混合可再生能源转换系统的非线性控制与优化策略

IF 0.8 Q3 ENGINEERING, MULTIDISCIPLINARY

Modelling and Simulation in Engineering Pub Date : 2021-10-04 DOI:10.1155/2021/3519490

Z. J. Andaloussi, A. Raihani, A. E. Magri, R. Lajouad, A. E. Fadili

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引用次数: 7

摘要

本文研究了一种与三相电网相连接的混合可再生能源转换系统(HRECS)及其功率转换组件，即AC/DC整流器和DC/AC逆变器。HRECS是围绕一个永磁同步风力发电机和一个光伏能源转换系统建造的。与传统控制方法相比，提出了一种新的多目标控制策略，以提高系统的性能。这使得除了考虑最佳涡轮机调速和PV-MPPT以及其他三个重要的控制目标(如直流链路电压调节和电网中注入的无功功率)之外，还可以考虑。为了实现这些目标，基于整个“变流器-发电机”关联的非线性模型，开发了一种新的控制策略。利用李雅普诺夫理论和精确的反步控制和滑模控制证明了系统的鲁棒性和稳定性分析。根据标准控制解，通过仿真对所提控制器的性能进行了形式化分析。

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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Novel Nonlinear Control and Optimization Strategies for Hybrid Renewable Energy Conversion System

This article deals with a hybrid renewable energy conversion system (HRECS) interconnected to the three-phase grid in association with their power conversion components, i.e., AC/DC rectifier and DC/AC inverter. The HRECS is built around a permanent magnet synchronous wind turbine generator and a photovoltaic energy conversion system. Comparing to traditional control methods, a new multiobjective control strategy is developed to enhance system performances. This makes it possible to account in addition to optimal turbine speed regulation and PV-MPPT and three other important control objectives such as DC-link voltage regulation and the injected reactive power in the grid. To achieve these objectives, a novel control strategy is developed, based on a nonlinear model of the whole “converters-generators” association. The robustness and the stability analysis of the system have been proved using the Lyapunov theory and precisely the backstepping control and the sliding mode control. The performances of the proposed controllers are formally analyzed with respect to standard control solutions illustrated through simulation.

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来源期刊

Modelling and Simulation in Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

2.70

自引率

3.10%

发文量

审稿时长

18 weeks

期刊介绍： Modelling and Simulation in Engineering aims at providing a forum for the discussion of formalisms, methodologies and simulation tools that are intended to support the new, broader interpretation of Engineering. Competitive pressures of Global Economy have had a profound effect on the manufacturing in Europe, Japan and the USA with much of the production being outsourced. In this context the traditional interpretation of engineering profession linked to the actual manufacturing needs to be broadened to include the integration of outsourced components and the consideration of logistic, economical and human factors in the design of engineering products and services.