A Distributed Secondary-Tertiary Coordinated Control Framework for Islanded Microgrids

2020 IEEE 18th International Conference on Industrial Informatics (INDIN) Pub Date : 2020-07-20 DOI:10.1109/INDIN45582.2020.9442086

Yu Wang, T. Nguyen, Chengquan Ju, Yan Xu, Benfei Wang, X. Feng

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引用次数: 1

Abstract

In this paper, a fully distributed secondary-tertiary coordinated control framework for islanded ac microgrids has been proposed. First, the distributed secondary control for frequency restoration, voltage regulation and power sharing has been proposed. Therefore, the system frequency and bus voltages can be maintained at set points. Each DG can follow the tertiary control signals, while the rest load-generation mismatch is proportionally shared among DGs. Then in the tertiary control, optimal power flow of islanded ac microgrids is formulated as an optimization problem and solved by alternating direction method of multipliers. The entire control framework is achieved in a distributed way with sparse communication networks among each agent. A cyber-physical microgrid platform has been built to validate the proposed controller design in a real-time and hardware-in-the-loop condition. A six-bus three-DG microgrid is developed on the platform and the experimental results validate the effectiveness of the proposed method.

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孤岛微电网的分布式二级-三级协调控制框架

本文提出了一种孤岛交流微电网的全分布式二级-三级协调控制框架。首先，提出了基于频率恢复、电压调节和功率共享的分布式二次控制。因此，系统频率和母线电压可以维持在设定值。每个DG都可以遵循三级控制信号，而剩余的负载产生不匹配在DG之间按比例共享。在三级控制中，将孤岛交流微电网的最优潮流表述为优化问题，并采用乘法器的交变方向法求解。整个控制框架以分布式的方式实现，每个代理之间的通信网络稀疏。建立了一个网络物理微电网平台，在实时和硬件在环条件下验证了所提出的控制器设计。在该平台上开发了6母线3 - dg微电网，实验结果验证了该方法的有效性。

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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2020 IEEE 18th International Conference on Industrial Informatics (INDIN)

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