赵敏;陈颖;沈沉;黄秀琼;

• 1:电力系统及发电设备控制和仿真国家重点实验室(清华大学电机系)
• 2:广西电网公司

摘要(Abstract)：

随着更多的分布式电源接入,微电网及其群落出现在配电网末端。如何合理规划设计微电网及其群落成为智能电网发展必须解决的关键问题之一。从运营模式和技术形态2个方面阐述微电网群的主要特征,比较微电网群与其他分布式电源接入配电网技术解决方案的区别。接着,提出微电网群的一般规划设计流程。在此基础上,结合广西猫儿山地区的实际供电需求和条件,完成了猫儿山微电网群示范工程的方案设计,并对其合作运营模式成立的条件进行校验。研究工作拓展了微电网群的实际应用,可为微电网群相关规划设计和运行管理提供借鉴依据。

关键词(KeyWords)： 微电网;微电网群;规划;分布式电源

Abstract:

Keywords:

基金项目(Foundation): 国家高技术研究发展计划项目(863计划)(2012AA050217)~~

作者(Author): 赵敏;陈颖;沈沉;黄秀琼;

Email:

DOI: 10.13335/j.1000-3673.pst.2015.06.001

参考文献(References)：

• [1]Gil N J,Lopes J A P.Hierarchical frequency control scheme for islanded multi-microgrids operation[C]//IEEE Power Tech Conference.Lausanne,Switzerland:IEEE,2007:1-6.
• [2]Hatziargyriop N.Advanced architectures and control concepts for more microgrids[EB/OL].[2013-05-24].http://www.microgrids.eu/documents/esr.pdf.
• [3]NG E J,EL-SHATSHAT R A.Multi-microgrid control systems(MMCS)[C]//IEEE PES General Meeting.Minneapolis,USA:IEEE,2010:1-6.
• [4]田培根,肖曦,丁若星,等.自治型微电网群多元复合储能系统容量配置方法[J].电力系统自动化,2013,37(1):168-173.Tian Peigen,Xiao Xi,Ding Ruoxing,et al.A capacity configuring method of composite energy storage system in autonomous multimicrogrid[J].Automation of Electric Power Systems,2013,37(1):168-173(in Chinese).
• [5]Vasiljevska J,Lopes J A P,Matos M A.Multi-microgrid impact assessment using multi criteria decision aid methods[C]//IEEE Power Tech Conference.Bucharest,Romania:IEEE,2009:1-8.
• [6]Rua D,Pereira L F M,Gil N J,et al.Impact of multi-microgrid communication systems in islanded operation[C]//IEEE PES Innovative Smart Grid Technologies Conference Europe.Manchester,UK:IEEE,2010:1-6.
• [7]Zheng G,Li N.Multi-agent based control system for multimicrogrids[C]//International Conference on Computational Intelligence and Software Engineering.Wuhan,China:IEEE,2010:1-4.
• [8]Nunna Hsvsk,Doolla S.Multi agent based distributed energy resource management for intelligent microgrids[J].IEEE Transactions on Industrial Electronics,2013,60(4):1678-1687.
• [9]Nunna Hsvsk,Doolla S.Demand response in smart distribution system with multiple microgrids[J].IEEE Transactions on Smart Grid,2012,3(4):1641-1649.
• [10]Saad W,Zhu H,Poor H V.Coalitional game theory for cooperative micro-grid distribution networks[C]//IEEE International conf.in Communications Workshops.Kyoto,Japan:IEEE,2011:1-5.
• [11]Chao W,Fadlullah Z M,Kato N,et al.GT-CFS:a game theoretic coalition formulation strategy for reducing power loss in micro grids[J].IEEE Trans on Parallel and Distributed Systems,2014,25(9):2307-2317
• [12]Awerbuch S,Preston A.The virtual utility:accounting,technology&competitive aspects of the emerging industry[M].New York:Springer,1997:1-3.
• [13]Ruiz N,Cobelo I,Oyarzabal J.A direct load control model for virtual power plant management[J].IEEE Transactions on Power Systems,2009,24(2):959-966.
• [14]Molderink A,Bakker V,Bosman M G C,et al.Management and control of domestic smart grid technology[J].IEEE Transactions on Smart Grid,2010,1(2):109-119.
• [15]Dielmann K,Velden A V D.Virtual power plants(VPP)-a new perspective for energy generation[C]//9 th International Scientific and Practical Conference of Students,Post-graduates and Young ScientistsModern Techniques and Technologies.Tomsk,Russia:IEEE,2003:18-20.
• [16]陈春武,李娜,钟朋园,等.虚拟电厂发展的国际经验及启示[J].电网技术,2013,37(8):2258-2262.Chen Chunwu,Li Na,Zhong Pengyuan,et al.Review of virtual power plant technology abroad and enlightenment to China[J].Power System Technology,2013,37(8):2258-2262(in Chinese).
• [17]卫志农,余爽,孙国强,等.虚拟电厂的概念与发展[J].电力系统自动化,2013,37(13):1-9.Wei Zhinong,Yu Shuang,Sun Guoqiang,et al.Concept and development of virtual power plant[J].Automation of Electric Power Systems,2013,37(13):1-9(in Chinese).
• [18]Bakken D,Bose A,Chandy K M,et al.GRIP-grids with intelligent periphery:control architectures for Grid2050[C]//IEEE International Conference on Smart Grid Communications.Brussels,Belgium:IEEE,2011:1-5.