Correlation Between Multiple VSG Sources for Enhancing the Power Allocation in Microgrid

2018 IEEE Electrical Power and Energy Conference (EPEC) Pub Date : 2018-10-01 DOI:10.1109/EPEC.2018.8598344

A. Rasool, Xiangwu Yan, Haaris Rasool, Hongxia Guo

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引用次数: 6

Abstract

The different variants of droop controls for the multiple Virtual Synchronous Generator (VSG) sources to form an island microgrid is discussed in this paper. The droop control ω-P is basically a decentralized control that defines the frequency variation of a microgrid on the increase in load. The control equation for the equivalent ω-P slope for two VSGs is derived to see the effect of a load on the overall system's frequency. In the parallel VSG system, the power distribution among the multiple VSGs is dependent on the droop control. The correlation of multiple VSGs is presented in this paper that can bring the firm coordination between the different sources in stabilizing the system; by finding the dependency of each VSG on a microgrid. Furthermore, the master-slave control is introduced to acquire the maximum power of one VSG (e.g. solar) by following the instant frequency of a system as a reference, instead of constant reference frequency. Following controls are verified by performing the experiments on an island microgrid system and the results are shown through graphs.

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微电网中多个VSG源间的相关性研究

本文讨论了多个虚拟同步发电机(VSG)源组成孤岛微电网的不同下垂控制形式。下垂控制ω-P基本上是一种分散控制，它定义了微电网在负荷增加时的频率变化。推导了两个VSGs的等效ω-P斜率的控制方程，以了解负载对整个系统频率的影响。在并联VSG系统中，多个VSG之间的功率分配依赖于下垂控制。本文提出了多源系统的相关性，它能在稳定系统时带来不同源之间的坚定协调;通过找出每个VSG对微电网的依赖关系。此外，引入了主从控制，通过以系统的瞬时频率作为参考，而不是恒定的参考频率，来获取一个VSG(例如太阳能)的最大功率。通过在孤岛微电网系统上进行实验，验证了以下控制方法的正确性，并以图表的形式给出了实验结果。

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 IEEE Electrical Power and Energy Conference (EPEC)

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