Rifkin J.The third industrial revolution:how lateral power is transforming energy,the economy,and the world [M].New York:Palgrave Macmillan,2011.
[2]
王旭辉.刘振亚:构建全球能源互联网[N].中国能源报,2014-08-04(2).Wang Xuhui.Liu Zhenya: Building global energy internet[N].China Energy News,2014-08-04(2)(in Chinese).
[3]
董朝阳,赵俊华,文福拴,等.从智能电网到能源互联网:基本概念与研究框架[J].电力系统自动化,2014,38(15):1-11.Dong Zhaoyang,Zhao Junhua,Wen Fushuan,et al.From smart grid to energy internet:basic concept and research framework[J].Automation of Electric Power Systems,2014,38(15):1-11(in Chinese).
[4]
曹军威,孟坤,王继业,等.能源互联网与能源路由器[J].中国科学:信息科学,2014,44(6):714-727.Cao Junwei,Meng Kun,Wang Jiye,et al.An energy internet and energy routers[J].Scientia Sinica Informationis,2014,44(6):714-727(in Chinese).
[5]
周海明,刘广一,刘超群.能源互联网技术框架研究[J].中国电力,2014,47(11):140-144.Zhou Haiming,Liu Guangyi,Liu Chaoqun.Study on the energy internet technology framework [J] .Electric Power,2014,47(11):140-144(in Chinese).
[6]
晏阳.能源互联网下的新型配电网[J].电气时代,2012,(10):39-40.Yan Yang.The new electric distribution network in the energy internet[J].Electric Age,2012,(10):39-40(in Chinese).
[7]
Ooi B T,Wang X.Boost-type PWM HVDC transmission system[J].IEEE Transactions on Power Delivery,1991,6(4):1557-1563.
[8]
Ooi B T,Wang X.Voltage angle lock loop control of the boost type PWM converter for HVDC application [J].IEEE Transactions on Power Electronics,1990,5(2):229-235.
徐政,陈海荣.电压源换流器型直流输电技术综述[J].高电压技术,2007,33(1):1-10.Xu Zheng,Chen Hairong.Review and applications of VSC HVDC[J].High Voltage Engineering,2007,33(1):1-10(in Chinese).
[11]
赵成勇,李金丰,李广凯.基于有功和无功独立调节的VSC-HVDC控制策略[J].电力系统自动化,2005,29(9):20-24,30.Zhao Chengyong,Li Jinfeng,Li Guangkai.VSC-HVDC control strategy based on respective adjustment of active and reactive power[J].Automation of Electric Power Systems,2005,29(9):20-24,30(in Chinese).
[12]
郑超,周孝信,李若梅,等.VSC-HVDC稳态特性与潮流算法的研究[J].中国电机工程学报,2005,25(6):1-5.Zheng Chao,Zhou Xiaoxin,Li Ruomei,et al.Study on the steady characteristic and algorithm of power flow for VSC-HVDC[J].Proceedings of the CSEE,2005,25(6):1-5(in Chinese).
[13]
梁海峰,李庚银,李广凯,等.向无源网络供电的VSC-HVDC系统仿真研究[J].电网技术,2005,29(8):45-50.Liang Haifeng,Li Gengyin,Li Guangkai,et al.Simulation study of VSC-HVDC system connected to passive network[J].Power System Technology,2005,29(8):45-50(in Chinese).
[14]
李彦林,王明彦,郑载满.微网运行条件下储能并网VSC多目标控制策略[J].电网技术,2013,37(7):1792-1798.Li Yanlin,Wang Mingyan,Zheng Zaiman.A multi- objective control strategy for grid-connecting VSC under grid-connected operation of microgrid [J].Power System Technology,2013,37(7):1792-1798(in Chinese).
[15]
陈海荣,徐政.向无源网络供电的VSC-HVDC系统的控制器设计[J].中国电机工程学报,2006,26(23):42-48.Chen Hairong,Xu Zheng.Control design for VSC-HVDC supplying passive network[J].Proceedings of the CSEE,2006,26(23):42-48(in Chinese).
[16]
Huang A Q,Crow M L,Heydt G T,et al.The future renewable electric energy delivery and management (FREEDM) system:the energy internet [J].Proceedings of the IEEE,2011,99(1):133-148.
[17]
宋强,赵彪,刘文华,等.智能直流配电网研究综述[J].中国电机工程学报,2013,33(25):9-19.Song Qiang,Zhao Biao,Liu Wenhua,et al.An overview of research on smart DC distribution power network [J].Proceedings of the CSEE,2013,33(25):9-19(in Chinese).
[18]
Ito Y,Zhongqing Y,Akagi H.DC microgrid based distribution power generation system[C]//The 4 th International Power Electronics and Motion Control Conference.Xi’an,China:IEEE,2004:1740-1745.
[19]
Kakigano H,Miura Y,Ise T.Low-voltage bipolar-type DC microgrid for super high quality distribution[J].IEEE Transactions on Power Electronics,2010,25(12):3066-3075.
[20]
Hollinger R,Erge T.Integrative energy market as system integrator of decentralized generators[C]//2012 9 th International Conference on the European Energy Market.Florence:IEEE,2012:1-6.
[21]
Wickert M,Baier A,Lichtner P,et al.Benefit of a simulation model of a decentralized energy management system for electric vehicle charging[C]//2010 Emobility- Electrical Power Train.Leipzig:IEEE,2010:1-7.
[22]
Kunold I,Kuller M,Bauer J,et al.A system concept of an energy information system in flats using wireless technologies and smart metering devices[C]//2011 IEEE 6th International Conference on Intelligent Data Acquisition and Advanced Computing Systems.Prague,Czech Republic:IEEE,2011:812-816.
[23]
Belitz H J,Winter S,Muller C,et al.Technical and economic analysis of future smart grid applications in the E-DeMa project[C]//2012 3 rd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe).Berlin,Germany:IEEE,2012:1-8.
[24]
Krenge J,Scheibmayer M,Deindl M.Identification scheme and name service in the Internet of Energy [C]//2013 IEEE PES Innovative Smart Grid Technology (ISGT).Washington,DC:IEEE,2013:1-6.
[25]
Braun U.Bridging the gap with Broadband Powerline (BPL) technology[C]//2011 2 nd IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies (ISGT Europe).Manchester:IEEE,2011:1-7.
[26]
王叶子,王喜文.德国版智能电网“E-Energy”[J].物联网技术,2011,(5):3-5.Wang Yezi,Wang Xiwen.Smart grid in Germany “E-Energy” [J].Internet of Things Technologies,2011,(5):3-5(in Chinese).
[27]
邱晓燕.变电站主变压器损耗计算及经济运行分析[J].电力建设,1998,(9):32-34.Qiu Xiaoyan.Calculation of loss of main transformer in substation with analysis on economic operation[J].Electric Power Construction,1998,(9):32-34(in Chinese).
[28]
李安人.配电变压器负载率、效率与经济运行的探讨[J].电工技术杂志,2001,(4):47-49.Li Anren.Discourse on the loaded rated and efficiency of distribution transformer and which of the economic operating[J].Electrotechnical Journal,2001,(4):47-49 (in Chinese).
[29]
刘国旗.从变压器负载率与能耗统计看变压器的经济运行点[J].电工技术,2010,(2):12.Liu Guoqi.Evaluation of transformer economical operation point from transformer load rate and energy consumption statistics[J].Electric Engineering, 2010,(2):12(in Chinese).
