基于储能的微网并网/离网无缝切换技术

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摘要储能在可再生能源微网的运行控制过程中具有重要的作用, 可以作为微网离网运行的组网电源, 维持系统的电压和频率稳定;并可以实现微网离网/并网两种模式的无缝切换。深入分析了包括功率环、滤波电容电压环和滤波电感电流环的储能控制器三环控制策略, 以及三环控制策略在微网稳定控制和离网/并网模式无缝切换过程中的控制过程。建立了包含储能、光伏、异步风力发电机和典型负荷的微网仿真与实验平台, 结果表明, 由于储能的控制作用, 微网在离网运行、并网运行、离网/并网模式无缝切换等过程中能够保持良好的电压和频率稳定性, 确保微网内重要负荷供电的可靠性。为微网, 以及可再生能源分布式发电的规模化发展和高效利用提供了参考。

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	唐西胜
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关键词 ：微网, 储能, 并网运行, 离网运行, 无缝切换

Abstract：Energy storage plays a vital role in the reliable operation of Micro-Grid (MG). It can establish and maintain system voltage and frequency stability as the main power in the islanded operation of MG with the help of Voltage Source Converter (VSC). And it can also control the seamless transition of MG both from islanded operation mode to grid-connected operation mode and vice versa. The three-loop control strategies of the energy storage converter is analyzed in detail including power flow loop, filter capacitor voltage loop and filter inductance current loop. And the control process of the three-loop in the implementation of grid-connected/islanded seamless transition followed. Simulation and experiment are presented from a MG platform including PV, Asynchronous Wind Turbine(AWT), energy storage and typical load, showing the feasibility of the proposed approach. Some important reference can be drawn for the development of MG and the scaled renewable distributed generation.

Key words： Micro-grid energy storage grid-connected operation islanded operation seamless transition

收稿日期: 2010-11-02 出版日期: 2014-03-07

PACS:

TM76

基金资助:微网与大电网之间的无缝切换, 可以保证微网内重要负荷的供电可靠性, 对大电网的安全稳定运行也具有重要的作用, 已经作为微网的重要技术特征引起了广泛的重视目前无缝切换大多集中于单台逆变器带本地负载, 与大电网之间的无缝切换由美国电力可靠性委员会(CERTS)资助建设、美国电力公司运行的微网实验测试平台, 分布式电源由3台热电联供微燃机承担, 每台微燃机的直流母线上并联一定容量的蓄电池, 通过调整逆变器输出电压的幅值与相位, 并控制静态开关, 实现与大电网的无缝切换对于含多种微源的微网与大电网间的无缝切换, 目前还缺乏系统的研究与实验验证; 国家自然科学基金项目(50777064)和中国科学院知识创新工程方向性项目(应用于光伏微电网的分布式储能关键技术研究)

作者简介: 唐西胜男, 1975年生, 博士, 副研究员, 研究方向为电力系统稳定与控制、分布式电力与储能及微型电网。邓卫男, 1983年生, 博士, 研究方向为微网的稳定性控制。

引用本文:

唐西胜, 邓卫, 齐智平. 基于储能的微网并网/离网无缝切换技术[J]. 电工技术学报, 2011, 26(1增): 280-285. Tang Xisheng, Deng Wei, Qi Zhiping. Research on Grid-connected/Islanded Seamless Transition of Microgrid Based on Energy Storage. Transactions of China Electrotechnical Society, 2011, 26(1增): 280-285.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2011/V26/I1增/280

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