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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 672-674Research of Architecture Based on Distributed...

Research of Architecture Based on Distributed Source Plug and Play

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Abstract:

Energy saving has become a consensus and urgency problems to solve for China and the world. The proposal of Smart Grid based on this. A large number of distributed power penetratione as an important feature of the future smart grid has become an irreversible trend, especially in the distribution network, the economic ,efficiency, and the advantages of the green environmental will be reflected more perfect. A large number of distributed power access also produce many adverse effects on the existing distribution network, that it is difficult to reflect the immediate advantages of distributed power supply. Because of this,plug and play of the distributed power become the hot spot of research in this field. This paper will be another point of view to discuss the distributed power access to the distributed grid side.with plug-and-play architecture.By the research of theoretical origin,the formation of plug-and-play and the expansion in the field of distributed power access distribution network.This paper puts forward the system's point of view to discusses the three models and their own characteristics for the distributed power access to distribution network, hope it will lay theoretical foundation of the Plug and Play technology for the eventual realization these models in the future by the power electronics, communications, control theory,and so on.

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Periodical:

Applied Mechanics and Materials (Volumes 672-674)

Pages:

571-579

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.672-674.571

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Cite this paper

Online since:

October 2014

Authors:

Ming Zhu Guo*, Ying Wang, Fan Peng Bu, Ming Yu Dong

Keywords:

Agent, Architecture, Distributed Generation (DG), Distributed Network, Plug and Play(PnP)

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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* - Corresponding Author

[1] The climate group, Status and prospect of smart grid development in China,. Policy briefs, (2013).

[2] Slootweg H, Smart grids-the future or fantasy,. Smart Metering- Making It Happen．London，UK：IET，2009：1-19.

[3] Suping Yang, Yongliang Zhao, Fengkui Luan, Jingran Yu. POWER DSM, 2006，8(2)：61-64. In Chinese.

[4] Wei Pei, Zhiping Qi. Research of China Power Development and Reform. 2009(5)：11-14 . In Chinese.

[5] Wei L i , Jie Ding, Jianguo Yao. Automation of Electric Power Systems , 2010，34(2)：24-27．In Chinese.

[6] Yang Ji, Qian Ai, Da Xie. Power System Technology , 2010，34(12)：15-23. In Chinese.

[7] Farid K，Reza I，Nikos H，et al, Microgrids management, ．IEEE Power and Energy Magazine, 2008，6(3)：54-65.

[8] Shuyong Chen，Shufang Song，Lanxin Li，Jie Shen. Power System Technology. 2009，33(8): 1-7．In Chinese.

[9] Zhaoxia Xiao, Hongwei Fang, Xian Zhang,. Tianjin Polytechnic University．2010：103-108．In Chinese.

[10] Ming Ding, Min Wang. Electric Power Automation Equipment. 2004，24（7）：31-36 . In Chinese.

[11] Xuehao Hu, Technology of Distributed generation and micro-grid,. China Power Development and Technology Innovation Forum.

[12] Zhimin Hong. Electronic Technology. 2000(6)：34-35. In Chinese.

[13] Sanhong Zou, Wei Pei, Zhiping Qi. Automation of Electric Power Systems. 2010，34(3): 91-95． In Chinese.

[14] Yi Luo, Lin Shi, Guangyu Tu, Chengxiong Mao, Buhan Zhang, Xinbo Ruan. Electric Power Automation Equipment. 2010，34(8)：98-100． In Chinese.

[15] LASSETER R H. Proceedings of 2002 IEEE Power Engineering Society Winter Meeting. January 27-31, 2002, New York, NY, USA: 305-308.

[16] HATZIARGYRIOU N, ASANO H, IRAVANI R, et al， IEEE Power and Energy Magazine. 2007, 5(4): 78-94.

[17] Jiahuan Guo，Qinghua Xie，Wei Huang. Power System and Clean Energy. 2010，26(1)．In Chinese.

[18] Qiyong Xu, Dishen Hou, Feng Lin, Xiaozhi Du, Gongzhen Wang . MAS based dynam ic web service composition formalmodel. Journal of SoutheastUniversity．2008，24(3) ：289- 292.

[19] Yanliu Li，Hengjun Zhou， Chuangxin Guo， Xinfan Jiang. Low Voltage Apparatus. 2010, (16)：29-34. In Chinese.

[20] Qian Ai, Junhong Wu, Jian Zhang. H igh Volt age E ngineering. 2009，35(11)：2813-2819. In Chinese.

[21] Zongxiang Lu, Caixia Wang, Yong Min, Shuangxi Zhou, Jinxiang Li, Yunbo Wang. Automation of Electric Power Systems. 2007，31(19)：100-106. In Chinese.

[22] Zhanghua Zheng，Qian Ai. Power System Technology. 2008，32(16)：27-31. In Chinese.

[23] Hai Guo , Jianhui Su , Guorong Zhang. 2009，32(2)：1-5. In Chinese.

[24] Hengjun Zhou, ChuangXin Guo. High Voltage Engineering. 2010，36(8)：2088-2093. In Chinese.

[25] Fei Wang, Ming Niu, Yuliang Tong. Power System and Clean Energy. 2010，26(11)：28-32. In Chinese.

[26] Xiaolu Li, Dongyuan Shi, Zhenhua Ding, Xianzhong Duan, Mingyan Gao, Yangzan He. Automation of Electric Power Systems. 2001，25(11)：36-40. In Chinese.

DOI: 10.1109/pesw.2000.847326