A Multilayer Preventive Control to Regulate Voltage and Frequency in Autonomous Microgrids

2018 Australasian Universities Power Engineering Conference (AUPEC) Pub Date : 2018-11-01 DOI:10.1109/AUPEC.2018.8758055

Md. A. Shoeb, Farhad Shahnia, G. Shafiullah

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引用次数: 7

Abstract

This paper proposes a method to prevent the frequency and voltage excursion in autonomous microgrids beyond their predefined desired ranges, following any change in load and/or renewable energy output. The proposed technique utilizes the short-term prediction data of load and renewable generations to determine any prospective occurrence of events that violate the microgrid’s predefined range of frequency or voltage. It then determines the optimal generation for dispatchable sources and the MG’s most appropriate topology as first options to prevent the violation. If it is not enough, the proposed technique goes on to engage in supporting actions, such as exchanging power with neighboring microgrid, utilizing energy storages, demand response and renewable energy curtailment. It considers the technical, reliability and environmental aspects of the MG along with the operational cost, as well as the cost of supporting actions. The optimized control variables are sent to the local controller before the occurrence of the event to maintain the frequency and voltage within the desired limits.

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自主微电网电压和频率的多层预防控制

本文提出了一种方法，以防止在负载和/或可再生能源输出发生任何变化后，自治微电网的频率和电压偏离超出其预定义的期望范围。所提出的技术利用负荷和可再生发电的短期预测数据来确定任何违反微电网预定义频率或电压范围的事件的预期发生。然后，它确定可调度源的最优生成和MG最合适的拓扑作为防止冲突的首选选项。如果这还不够，建议的技术将继续参与支持行动，例如与邻近的微电网交换电力，利用能源储存，需求响应和可再生能源弃风。它考虑了MG的技术、可靠性和环境方面，以及运营成本和支持行动的成本。在事件发生前将优化后的控制变量发送给本地控制器，使频率和电压保持在期望的范围内。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Australasian Universities Power Engineering Conference (AUPEC)

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