微电网能量管理系统设计
Design of Micro-Grid Energy Management System

作者: 马 赛 , 武令君 * , 郑国涛 , 陈 鹏 , 孙 帅 :东南大学电气工程学院,江苏 南京;

关键词: 微电网能量管理系统软件平台储能调度ASP.NETMicro-Grid Energy Management System Software Platform Storage Dispatch ASP.NET

摘要:
近年来能源和环境问题受到各国重视,采用大量可再生能源的微电网技术快速发展。对微电网进行能量管理可以保证微电网安全高效的运行。本文针对微电网的能量管理问题,阐述了微电网能量管理系统物理层的控制结构与方法、软件层架构与算法,在此基础上开发实现了基于本地服务器的能量管理系统软件平台。平台由服务器、数据库、后台进程、Web网页四部分构成。服务器端系统采用ASP.NET结合MFC开发,连接MySQL数据库,储存微电网状态信息及读取历史用发电信息。用户通过动态刷新的Web网页,实时查看微电网运行状况并进行管理,人机界面友好。后台系统根据给定时间间隔执行预测和调度算法。本系统实现了对微电网的实时监控、发用电预测、储能调度优化和信息综合管理。

Abstract: In recent years, the energy exhaustion and environmental degradation boost the development of micro-grid for that micro-grid is more compatible with renewable distributed power sources. Energy management in the micro-grid is critical to maintain safety and efficient operation of the micro-gird. This paper focuses on the energy management problem and discusses several aspects of MEMS (Micro-grid Energy Management System), including user requirements, objectives, structure and control strategy of the system. To satisfy these requirements, an MEMS platform based on local sever is presented and realized. The platform consists of server, database web pages, and background processes. Server system uses ASP.NET combined with MFC and connects MySQL da-tabase, which stores current state of micro-grid and reads previous power flow information. Us-er-friendly web pages for users can refresh dynamically, which shows the real-time state and enables user control. Background processes perform forecasting and scheduling algorithm based on a given interval. The proposed MEMS realizes several functions including SCADA (Supervisory Control And Data Acquisition), load and generation forecasting, storage dispatch and optimization, and information management.

文章引用: 马 赛 , 武令君 , 郑国涛 , 陈 鹏 , 孙 帅 (2015) 微电网能量管理系统设计。 智能电网, 5, 328-335. doi: 10.12677/SG.2015.56040

参考文献

[1] 张建华, 苏玲, 陈勇, 等. 微网的能量管理及其控制策略[J]. 电网技术, 2011, 35(7): 24-28.

[2] Vandoorn, T.L., De Kooning, J., Vandevelde, L., et al. (2013) Microgrids: Hierarchical Control and an Overview of the Control and Reserve Management Strategies. IEEE Industrial Electronics Magazine, 7, 42-55.
http://dx.doi.org/10.1109/MIE.2013.2279306

[3] Morozumi, S., Nakama, H. and Inoue, N. (2008) Demonstra-tion Projects for Grid-Connection Issues in Japan. e & i Elektrotechnik und Informationstechnik, 125, 426-431.
http://dx.doi.org/10.1007/s00502-008-0594-0

[4] Barnes, M., Dimeas, A., Engler, A., et al. (2005) MicroGrid Laboratory Facilities. 2005 International Conference on Future Power Systems, Amsterdam, 18 November 2005, 1-6.
http://dx.doi.org/10.1109/fps.2005.204229

[5] 吴雄, 王秀丽, 刘世民, 等. 微电网能量管理系统研究综述[J]. 电力自动化设备, 2014, 34(10): 7-14.

[6] 牛焕娜, 黄秀琼, 杨仁刚, 等. 微电网能量管理系统功能结构体系研究与设计[J]. 可再生能源, 2013, 31(6): 47-51.

[7] 章鹿华, 王思彤. 面向智能用电的家庭综合能源管理系统的设计与实现[J]. 电测与仪表, 2010, 47(9): 35-38.

[8] 王成山, 武震, 李鹏. 微电网关键技术研究[J]. 电工电子学报, 2014, 2(29): 1-12.

[9] 李洋, 刘海涛, 吴鸣, 等. 微电网能量管理系统开发与应用[J]. 华东电力, 2013, 41(5): 1071-1074.

[10] 薛祥, 杨斌. 基于改进遗传算法的微电网能量管理系统的研究[J]. 中国电力教育, 2014(35): 191-194.

[11] 李锐, 邱晓燕, 等. 基于多通道迭代粒子群优化算法的微网经济调度[J]. 华东电力, 2012, 3(3): 454, 459.

[12] Nguyen, T.A. (2014) Optimization in Microgrid Design and Energy Management. Missouri University of Science and Technology, Rolla, Missouri.

[13] 杨新法, 苏剑, 吕志鹏, 等. 微电网技术综述[J]. 中国电机工程学报, 2014, 34(1): 57-70.

[14] Virginia Tech (2015) Distributed Generation—Educational Module.
http://www.dg.history.vt.edu/ch1/introduction.html

[15] 周林, 黄勇, 郭珂, 等. 微电网储能技术研究综述[J]. 电力系统保护与控制, 2011, 39(7): 147-152.

[16] 肖朝霞. 微网控制及运行特性分析[D]: [博士学位论文]. 天津: 天津大学, 2008: 11-28.

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