售电侧市场开放环境下微网端对端电能交易关键技术综述及展望!
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摘要
售电侧市场环境逐渐开放和分布式能源(distributed energy resources,DER)的发展给微网(micro-grid,MG)运行带来了机遇与挑战。端对端(peer to peer,P2P)电能交易可以优化能源结构,充分发挥分布式能源的优势,提高能源系统的效率。文章以微网P2P电能交易系统为研究对象,在考虑我国现有电力改革政策的前提下,在稳态层面提出亟需解决的三大关键问题:分布式能量流如何优化传输、高效通信系统如何建立、P2P电能交易过程中涉及到用户支付问题如何解决。就这些问题,从能量流、信息流、货币流的角度,阐述微网端对端电能交易系统相关分析的解决办法,从工程角度分析新形势下微网P2P电能交易过程中的关键设备及核心软件平台,为推动我国分布式发电市场化交易及落地提供一些建议。
The gradual opening of the power-sales-side market liberalization and the development of distributed energy resources( DER) have brought opportunities and challenges to the operation of the micro-grid. Peer to peer( P2P) energy trading can optimize the energy structure,give full play to the advantages of distributed generation,and improve the efficiency of energy systems. This paper takes the P2 P energy trading system of micro-grids as the research object.Considering China's existing pow er reform policies,three key issues need to be resolved at the steady-state level: how to optimize the transmission of distributed energy flow and how to establish an efficient communication system,and how to solve the problem of user payment involved by P2 P energy trading process. From the perspective of energy flow,information flow and money flow,the solution to the correlation analysis of the P2 P trading system in the micro-grid is described. From the engineering point of view,the P2 P energy trading process in the micro-grid under the new situation is analyzed. The key equipment and core softw are platforms have provided some suggestions for promoting the marketization and landing of distributed pow er generation in China.
The gradual opening of the power-sales-side market liberalization and the development of distributed energy resources( DER) have brought opportunities and challenges to the operation of the micro-grid. Peer to peer( P2P) energy trading can optimize the energy structure,give full play to the advantages of distributed generation,and improve the efficiency of energy systems. This paper takes the P2 P energy trading system of micro-grids as the research object.Considering China's existing pow er reform policies,three key issues need to be resolved at the steady-state level: how to optimize the transmission of distributed energy flow and how to establish an efficient communication system,and how to solve the problem of user payment involved by P2 P energy trading process. From the perspective of energy flow,information flow and money flow,the solution to the correlation analysis of the P2 P trading system in the micro-grid is described. From the engineering point of view,the P2 P energy trading process in the micro-grid under the new situation is analyzed. The key equipment and core softw are platforms have provided some suggestions for promoting the marketization and landing of distributed pow er generation in China.
引文
[1]能源局网站.关于开展分布式发电市场化交易试点的通知[EB/OL].(2018-01-03)[2018-05-02]. http://w w w. gov. cn/xinw en/2018-01/03/content_5252800. htm.
[2] CHEN S,SHROFF N B,SINHA P. Energy trading in the smart grid:From end-user's perspective[C]//Asilomar Conference on Signals. IEEE,2013.
[3]刘故帅.基于博弈论的电力市场多方交易策略研究[D].南昌:南昌大学,2017.LIU Gushuai. Studies on the multi-party electricity trading based on the game-theoretic approach[D]. Nanchang:Nanchang University,2017.
[4]吴建中.欧洲综合能源系统发展的驱动与现状[J].电力系统自动化,2016,40(5):1-7.WU Jianzhong. Drivers and state-of-the-art of integrated energysystems in Europe[J]. Automation of Electric Pow er Systems,2016,40(5):1-7.
[5]李艳秋.认知智能电网分布式网络架构及其关键问题研究[D].成都:电子科技大学,2016.LI Yanqiu. Research on cognitive smart grid distributed netw ork architecture and its key problems[D]. Chengdu:University of Electronic Science and Technology of China,2016.
[6]杨树杰.面向网络化系统的分布式估计及优化算法研究[D].北京:北京邮电大学,2017.YANG Shujie. Research on distributed estimation and optimization algorithm for netw orked systems[D]. Beijing:Beijing University of Posts and Telecommunications,2017.
[7]林凯骏,吴俊勇,郝亮亮,等.基于非合作博弈的冷热电联供微能源网运行策略优化[J].电力系统自动化,2018,42(6):25-32.LIN Kaijun,WU Junyong,HAO Liangliang,et al. Optimization of operation strategy for micro-energy grid w ith CCHP systems based on non-cooperative game[J]. Automation of Electric Pow er Systems,2018,42(6):25-32.
[8]王成山,王守相.智能微网在分布式能源接入中的作用与挑战[J].中国科学院院刊,2016(2):232-240.WANG Chengshan,WANG Shouxiang. The role and challenge of smart mircogrid in the integration of distributed energy resources[J].Bulletin of Chinese Academy of Sciences,2016(2):232-240.
[9] NGUYEN D T, LE L B. Optimal energy management for cooperative microgrids w ith renew able energy resources[C]//IEEE International Conference On Smart Grid Communications. New York:IEEE,2013.
[10] EMILIO A, RAFFAELE B, MARCO C. The role of communication systems in smart grids:Architectures, technical solutions and research challenges[J]. Computer Communications,2013,36(17):1665-1697.
[11] BAYRAM I S,SHAKIR M Z,ABDALLAH M,et al. A survey on energy trading in smart grid[J]. 2014 IEEE Global Conference on Signal and Information Processing(GlobalSIP),IEEE,2014.
[12] WANG Y,MAO S W,NELMS R M. On hierarchical power scheduling for the macrogrid and cooperative microgrids[J]. IEEE Transactions on Industrial Informatics,2015,11(6):1574-1584.
[13] DING Z H,LEE W J,WANG J J. Stochastic resource planning strategy to improve the efficiency of microgrid operation[J]. IEEE Trans Ind Appl,2015,51(3):1978-1986.
[14] WANG H,HUANG J W. Cooperative planning of renewable generations for interconnected microgrids[J]. IEEE Transactions on Smart Grid,2016,7(5):2486-2496.
[15] KHAN M W,WANG J. The research on multi-agent system for microgrid control and optimization[J]. Renew Sust Energ Rev,2017,80:1399-1411.
[16] SKARVELIS-KAZAKOS S,PAPADOPOULOS P,UNDA I G,et al. M ultiple energy carrier optimisation w ith intelligent agents[J].Applied Energy,2016,167:323-335.
[17]张薛礼,董学平.基于非合作博弈的有序用电算法[J].合肥工业大学学报(自然科学版),2017,40(7):922-925.ZHANG Xueli, DONG Xueping. Algorithm of orderly pow er consumption management based on non-cooperrative game[J].Journal of Hefei University of Technology(Natural Science),2017,40(7):922-925.
[18]刘连光,潘明明,田世明,等.考虑源网荷多元主体的售电竞争非合作博弈方法[J].中国电机工程学报,2017,37(6):1618-1626.LIU Lianguang,PAN M ingming,TIAN Shiming,et al. A noncooperative game analysis of an competitive electricity retail considering multiple subjects of source-grid-load[J]. Proceedings of the CSEE,2017,37(6):1618-1626.
[19]刘晓峰,高丙团,罗京,等.基于非合作博弈的居民负荷分层调度模型[J].电力系统自动化,2017,41(14):54-60.LIU Xiaofeng,GAO Bingtuan,LUO Jing,et al. Non-cooperative game based hierarchical dispatch model of residential loads[J].Automation of Electric Pow er Systems,2017,41(14):54-60.
[20] SU Wencong,HUANG A Q. A game theoretic framework for a next-generation retail electricity market w ith high penetration of distributed residential electricity suppliers[J]. Applied Energy,2014,119:341-350.
[21] SORTOMME E, EL-SHARKAWI M A. Optimal combined bidding of vehicle-to-grid ancillary services[J]. IEEE Transactions on Smart Grid,2012,3(1):70-79.
[22] BARCIA P,PESTANA R. Tracing the flows of electricity[J]. Int J Electr Pow er Energy Syst,2010,32(4):329-332.
[23]方周.基于多智能体的智能电网分布式优化调度策略研究[D].南京:南京邮电大学,2017.FANG Zhou. Distributed optimal scheduling strategy research based on multi-agent for smart grid[D]. Nanjing:Nanjing University of Posts and Telecommunications,2017.
[24] AMIN M. Toward self-healing energy infrastructure systems[J].IEEE Computer Applications in Pow er,2001,14(1):20-28.
[25]潘晓东.基于多智能体系统的微电网经济优化策略[D].秦皇岛:燕山大学,2017.PAN Xiaodong. The optimization of economic operation of micro grid based on multi-agent-sysytem[D]. Qinhuangdao:Yanshan University,2017.
[26]周向军.基于非合作博弈的端对端通信资源分配[J].内蒙古师范大学学报(自然科学汉文版),2016,45(5):649-652.ZHOU Xiangjun. Resource allocation algorithm of device to device based on game[J]. Journal of Inner M ongolia Normal University(Natural Science Edition),2016,45(5):649-652.
[27]王成山,李鹏.分布式发电、微网与智能配电网的发展与挑战[J].电力系统自动化,2010,34(2):10-14,23.WANG Chengshan, LI Peng. Development and challenges of distributed generation,the micro-grid and smart distribution system[J]. Automation of Electric Power Systems,2010,34(2):10-14,23.
[28] MUHAMMAD W K,WANG Jie. The research on multi-agent system for microgrid control and optimization[J]. Renew able and Sustainable Energy Review s,2017,80:1399-1411.
[29] AMIN S M,WOLLENBERG B F. Toward a smart grid:power delivery for the 21st century[J]. IEEE Pow er and Energy M agazine,2005,3(5):34-41.
[30] MCARTHUR S D J,DAVIDSON E M,CATTERSON V M,et al. M ulti-agent systems for pow er engineering applications-part II:Technologies,standards,and tools for building multi-agent systems[J]. IEEE Trans Power Syst,2007,22(4):1753-1759.
[31]康文发,李强,陈民铀,等.孤岛微电网多Agent分布式双层控制方法[J].中国电机工程学报,2018,38(3):770-781.KANG Wenfa,LI Qiang,CHEN M inyou,et al. A tw o-layer distributed control method for islanded microgrids by using multiagent systems[J]. Proceedings of the CSEE,2018,38(3):770-781.
[32] LANG S,CAI N,MITRA J. Multi-agent system based voltage regulation in a low-voltage distribution netw ork[C]//Proceedings of the 2013 North American Pow er Symposium(NAPS),2013.
[33] RAHMAN M S, OO A M T. Distributed multi-agent based coordinated pow er management and control strategy for microgrids w ith distributed energy resources[J]. Energy Conversion and M anagement,2017,139:20-32.
[34] LI Y, JIANG J, LIU T, et al. Personalized microtopic recommendation w ith rich information[C]//Chinese Conference on Social M edia Processing. Berlin:Springer-Verlag,2015.
[35] LIU N,CHEN Q F,LU X Y,et al. A charging strategy for PVbased battery sw itch stations considering service availability and self-consumption of PV energy[J]. IEEE Transactions on Industrial Electronics,2015,62(8):4878-4889.
[36]蔡维德,郁莲,王荣,等.基于区块链的应用系统开发方法研究[J].软件学报,2017(6):1474-1487.TSAI Weitek, YU Lian, WANG Rong, et al. Blockchain application development techniques[J]. Journal of Softw are,2017(6):1474-1487.
[37]袁勇,王飞跃.区块链技术发展现状与展望[J].自动化学报,2016(4):481-494.YUAN Yong,WANG Feiyue. Blockchain:The state of the art and future trends[J]. Acta Automatica Sinica,2016(4):481-494.
[38] HWANG J,CHOI M,LEE T,et al. Energy prosumer business model using blockchain system to ensure transparency and safety[J]. Energy Procedia,2017,141:194-198.
[39]张宁,王毅,康重庆,等.能源互联网中的区块链技术:研究框架与典型应用初探[J].中国电机工程学报,2016,36(15):4011-4023.ZHANG Ning,WANG Yi,KANG Chongqing,et al. Block chain technique in the energy internet:preliminary research framew ork and typical applications[J]. Proceedings of the CSEE,2016,36(15):4011-4023.
[40]蔡金棋,李淑贤,樊冰,等.能源互联网中基于区块链的能源交易[J].电力建设,2017,38(9):24-31.CAI Jinqi,LI Shuxian,FAN Bing,et al. Block chain based energy trading in energy internet[J]. Electric Pow er Construction,2017,38(9):24-31.
[41]李刚,孟欢,周国亮,等.基于区块链技术的微网能量管理探析与方案设计[J].电力建设,2018,39(2):43-49.LI Gang, M ENG Huan, ZHOU Guoliang, et al. Energy management analysis and scheme design of microgrid based on blockchain[J]. Electric Pow er Construction, 2018, 39(2):43-49.
[42] WATANABE H, FUJIMURA S, NAKADAIRA A, et al.Blockchain contract:Securing a blockchain applied to smart contracts[C]//Proceedings of the 2016 IEEE International Conference on Consumer Electronics(ICCE). IEEE,2016.
[43]张若雪,全骐.基于UTXO和区块链的资金穿透记账系统[J].上海金融,2018(4):42-47.
[44]张俊,高文忠,张应晨,等.运行于区块链上的智能分布式电力能源系统:需求、概念、方法以及展望[J].自动化学报,2017(9):1544-1554.ZHANG Jun, GAO Wenzhong, ZHANG Yingchen, et al.Blockchain based intelligent distributed electrical energy systems:Needs, concepts, approches and vision[J]. Acta Automatica Sinica,2017(9):1544-1554.
[45]颜拥,赵俊华,文福拴,等.能源系统中的区块链:概念、应用与展望[J].电力建设,2017,38(2):12-20.YAN Yong,ZHAO Junhua,WEN Fushuan,et al. Blockchain inenergy systems:Concept,application and prospect[J]. Electric Pow er Construction,2017,38(2):12-20.
[46]邰雪,孙宏斌,郭庆来.能源互联网中基于区块链的电力交易和阻塞管理方法[J].电网技术,2016,40(12):3630-3638.TAI Xue,SUN Hongbin,GUO Qinglai. Electricity transactions and congestion management based on blockchain in energy internet[J]. Power System Technology,2016,40(12):3630-3638.
[47] CHRISTIDIS K, DEVETSIKIOTIS M. Blockchains and smart contracts for the internet of things[J]. IEEE Access,2016(4):2292-2303.
[48] NGUYEN C. An indie,off-the-grid,blockchain-traded solar power market comes to brooklyn[EB/OL].(2016-03-18)[2018-05-02]. http://motherboard. vice. com/read/the-plan-to-pow erbrooklyn-w ith-a-blockchain-based-microgrid-transactive-solar.
[49] PRISCO C. An energy blockchain for European prosumers[EB/OL].(2016-05-02)[2018-05-02]. https://bitcoinmag-azine.com/articles/an-energy-blockchain-for-europeanprosumers-1462218142.
[50]电气时代编辑部. AMI:智能电网的基石[J].电气时代,2011(7):54.
[51]路保辉,马永红.智能电网AMI通信系统及其数据安全策略研究[J].电网技术,2013,37(8):2244-2249.LU Baohui,M A Yonghong. Research on communication system of advanced metering infrastructure for smart grid and its data security measures[J]. Pow er System Technology, 2013, 37(8):2244-2249.
[52]彭显刚,李壮茂,邓小康,等.智能电网框架下的高级量测体系研究述评[J].广东电力,2017(12):7-14.PENG Xiangang, LI Zhuangmao, DENG Xiaokang, et al.Research on advanced metering infrastructure under smart grid framew ork[J]. Guangdong Electric Pow er,2017(12):7-14.
[53]王思彤,周晖,袁瑞铭,等.智能电表的概念及应用[J].电网技术,2010,34(4):17-23.WANG Sitong,ZHOU Hui,YUAN Ruiming,et al. Concept and application of smart meter[J]. Pow er System Technology,2010,34(4):17-23.
[54]李盟,陈茜,秦立军,等.高级量测体系的研究与应用[J].中国电业(技术版),2011(6):26-29.LI M eng,CHEN Qian,QIN Lijun,et al. Research and Application of Advanced M etering Infrastructure[J]. China Electric Pow er(Technology Edition),2011(6):26-29.
[55]郭慧,汪飞,张笠君,等.基于能量路由器的智能型分布式能源网络技术[J].中国电机工程学报,2016,36(12):3314-3325.GUO Hui,WANG Fei,ZHANG Lijun,et al. Technologies of energy router-based smart distributed energy netw ork[J].Proceedings of the CSEE,2016,36(12):3314-3325.
[56]赵争鸣,冯高辉,袁立强,等.电能路由器的发展及其关键技术[J].中国电机工程学报,2017,37(13):3823-3834.ZHAO Zhengming,FENG Gaohui,YUAN Liqiang,et al. The development and key technologies of electric energy router[J].Proceedings of the CSEE,2017,37(13):3823-3834.
[57]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(6):714-727.
[58] XU Yi,ZHANG Jianhua,WANG Wenye,et al. Energy router:Architectures and functionalities tow ard energy internet[C]//Proceedings of the 2011 IEEE 2nd International Conference on Smart Grid Communications. Brussels:IEEE Computer Society,2011:31-36.
[59] POP C, CIOARA T, ANTAL M, et al. Blockchain based decentralized management of demand response programs in smart energy grids[J]. Sensors(Basel, Sw itzerland), 2018, 18(1):162.
[60]丁伟,王国成,许爱东,等.能源区块链的关键技术及信息安全问题研究[J].中国电机工程学报,2018,38(4):1026-1034,1279.DING Wei,WANG Guocheng,XU Aidong,et al. Research on key technologies and information security issues of energy blockchain[J]. Proceedings of the CSEE,2018,38(4):1026-1034,1279.
[61]曾鸣,程俊,王雨晴,等.区块链框架下能源互联网多模块协同自治模式初探[J].中国电机工程学报,2017,37(13):3672-3681.ZENG M ing, CHEN Jun, WANG Yuqing, et al. Primarily research for multi module cooperative autonomous mode of energy internet under blockchain framew ork[J]. Proceedings of the CSEE,2017,37(13):3672-3681.
[62]陈启鑫,刘敦楠,林今,等.能源互联网的商业模式与市场机制(一)[J].电网技术,2015,39(11):3050-3056.CHEN Qixin,LIU Dunnan,LIN Jin,et al. Business models and market mechanisms of energy internet(1)[J]. Pow er System Technology,2015,39(11):3050-3056.
[63]白杨,李昂,夏清.新形势下电力市场营销模式与新型电价体系[J].电力系统保护与控制,2016,44(5):10-16.BAI Yang,LI Ang,XIA Qing. Electricity business marketing modes in the new environment and new electricity pricing systems[J]. Power System Protection and Control,2016,44(5):10-16.
[2] CHEN S,SHROFF N B,SINHA P. Energy trading in the smart grid:From end-user's perspective[C]//Asilomar Conference on Signals. IEEE,2013.
[3]刘故帅.基于博弈论的电力市场多方交易策略研究[D].南昌:南昌大学,2017.LIU Gushuai. Studies on the multi-party electricity trading based on the game-theoretic approach[D]. Nanchang:Nanchang University,2017.
[4]吴建中.欧洲综合能源系统发展的驱动与现状[J].电力系统自动化,2016,40(5):1-7.WU Jianzhong. Drivers and state-of-the-art of integrated energysystems in Europe[J]. Automation of Electric Pow er Systems,2016,40(5):1-7.
[5]李艳秋.认知智能电网分布式网络架构及其关键问题研究[D].成都:电子科技大学,2016.LI Yanqiu. Research on cognitive smart grid distributed netw ork architecture and its key problems[D]. Chengdu:University of Electronic Science and Technology of China,2016.
[6]杨树杰.面向网络化系统的分布式估计及优化算法研究[D].北京:北京邮电大学,2017.YANG Shujie. Research on distributed estimation and optimization algorithm for netw orked systems[D]. Beijing:Beijing University of Posts and Telecommunications,2017.
[7]林凯骏,吴俊勇,郝亮亮,等.基于非合作博弈的冷热电联供微能源网运行策略优化[J].电力系统自动化,2018,42(6):25-32.LIN Kaijun,WU Junyong,HAO Liangliang,et al. Optimization of operation strategy for micro-energy grid w ith CCHP systems based on non-cooperative game[J]. Automation of Electric Pow er Systems,2018,42(6):25-32.
[8]王成山,王守相.智能微网在分布式能源接入中的作用与挑战[J].中国科学院院刊,2016(2):232-240.WANG Chengshan,WANG Shouxiang. The role and challenge of smart mircogrid in the integration of distributed energy resources[J].Bulletin of Chinese Academy of Sciences,2016(2):232-240.
[9] NGUYEN D T, LE L B. Optimal energy management for cooperative microgrids w ith renew able energy resources[C]//IEEE International Conference On Smart Grid Communications. New York:IEEE,2013.
[10] EMILIO A, RAFFAELE B, MARCO C. The role of communication systems in smart grids:Architectures, technical solutions and research challenges[J]. Computer Communications,2013,36(17):1665-1697.
[11] BAYRAM I S,SHAKIR M Z,ABDALLAH M,et al. A survey on energy trading in smart grid[J]. 2014 IEEE Global Conference on Signal and Information Processing(GlobalSIP),IEEE,2014.
[12] WANG Y,MAO S W,NELMS R M. On hierarchical power scheduling for the macrogrid and cooperative microgrids[J]. IEEE Transactions on Industrial Informatics,2015,11(6):1574-1584.
[13] DING Z H,LEE W J,WANG J J. Stochastic resource planning strategy to improve the efficiency of microgrid operation[J]. IEEE Trans Ind Appl,2015,51(3):1978-1986.
[14] WANG H,HUANG J W. Cooperative planning of renewable generations for interconnected microgrids[J]. IEEE Transactions on Smart Grid,2016,7(5):2486-2496.
[15] KHAN M W,WANG J. The research on multi-agent system for microgrid control and optimization[J]. Renew Sust Energ Rev,2017,80:1399-1411.
[16] SKARVELIS-KAZAKOS S,PAPADOPOULOS P,UNDA I G,et al. M ultiple energy carrier optimisation w ith intelligent agents[J].Applied Energy,2016,167:323-335.
[17]张薛礼,董学平.基于非合作博弈的有序用电算法[J].合肥工业大学学报(自然科学版),2017,40(7):922-925.ZHANG Xueli, DONG Xueping. Algorithm of orderly pow er consumption management based on non-cooperrative game[J].Journal of Hefei University of Technology(Natural Science),2017,40(7):922-925.
[18]刘连光,潘明明,田世明,等.考虑源网荷多元主体的售电竞争非合作博弈方法[J].中国电机工程学报,2017,37(6):1618-1626.LIU Lianguang,PAN M ingming,TIAN Shiming,et al. A noncooperative game analysis of an competitive electricity retail considering multiple subjects of source-grid-load[J]. Proceedings of the CSEE,2017,37(6):1618-1626.
[19]刘晓峰,高丙团,罗京,等.基于非合作博弈的居民负荷分层调度模型[J].电力系统自动化,2017,41(14):54-60.LIU Xiaofeng,GAO Bingtuan,LUO Jing,et al. Non-cooperative game based hierarchical dispatch model of residential loads[J].Automation of Electric Pow er Systems,2017,41(14):54-60.
[20] SU Wencong,HUANG A Q. A game theoretic framework for a next-generation retail electricity market w ith high penetration of distributed residential electricity suppliers[J]. Applied Energy,2014,119:341-350.
[21] SORTOMME E, EL-SHARKAWI M A. Optimal combined bidding of vehicle-to-grid ancillary services[J]. IEEE Transactions on Smart Grid,2012,3(1):70-79.
[22] BARCIA P,PESTANA R. Tracing the flows of electricity[J]. Int J Electr Pow er Energy Syst,2010,32(4):329-332.
[23]方周.基于多智能体的智能电网分布式优化调度策略研究[D].南京:南京邮电大学,2017.FANG Zhou. Distributed optimal scheduling strategy research based on multi-agent for smart grid[D]. Nanjing:Nanjing University of Posts and Telecommunications,2017.
[24] AMIN M. Toward self-healing energy infrastructure systems[J].IEEE Computer Applications in Pow er,2001,14(1):20-28.
[25]潘晓东.基于多智能体系统的微电网经济优化策略[D].秦皇岛:燕山大学,2017.PAN Xiaodong. The optimization of economic operation of micro grid based on multi-agent-sysytem[D]. Qinhuangdao:Yanshan University,2017.
[26]周向军.基于非合作博弈的端对端通信资源分配[J].内蒙古师范大学学报(自然科学汉文版),2016,45(5):649-652.ZHOU Xiangjun. Resource allocation algorithm of device to device based on game[J]. Journal of Inner M ongolia Normal University(Natural Science Edition),2016,45(5):649-652.
[27]王成山,李鹏.分布式发电、微网与智能配电网的发展与挑战[J].电力系统自动化,2010,34(2):10-14,23.WANG Chengshan, LI Peng. Development and challenges of distributed generation,the micro-grid and smart distribution system[J]. Automation of Electric Power Systems,2010,34(2):10-14,23.
[28] MUHAMMAD W K,WANG Jie. The research on multi-agent system for microgrid control and optimization[J]. Renew able and Sustainable Energy Review s,2017,80:1399-1411.
[29] AMIN S M,WOLLENBERG B F. Toward a smart grid:power delivery for the 21st century[J]. IEEE Pow er and Energy M agazine,2005,3(5):34-41.
[30] MCARTHUR S D J,DAVIDSON E M,CATTERSON V M,et al. M ulti-agent systems for pow er engineering applications-part II:Technologies,standards,and tools for building multi-agent systems[J]. IEEE Trans Power Syst,2007,22(4):1753-1759.
[31]康文发,李强,陈民铀,等.孤岛微电网多Agent分布式双层控制方法[J].中国电机工程学报,2018,38(3):770-781.KANG Wenfa,LI Qiang,CHEN M inyou,et al. A tw o-layer distributed control method for islanded microgrids by using multiagent systems[J]. Proceedings of the CSEE,2018,38(3):770-781.
[32] LANG S,CAI N,MITRA J. Multi-agent system based voltage regulation in a low-voltage distribution netw ork[C]//Proceedings of the 2013 North American Pow er Symposium(NAPS),2013.
[33] RAHMAN M S, OO A M T. Distributed multi-agent based coordinated pow er management and control strategy for microgrids w ith distributed energy resources[J]. Energy Conversion and M anagement,2017,139:20-32.
[34] LI Y, JIANG J, LIU T, et al. Personalized microtopic recommendation w ith rich information[C]//Chinese Conference on Social M edia Processing. Berlin:Springer-Verlag,2015.
[35] LIU N,CHEN Q F,LU X Y,et al. A charging strategy for PVbased battery sw itch stations considering service availability and self-consumption of PV energy[J]. IEEE Transactions on Industrial Electronics,2015,62(8):4878-4889.
[36]蔡维德,郁莲,王荣,等.基于区块链的应用系统开发方法研究[J].软件学报,2017(6):1474-1487.TSAI Weitek, YU Lian, WANG Rong, et al. Blockchain application development techniques[J]. Journal of Softw are,2017(6):1474-1487.
[37]袁勇,王飞跃.区块链技术发展现状与展望[J].自动化学报,2016(4):481-494.YUAN Yong,WANG Feiyue. Blockchain:The state of the art and future trends[J]. Acta Automatica Sinica,2016(4):481-494.
[38] HWANG J,CHOI M,LEE T,et al. Energy prosumer business model using blockchain system to ensure transparency and safety[J]. Energy Procedia,2017,141:194-198.
[39]张宁,王毅,康重庆,等.能源互联网中的区块链技术:研究框架与典型应用初探[J].中国电机工程学报,2016,36(15):4011-4023.ZHANG Ning,WANG Yi,KANG Chongqing,et al. Block chain technique in the energy internet:preliminary research framew ork and typical applications[J]. Proceedings of the CSEE,2016,36(15):4011-4023.
[40]蔡金棋,李淑贤,樊冰,等.能源互联网中基于区块链的能源交易[J].电力建设,2017,38(9):24-31.CAI Jinqi,LI Shuxian,FAN Bing,et al. Block chain based energy trading in energy internet[J]. Electric Pow er Construction,2017,38(9):24-31.
[41]李刚,孟欢,周国亮,等.基于区块链技术的微网能量管理探析与方案设计[J].电力建设,2018,39(2):43-49.LI Gang, M ENG Huan, ZHOU Guoliang, et al. Energy management analysis and scheme design of microgrid based on blockchain[J]. Electric Pow er Construction, 2018, 39(2):43-49.
[42] WATANABE H, FUJIMURA S, NAKADAIRA A, et al.Blockchain contract:Securing a blockchain applied to smart contracts[C]//Proceedings of the 2016 IEEE International Conference on Consumer Electronics(ICCE). IEEE,2016.
[43]张若雪,全骐.基于UTXO和区块链的资金穿透记账系统[J].上海金融,2018(4):42-47.
[44]张俊,高文忠,张应晨,等.运行于区块链上的智能分布式电力能源系统:需求、概念、方法以及展望[J].自动化学报,2017(9):1544-1554.ZHANG Jun, GAO Wenzhong, ZHANG Yingchen, et al.Blockchain based intelligent distributed electrical energy systems:Needs, concepts, approches and vision[J]. Acta Automatica Sinica,2017(9):1544-1554.
[45]颜拥,赵俊华,文福拴,等.能源系统中的区块链:概念、应用与展望[J].电力建设,2017,38(2):12-20.YAN Yong,ZHAO Junhua,WEN Fushuan,et al. Blockchain inenergy systems:Concept,application and prospect[J]. Electric Pow er Construction,2017,38(2):12-20.
[46]邰雪,孙宏斌,郭庆来.能源互联网中基于区块链的电力交易和阻塞管理方法[J].电网技术,2016,40(12):3630-3638.TAI Xue,SUN Hongbin,GUO Qinglai. Electricity transactions and congestion management based on blockchain in energy internet[J]. Power System Technology,2016,40(12):3630-3638.
[47] CHRISTIDIS K, DEVETSIKIOTIS M. Blockchains and smart contracts for the internet of things[J]. IEEE Access,2016(4):2292-2303.
[48] NGUYEN C. An indie,off-the-grid,blockchain-traded solar power market comes to brooklyn[EB/OL].(2016-03-18)[2018-05-02]. http://motherboard. vice. com/read/the-plan-to-pow erbrooklyn-w ith-a-blockchain-based-microgrid-transactive-solar.
[49] PRISCO C. An energy blockchain for European prosumers[EB/OL].(2016-05-02)[2018-05-02]. https://bitcoinmag-azine.com/articles/an-energy-blockchain-for-europeanprosumers-1462218142.
[50]电气时代编辑部. AMI:智能电网的基石[J].电气时代,2011(7):54.
[51]路保辉,马永红.智能电网AMI通信系统及其数据安全策略研究[J].电网技术,2013,37(8):2244-2249.LU Baohui,M A Yonghong. Research on communication system of advanced metering infrastructure for smart grid and its data security measures[J]. Pow er System Technology, 2013, 37(8):2244-2249.
[52]彭显刚,李壮茂,邓小康,等.智能电网框架下的高级量测体系研究述评[J].广东电力,2017(12):7-14.PENG Xiangang, LI Zhuangmao, DENG Xiaokang, et al.Research on advanced metering infrastructure under smart grid framew ork[J]. Guangdong Electric Pow er,2017(12):7-14.
[53]王思彤,周晖,袁瑞铭,等.智能电表的概念及应用[J].电网技术,2010,34(4):17-23.WANG Sitong,ZHOU Hui,YUAN Ruiming,et al. Concept and application of smart meter[J]. Pow er System Technology,2010,34(4):17-23.
[54]李盟,陈茜,秦立军,等.高级量测体系的研究与应用[J].中国电业(技术版),2011(6):26-29.LI M eng,CHEN Qian,QIN Lijun,et al. Research and Application of Advanced M etering Infrastructure[J]. China Electric Pow er(Technology Edition),2011(6):26-29.
[55]郭慧,汪飞,张笠君,等.基于能量路由器的智能型分布式能源网络技术[J].中国电机工程学报,2016,36(12):3314-3325.GUO Hui,WANG Fei,ZHANG Lijun,et al. Technologies of energy router-based smart distributed energy netw ork[J].Proceedings of the CSEE,2016,36(12):3314-3325.
[56]赵争鸣,冯高辉,袁立强,等.电能路由器的发展及其关键技术[J].中国电机工程学报,2017,37(13):3823-3834.ZHAO Zhengming,FENG Gaohui,YUAN Liqiang,et al. The development and key technologies of electric energy router[J].Proceedings of the CSEE,2017,37(13):3823-3834.
[57]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(6):714-727.
[58] XU Yi,ZHANG Jianhua,WANG Wenye,et al. Energy router:Architectures and functionalities tow ard energy internet[C]//Proceedings of the 2011 IEEE 2nd International Conference on Smart Grid Communications. Brussels:IEEE Computer Society,2011:31-36.
[59] POP C, CIOARA T, ANTAL M, et al. Blockchain based decentralized management of demand response programs in smart energy grids[J]. Sensors(Basel, Sw itzerland), 2018, 18(1):162.
[60]丁伟,王国成,许爱东,等.能源区块链的关键技术及信息安全问题研究[J].中国电机工程学报,2018,38(4):1026-1034,1279.DING Wei,WANG Guocheng,XU Aidong,et al. Research on key technologies and information security issues of energy blockchain[J]. Proceedings of the CSEE,2018,38(4):1026-1034,1279.
[61]曾鸣,程俊,王雨晴,等.区块链框架下能源互联网多模块协同自治模式初探[J].中国电机工程学报,2017,37(13):3672-3681.ZENG M ing, CHEN Jun, WANG Yuqing, et al. Primarily research for multi module cooperative autonomous mode of energy internet under blockchain framew ork[J]. Proceedings of the CSEE,2017,37(13):3672-3681.
[62]陈启鑫,刘敦楠,林今,等.能源互联网的商业模式与市场机制(一)[J].电网技术,2015,39(11):3050-3056.CHEN Qixin,LIU Dunnan,LIN Jin,et al. Business models and market mechanisms of energy internet(1)[J]. Pow er System Technology,2015,39(11):3050-3056.
[63]白杨,李昂,夏清.新形势下电力市场营销模式与新型电价体系[J].电力系统保护与控制,2016,44(5):10-16.BAI Yang,LI Ang,XIA Qing. Electricity business marketing modes in the new environment and new electricity pricing systems[J]. Power System Protection and Control,2016,44(5):10-16.
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