Hybrid system modeling and supervisory control of a microgrid

2016 North American Power Symposium (NAPS) Pub Date : 2016-09-01 DOI:10.1109/NAPS.2016.7747840

Elham Foruzan, S. Asgarpoor, Justin M. Bradley

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引用次数: 20

Abstract

A new approach to designing a microgrid supervisory controller based on a hybrid automaton is described. A microgrid is defined as a small-scale local grid, comprised of various distributed energy resources (DERs), loads, and energy storage systems. Due to the intermittency of renewable generation, microgrid controllers play a vital role maintaining microgrid stability and integrity in case of an energy shortage (surplus) or when subjected to any disturbances. These controllers should be designed to provide proper control of voltage and frequency. Supervisory controllers are high level control systems that perform optimization, faults detection, protection, and energy management based on their observation from the microgrid. Supervisory controllers define set points to the local controllers for DERs and loads. In this paper, the joint continuous and discrete behavior of the supervisory controller is addressed using a hybrid controller. A complete model of the hybrid automaton (HA) is formalized and tested through one case study of a microgrid using DIgSILENT PowerFactory software. According to the results, the controller can thoroughly manage the load flow within and outside the microgrid.

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微电网混合系统建模与监控

提出了一种基于混合自动机的微电网监控控制器设计方法。微电网被定义为由各种分布式能源、负载和储能系统组成的小型局部电网。由于可再生能源发电的间歇性，微网控制器在能源短缺(剩余)或受到任何干扰的情况下保持微网的稳定性和完整性起着至关重要的作用。这些控制器的设计应能提供适当的电压和频率控制。监控控制器是高级控制系统，它根据对微电网的观察执行优化、故障检测、保护和能量管理。监控控制器为DERs和负载定义了本地控制器的设定点。本文采用一种混合控制器来解决监控控制器的连续和离散联合行为。通过使用DIgSILENT PowerFactory软件的一个微电网案例研究，对混合自动机(HA)的完整模型进行了形式化和测试。结果表明，该控制器能够对微电网内外的负荷流进行彻底的管理。

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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2016 North American Power Symposium (NAPS)

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