergency ManagementAgency.Washington D.C.,USA,1997.
[19]Hwang HHM,Chou T.Evaluation of Seismic Performance of anelectric Substation using event tree/fault tree technique[J].Probabilistic Engineering Mechanics 1988,13(2).
[20]李天,李杰,沈祖炎.高压变电站主接线系统抗震可靠性分析[J].世界地震工程,2000,16(3):58-62.
[21]文波,张俊发,韩永兴,等.变电站配电楼的隔震设计研究[J].建筑结构,2005,35(11):25-28.
[22]Kiureghian AD,Sackman AL,Hong KJ.Interaction in intercon-nected electrical substation equipment subjected to earthquakeground motions[R].PEER1999/01,1999.
[23]Song Junho,Der Kiureghian Armen,Reliability of Electrical Sub-station Equipment Connected by Rigid Bus[A]//Proc.of the13th World Conference on Earthquake Engineering[M/CD].Can-ada,2004:186.
[24]Gilani AS,Whittaker AS,Fenves GL,Fujisaki E.Seismic Evalu-ation and Retrofit of230-kVPorcelain Transformer Bushings[R].Report No.PEER 1999/14.Pacific Earthquake Engineering Re-search Center,University of California,Berkeley,1999.
[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]郭振岩.变压器抗地震性能的研究[D].沈阳:沈阳工业大学,2004.
[27]尹荣华,李东亮,刘戈林,等.高压输电塔震害及抗震研究[J].世界地震工程,2005,21(1):51-54.
[28]王正旭.电力工业自然灾害及减灾对策[J].灾害学,2001,16(3):54-58.
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