Predictive Voltage and Frequency Restoration for Decentralized FCS-MPC based Droop Controlled DGs in AC Microgrids

智能电网与可再生能源(英文) Pub Date : 2022-03-20 DOI:10.1109/SGRE53517.2022.9774248

Iresha Poonahela, A. Krama, S. Bayhan, H. Abu-Rub, M. Begovic, M. Shadmand

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引用次数: 1

Abstract

Droop control provides a decentralized method of control between distributed generators (DGs) in the primary control (PC) level of islanded AC microgrids (MGs). However, this results in deviations of the system’s voltage and frequency (V/f). Secondary control (SC) is therefore required to restore such deviations. This paper presents a simple V/f restoration technique that utilizes finite control set MPC (FCS-MPC) to achieve primary and secondary control for a MG system. It makes use of the predicted voltages and currents from the FCSMPC to estimate V/f deviation parameters to enable restoration. The simulation carried out in MATLAB/Simulink shows that the controller maintains V/f values within the standard limits and achieves accurate power sharing. Unlike existing secondary controllers, this technique does not require any linear PI controllers in the secondary control layer. Additionally it does not directly require frequency or voltage information in the secondary control layer, making the design process uncomplicated and faster.

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交流微电网中基于分散FCS-MPC的下垂控制dg的电压频率预测恢复

在孤岛交流微电网的主控制(PC)层面，下垂控制为分布式发电机(dg)之间提供了一种分散的控制方法。然而，这会导致系统电压和频率(V/f)的偏差。因此，需要二级控制(SC)来恢复这些偏差。本文提出了一种简单的V/f恢复技术，利用有限控制集MPC (FCS-MPC)实现对MG系统的主、次控制。它利用来自FCSMPC的预测电压和电流来估计V/f偏差参数以实现恢复。在MATLAB/Simulink中进行的仿真表明，该控制器将V/f值保持在标准范围内，并实现了准确的功率共享。与现有的辅助控制器不同，这种技术在辅助控制层不需要任何线性PI控制器。此外，它不直接需要二次控制层的频率或电压信息，使设计过程简单快捷。

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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智能电网与可再生能源(英文)

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