基于鲁棒控制和孤岛检测的主从组织交流微电网无缝运行

2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies Pub Date : 2021-03-05 DOI:10.1109/ICEPE50861.2021.9404425

Parusharamulu Buduma, Madan Kumar Das, R. T. Naayagi, S. Mishra, G. Panda

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引用次数: 2

摘要

为实现交流微电网在并网模式(GCM)、孤岛模式(IM)以及两种模式之间的转换过程中的无缝运行，本文提出了孤岛检测、控制、电力共享和电网同步技术。微电网源间的电力共享采用主从方式实现。每个源的控制方案采用鲁棒线性二次型调节器(RLQR)和混合$H_{2}/H_{\infty}$最优控制器(MO)设计。采用同步提取变换(SET)和最优支持向量机(OSVM)开发了检测算法。同时，还考虑了一种基于锁相环(PLL)的电网同步方法来实现微电网与公用电网的重新连接。为了验证其实际可行性，利用dSPACE 1202控制套件开发了实验装置。为了证明系统的无缝运行，给出了仿真和实验结果。

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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Seamless Operation of Master-Slave Organized AC Microgrid with Robust Control and Islanding Detection

In this paper, islanding detection, control, power share, and grid synchronization techniques have been proposed for the seamless operation of AC Microgrid in Grid-Connected Mode (GCM), Islanded Mode (IM), and during the transition between both modes. The power share between Microgrid sources is implemented with a Master-Slave method. The control scheme of each source is designed with Robust Linear Quadratic Regulator (RLQR) and Mixed $H_{2}/H_{\infty}$ Optimal (MO) controller. The detection algorithm is developed with Synchro-Extraction Transform (SET) and Optimal Support Vector Machine (OSVM). A Phase-Locked Loop (PLL) based grid synchronization method is also considered for the re-connecting of the Microgrid to the utility grid. To verify the practical feasibility, an experimental setup along dSPACE 1202 control kit is developed. For demonstrating the seamless operation of the proposed system, simulation and experimental results are presented.

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2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies

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