宋卫东.美国电力工业特点分析及启示[J].中国电力,2012,45(8):93-97.Song Weidong.Characteristics of U.S. power industry and revelations to China[J].Electric Power,2012,45(8):93-97(in Chinese).
[2]
许仕圣.电站汽轮机发展概况[J].动力工程,1982(2):44-52.Xu Shisheng.Development of steam turbines for utility application[J].Power Engineering,1982(2):44-52(in Chinese).
[3]
汪洋.国外大功率汽轮机技术发展综述[J].动力工程,1991,11(6):1-13.Wang Yang.Review on technical development of foreign large steam turbines[J].Engineering,1991,11(6):1-13(in Chinese).
[4]
张亮,李运栋.第聂伯与葛洲坝水电站对城市经济影响的比较[J].人民长江,2009,40(17):96-97.Zhang Liang,Li Yundong.Comparison of the effects on city economy between Dnepr and Gezhouba hydropower station[J].Yangtze River,2009,40(17):96-97(in Chinese).
[5]
贾金生.国外水电发展概况及对我国水电发展的启示(一)[J].中国水能及电气化,2010(3):6-10.Jia Jinsheng.Overseas hydropower development and revelations to Chinese hydropower development(I) [J].China Water Power & Electrification,2010(3):6-10(in Chinese).
[6]
贾金生.国外水电发展概况及对我国水电发展的启示(二)[J].中国水能及电气化,2010(4):8-12.Jia Jinsheng.Overseas hydropower development and revelations to Chinese hydropower development(II) [J].China Water Power & Electrification,2010(4):8-12(in Chinese).
[7]
黄志明.21世纪中国输电线路发展前景展望[J].国际电力,2000(3):29-33.Huang Zhiming.Prospects of future developments of China’s transmission technology in 21th century [J].International Electric Power For China,2000(3):29-33(in Chinese).
[8]
郭日彩,徐子智,齐立忠,等.美国输电线路典型设计概况及对我国电网工程设计建设的启示[J].电网技术,2007,31(12):33-41.Guo Ricai,Xu Zizhi,Qi Lizhong,et al.General situation of typical transmission line design in USA and its enlightenment to design and construction of power grids in China[J].Power System Technology,2007,31(12):33-41(in Chinese).
[9]
王凤鸣.苏联1150kV输电的现状[J].高电压技术,1991(4):80-83.Wang Fengming.The present situation of 1150kV transmission of USSR[J].High Voltage Engineering,1991(4):80-83(in Chinese).
[10]
岑立庆.我国第一条330千伏刘天关超高压输电线及变电设备运行十年总结[J].电网技术,1984,8(2):39-45. Cen Liqing.Ten-year operation experience summary for the first 330kV transmission line (Liutianguan Line) in China and its transformer equipment[J].Power System Technology,1984,8(2):39-45(in Chinese).
[11]
丁新良.750kV电压等级是西北电网发展的必然选择[J].电网技术,2002,26(3):23-36.Ding Xinliang.750kV-an inevitable choice of higher voltage grade for northwest power grid in China[J].Power System Technology,2002,26(3):23-36(in Chinese).
[12]
舒印彪,刘泽洪,袁骏,等.2005年国家电网公司特高压输电论证工作综述[J].电网技术,2006,30(5):1-12.Shu Yinbiao,Liu Zehong,Yuan Jun,et al.A survey on demonstration of UHV power transmission by state grid corporation of China in the Year of 2005[J].Power System Technology,2006,30(5):1-12(in Chinese).
[13]
周孝信.我国电网技术的现状与未来[J].电网技术,1995,19(2):1-10.Zhou Xiaoxin.Current status and prospects of power system technology in China[J].Power System Technology,1995,19(2):1-10(in Chinese).
[14]
周孝信.新能源变革中电网和电网技术的发展前景[J].华电技术,2011,33(12):1-27.Zhou Xiaoxin.The development prospects of grid and grid technology in the new energy revolution[J].Huadian Technology,2011,33(12):1-27(in Chinese).
[15]
倪敬敏,何光宇,沈沉,等.美国智能电网评估综述[J].电力系统自动化,2010,34(8):9-13.Ni Jingmin,He Guangyu,Shen Chen,et al.A review of assessment of smart grid in America[J].Automation of Electric Power Systems,2010,34(8):9-13(in Chinese).
[16]
汤奕,Pipattanasomporn M,邵盛楠,等.中国与美国和欧盟智能电网之比较研究[J].电网技术,2009,33(15):7-15.Tang Yi,Pipattanasomporn M,Shao Shengnan,et al.Comparative study on smart grid related R&D in China,the United States and the European Union[J].Power System Technology,2009,33(15):7-15(in Chinese).
[17]
周孝信.我国电网互联的关键技术问题[C]//中国科协2000年学术年会.西安:中国科学技术协会,2000:312.Zhou Xiaoxin.Key technical problems of interconnection of power grids in China [C]//Academic Annual Meeting of CAST in 2000.Xi’an:China Association for Science and Technology,2000:312(in Chinese).
[18]
周孝信.新世纪我国电力系统技术展望[C]//加入WTO后中国电机工程科技发展的机遇与挑战学术研讨会.成都:中国科学技术协会,2002:227-228.Zhou Xiaoxin.Prospects of China’s power system technology in the new century[C]//Academic annual meeting of CAST in 2002.Chengdu:China Association for Science and Technology,2002:227-228(in Chinese).
[19]
丁毅,Stergaard J,Poul E S,等.基于智能电网构建的欧洲可再生能源电力系统现状和前景展望[J].电力系统自动化,2011,35(22):12-17.Yi Ding,Stergaard J,Poul E S,et al.Towards a European renewable-based energy system enabled by smart grid:status and prospects[J].Automation of Electric Power Systems,2011,35(22):12-17.
[20]
王普庆,袁端磊,董恩源,等.一种用于电压瞬低补偿装置中的高速真空接触器的研究[J].电工电能新技术,2011,30(4):70-73.Wang Puqing,Yuan Duanlei,Dong Enyuan,et al.Research on a high-speed contactor used for voltage- downcast compensation apparatus[J].Advanced Technology of Electrical Engineering and Energy,2011,30(4):70-73(in Chinese).
[21]
张明兰,杨瑞霞,王晓亮,等.高击穿电压AlGaN/GaN HEMT电力开关器件研究进展[J].半导体技术,2010,35(5):417-422.Zhang Minglan,Yang Ruixia,Wang Xiaoliang,et al.Development of high breakdown voltage AlGaN/GaN HEMT for power switching device[J].Semiconductor Technology,2010,35(5):417-422(in Chinese).
[22]
王春江.光纤复合架空相线在中低压架空输电线路中应用[J].电线电缆,2011(2):5-8.Wang Chunjiang.Application of optic fiber phase conductor in the middle and low voltage overhead transmission lines[J].Electric Wire & Cable,2011(2):5-8(in Chinese).
[23]
王贻霞,翟长春.混合式超高压输电方案在阳江核电厂的应用[J].广电电力,2009,22(10):35-37.Wang Yixia,Zhai Changchun.Use of integrated EHV transmission project in Yangjiang nuclear power plant[J].Guangdong Electric Power,2009,22(10):35-37(in Chinese).
[24]
郑良华,于建立,周晓虎,等.直埋电缆群载流量和稳态温度场计算新方法[J].高电压技术,2010,36(11):2833-2837.Zheng Lianghua,Yu Jianli,Zhou Xiaohu,et al.New method to calculate ampacity and the steady-state temperature field of direct buried cable system[J].High Voltage Engineering,2010,36(11):2833-2837(in Chinese).
[25]
陈星莺,刘孟觉,单渊达.超导储能单元在并网型风力发电系统的应用[J].中国电机工程学报,2001,21(12):63-66.Chen Xingying,Liu Mengjue,Shan Yuanda.Application of super conducting magnetic energy storage system:SMES in wind power system of network forming[J].Proceedings of the CSEE,2001,21(12):63-66(in Chinese).
[26]
杨海涛,吴国旸,陈西颖,等.用于间歇性电源高渗透电网规划的安全性评估方法[J].电力系统自动化,2012,36(24):15-20.Yang Haitao,Wu Guoyang,Chen Xiying,et al.A security assessment method for power grid planning under high penetration of variable generation[J].Automation of Electric Power Systems,2012,36(24):15-20(in Chinese).
[27]
撖奥洋,邓星,文明浩,等.高渗透率下大电网应对微网接入的策略[J].电力系统自动化,2010,34(1):78-83.Han Aoyang,Deng Xing,Wen Minghao,et al.Strategy of large power system coping with accession of microgrid with high penetration[J].Automation of Electric Power Systems,2010,34(1):78-83(in Chinese).
[28]
李鹏,廉超,李波涛.分布式电源并网优化配置的图解方法[J].中国电机工程学报,2009,29(4):91-96.Li Peng,Lian Chao,Li Botao.A graph-based optimal solution for sitting and sizing of grid-connected distributed generation[J].Proceedings of the CSEE,2009,29(4):91-96(in Chinese).
[29]
黄伟,孙昶辉,吴子平,等.含分布式发电系统的微网技术研究综述[J].电网技术,2009,33(9):14-18.Huang Wei,Sun Changhui,Wu Ziping,et al.A review on microgrid technology containing distributed generation system[J].Power System Technology,2009,33(9):14-18(in Chinese).
[30]
程时杰,李兴源,张之哲.智能电网统一信息系统的电网信息全域共享和综合应用[J].中国电机工程学报,2011,31(1):8-14.Cheng Shijie,Li Xingyuan,Zhang Zhizhe,et al.Entire-grid-area information-sharing and integrated applications in united information system for smart grid[J].Proceedings of the CSEE,2011,31(1):8-14(in Chinese).
[31]
张之哲,李兴源,程时杰.智能电网统一信息系统的框架、功能和实现[J].中国电机工程学报,2010,30(34):1-7.Zhang Zhizhe,Li Xingyuan,Cheng Shijie.Structures,functions and implementation of united information system for smart grid[J].Proceedings of the CSEE,2010,30(34):1-7(in Chinese).
[32]
梅生伟,王莹莹,陈来军.从复杂网络视角评述智能电网信息安全研究现状及若干展望[J].高电压技术,2011,31(3):672-679.Mei Shengwei,Wang Yingying,Chen Laijun.Overviews and prospects of the cyber security of smart grid from the view of complex network theory[J].High Voltage Engineering,2011,31(3):672-679(in Chinese).
[33]
周孝信.我国的电力系统和电力系统的研究[J].电网技术,1989,23(3):6-10.Zhou Xiaoxin.Present and prospect of power system in China[J].Power System Technology,1989,23(3):6-10(in Chinese).
[34]
陈树勇,宋书芳,李兰欣,等.智能电网技术综述[J].电网技术,2009,33(8):1-7.Chen Shuyong,Song Shufang,Li Lanxin,et al.Survey on smart grid technology[J].Power System Technology,2009,33(8):1-7(in Chinese).
[35]
IPCC.Intergovernmental panel for climate change fourth assessment report[M].Cambridge:Cambridge University Press,2007:30-50.
[36]
Stern N.The economics of climate change:The stern review[M].Cambridge:Cambridge University Press,2007:37-50.
[37]
Secretary of State for Trade and Industry,UK.Energy White Paper.Our energy future:creating a low carbon economy[M].United Kingdom:British Government,2003:25-29.
[38]
DOE,USA.National electric delivery technologies roadmap,2004 European super grid [R/OL].2004.http://en.wikipedia.org/wiki/European_super_grid.
[39]
中国能源中长期发展战略研究项目组.中国能源中长期(2030、2050)发展战略研究:综合卷[M].北京:中国科学出版社,2011:24-27.Research Group of Chinese Energy Development Strategy.Research on mid- and long term(2030,2050) energy development strategy of China:comprehensive volume[M].Beijing:Science Press,2011:24-27(in Chinese).
[40]
James J M,John K S.A laboratory investigation of compliance behavior under tradable emissions rights:implications for targeted enforcement[J].Journal of Environmental Economics and Management,2007(53):196-212.
[41]
Hughes J.Intelligrid architecture status report[R].Palo Alto,California:EPRI,2005.
[42]
胡学浩.智能电网:未来电网的发展态势[J].电网技术,2009,33(14):1-5.Hu Xuehao.Smart grid:a development trend of future power grid[J].Power System Technology,2009,33(14):1-5(in Chinese).
[43]
Haase P.Intelligrid:a smart network of power[J].EPRI Journal,2005(Fall):27-32.
[44]
Moore D,McDonnel D.Smart grid vision meets distribution utility reality[R].San Antonio:Electric Light & Power Opinion Editorial,2007:20-21
[45]
Tai H,Hogain E O.Behind the buzz,eight smart-grid trends shaping the industry[J].IEEE Power & Energy,2009,7(2):96-97.
[46]
余贻鑫,栾文鹏.智能电网述评[J].中国电机工程学报,2009,29(34):1-8.Yu Yixin,Luan Wenpeng.Smart grid and its implementations[J].Proceedings of the CSEE,2009,29(34):1-8(in Chinese).
[47]
Ipakchi A,Albuyeh F.Grid of the future[J].IEEE Power & Energy Magazine,2009,7(2):52-62.
[48]
王明俊.智能电网与智能能源网[J].电网技术,2010,34(10):1-5.Wang Mingjun.Smart grid and smart energy resource grid[J].Power System Technology,2010,34(10):1-5(in Chinese).
[49]
Larsen H,Petersen L S.Non-fossil energy technologies in 2050 and beyond[R/OL].2010.www.risoe.dk/rispubl/ reports/ris-r-1729.pdf
European Commission.European smart grids technology platform:vision and strategy for Europe’s electricity networks of the future[R].London:European Commission,2006:18-19
[52]
Rifkin J.The third industrial revolution:how lateral power is transforming energy,the economy,and the world[M].Houndmills:Palgrave Macmillan,2011:17-19.
[53]
DOE,USA.Modern grid v1.0:the modern grid initiative[R].Beijing:Narional Library of China,2006.
[54]
DOE,USA.“Grid 2030”:a national vision for electricity’s second 100 years[R].Washington D.C.:United States Department of Energy,Office of Electric Transmission and Distribution,2003:17-39.
[55]
王益民.坚强智能电网技术标准体系研究框架[J].电力系统自动化,2010,34(22):1-6.Wang Yimin.Research framework of technical standard system of strong & smart grid[J].Automation of Electric Power Systems,2010,34(22):1-6(in Chinese).
[56]
傅书逷.2010年智能电网控制中心新技术综述[J].电网技术,2011,35(5):1-7.Fu Shuti.A summary on 2010 smart grid technology for power system control centers[J].Power System Technology,2011,35(5):1-7(in Chinese).
[57]
张伯明,孙宏斌,吴文传,等.智能电网控制中心技术的未来发展[J].电力系统自动化,2009,33(17):21-28.Zhang Boming,Sun Hongbin,Wu Wenchuan,et al .Future development of control center technologies for smart grid[J].Automation of Electric Power Systems,2009,33(17):21-28(in Chinese).
[58]
薛禹胜,费圣英,卜凡强.极端外部灾害中的停电防御系统构思(一):新的挑战与反思[J].电力系统自动化,2008,32(9):1-6.Xue Yusheng,Fei Shengying,Bu Fanqiang.Upgrading the blackout defense scheme against extreme disasters,part I:new challenges and reflection[J].Automation of Electric Power Systems,2008,32(9):1-6(in Chinese).
[59]
薛禹胜.时空协调的大停电防御框架:(二) 广域信息、在线量化分析和自适应优化控制[J].电力系统自动化,2006,30(2):1-10.Xue Yusheng.Space-time cooperative framework for defending blackouts,part II:reliable information,quantitative analyses and adaptive controls[J].Automation of Electric Power Systems,2006,30(2):1-10(in Chinese).
[60]
石立宝,史中英,姚良忠,等.现代电力系统连锁性大停电事故机理研究综述[J].电网技术,2010,34(3):48-54.Shi Libao,Shi Zhongying,Yao Liangzhong,et al.A review of mechanism of large cascading failure blackouts of modern power system[J].Power System Technology,2010,34(3):48-54(in Chinese).
[61]
米为民,荆铭,徐丹丹,等.智能调度分布式一体化建模方案[J].电网技术,2010,34(10):6-9.Mi Weimin,Jing Ming,Xu Dandan,et al.Distributed and integrated modeling of intelligent dispatch[J].Power System Technology,2010,34(10):6-9(in Chinese).
[62]
张伯明,吴文传,郑太一,等.消纳大规模风电的多时间尺度协调的有功调度系统设计[J].电力系统自动化,2011,35(1):1-6.Zhang Boming,Wu Wenchuan,Zheng Taiyi,et al.Design of a multi-time scale coordinated active power dispatching system for accommodating large scale wind power penetration[J].Automation of Electric Power Systems,2011,35(1):1-6(in Chinese).
[63]
朱成章.电力工业的储能时代[J].中外能源,2010,15(12):7-11.Zhu Chengzhang.Energy storage for the power industry [J].Sino-Global Energy,2010,15(12):7-11(in Chinese).
[64]
金一丁,宋强,刘文华.大容量链式电池储能系统及其充放电均衡控制[J].电力自动化设备,2011,31(3):6-11.Jin Yiding,Song Qiang,Liu Wenhua.Large scaled cascaded battery energy storage system with charge/ discharge balancing[J].Electric Power Automation Equipment,2011,31(3):6-11(in Chinese).
[65]
钱伯章,朱建芳.大容量储能技术和产业发展的新动态[J].电网与清洁能源,2012,33(3):79-82.Qian Bozhang,Zhu Jianfang.The latest developments in domestic and international large-capacity storage technology and industrial development[J].Power and Energy,2012,33(3):79-82(in Chinese).
[66]
杨黎晖,许昭,J Stergaard,等.电动汽车在含大规模风电的丹麦电力系统中的应用[J].电力系统自动化,2011,35(14):43-47.Yang Lihui,Xu Zhao,Stergaard J,et al.Electric vehicles in Danish power system with large penetration of wind power[J].Automation of Electric Power Systems,2011,35(14):43-47(in Chinese).
[67]
胡泽春,宋永华,徐智威,等.电动汽车接入电网的影响与利用[J].中国电机工程学报,2012,32(4):1-10.Hu Zechun,Song Yonghua,Xu Zhiwei,et al.Impacts and utilization of electric vehicles integration into power systems[J].Proceedings of the CSEE,2012,32(4):1-10(in Chinese).
[68]
宋永华,胡泽春,阳岳希.电动汽车电池的现状及发展趋势[J].电网技术,2011,35(4):1-7.Song Yonghua,Hu Zechun,Yang Yuexi.Present status and development trend of batteries for electric vehicles [J].Power System Technology,2011,35(4):1-7(in Chinese).
[69]
陈清泉.电动汽车发展要与智能电网建设结合[R/OL].2011-03-24.http://smartgrids.ofweek.com/ 2011-03/ART-290017-8610-28462540.html.Chen Qingquan.EV should be developed with smart grid[R/OL].2011-03-24.http://smartgrids.ofweek.com/ 2011-03/ART-290017-8610-28462540.html(in Chinese).
[70]
张文亮,丘明,来小康.储能技术在电力系统中的应用[J] .电网技术,2008,32(7):1-9.Zhang Wenliang,Qiu Ming,Lai Xiaokang.Application of energy storage technologies in power grids[J].Power System Technology,2008,32(7):1-9(in Chinese).
[71]
张步涵,曾杰,毛承雄,等.串并联型超级电容器储能系统在风力发电中的应用[J] .电力自动化设备,2008,28(4):1-4.Zhang Buhan,Zeng Jie,Mao Chengxiong,et al.Application of series-parallel energy storage system with super capacitor in wind power generation[J].Electric Power Automation Equipment,2008,28(4):1-4(in Chinese).
[72]
袁旭峰,程时杰.多端直流输电技术及其发展[J].继电器,2006,34(19):61-67.Yuan Xufeng,Cheng Shijie.Multi-terminal HVDC transmission technology and its development[J].Relay,2006,34(19):61-67(in Chinese).
[73]
张文亮,曾南超,汤涌.多端高压直流输电技术及应用前景[J].电网技术,2010,34(9):1-6.Zhang Wenliang,Zeng Nanchao,Tang Yong.Multi- terminal HVDC transmission technologies and its application prospects in China[J].Power System Technology,2010,34(9):1-6(in Chinese).
[74]
黄万永,霍继安,曾南超,等.跨省电网以直流相联是全国联网的最佳模式[J].电网技术,1999,23(1):59-62.Huang Wanyong,Huo Ji’an,Zeng Nanchao,et al.Optimal mode of nation-wide interconnected power network:connecting inter-provincial networks by HVDC[J].Power System Technology,1999,23(1):59-62(in Chinese).
[75]
严陆光,肖立业,林良真,等.大力发展高电压、长距离、大容量高温超导输电的建议[J].电工电能新技术,2012,31(1):1-7.Yan Luguang,Xiao Liye,Lin Liangzhen,et al.A proposal for development of high-voltage,long-distance,high- capacity high temperature superconducting power transmission[J].Advanced Technology of Electrical Engineering and Energy,2012,31(1):1-7(in Chinese).
[76]
林良真,肖立业.高温超导输电电缆的现状与发展[J].电力设备,2007,8(1):1-4.Lin Liangzhen,Xiao Liye.Present situation and development of high temperature super-conductive transmission cable[J].Electrical Equipment,2007,8(1):1-4(in Chinese).
[77]
盛况,郭清,张军明,等.碳化硅电力电子器件在电力系统的应用展望[J].中国电机工程学报,2012,32(30):1-7.Sheng Kuang,Guo Qing,Zhang Junming,et al.Development and prospect of SIC power devices in power grid[J].Proceedings of the CSEE,2012,32(30):1-7(in Chinese).
