基于管缩放方法的鲁棒微电网控制

2017 American Control Conference (ACC) Pub Date : 2017-05-24 DOI:10.23919/ACC.2017.7963045

B. Novoselnik, J. Matuško, M. Baotic

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引用次数: 2

摘要

微电网是由分布式(可再生)发电源、存储单元和负载组成的集群，当它们以最佳方式控制时，既可以提高本地供电的质量，也可以提高整个配电系统的性能。在本文中，我们提出了一种鲁棒的微电网控制方法，可以应对间歇性可再生能源和可变负荷带来的不确定性。我们的控制方法是基于管缩放模型预测控制，其中引入了新的优化变量-缩放因子，以最优地平衡单个可控微电网实体的干扰补偿。控制动作的确定使得对于有界扰动的所有可能实现，所有微电网约束都得到满足。通过数值算例说明了所提控制策略的性能。

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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Robust microgrid control using tube scaling approach

Microgrid is a cluster of distributed (renewable) generation sources, storage units and loads, which, when controlled in an optimal fashion, can improve both the quality of the local power supply as well as the performance of the overall power distribution system. In this paper we present a robust control methodology for microgrids that can cope with uncertainties introduced by intermittent renewable energy sources and variable loads. Our control approach is based on a tube scaling model predictive control where new optimization variables - scaling factors - are introduced that optimally balance disturbance compensation by individual controllable microgrid entities. The control actions are determined such that all microgrid constraints are satisfied for all possible realizations of the bounded disturbance. Performance of the proposed control strategy is illustrated with a numerical example.

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