Optimal tuning of proportional–integral controller using particle swarm optimization algorithm for control of permanent magnet synchronous generator based wind turbine with tip speed ratio for maximum power point tracking-Reference-Cited by-同舟云学术

Optimal tuning of proportional–integral controller using particle swarm optimization algorithm for control of permanent magnet synchronous generator based wind turbine with tip speed ratio for maximum power point tracking

Published:2020-02-16 Issue:2 Volume:45 Page:400-412
ISSN:0309-524X
Container-title:Wind Engineering
language:en
Short-container-title:Wind Engineering

Author:

Hannachi Marwa¹^ORCID,Elbeji Omessaad¹^ORCID,Benhamed Mouna¹,Sbita Lassaad¹

Affiliation:

1. Photovoltaic Wind and Geothermal Systems Research Unit, Department of Electrical Engineering, National Engineering School of Gabes, University of Gabes, Gabes, Tunisia

Abstract

This article deals with the study of the particle swarm optimization algorithm and its variants. After modeling the global system, a comparative study is carried out about the algorithms described in order to choose the best of those to be used thereafter. Then, the perturbed particle swarm optimization is presented to determine the optimal parameters of the proportional–integral controller for speed control to certify the tip speed ratio for maximum power point tracking of a wind energy conversion system. A numerical simulation is used in conjunction with the particle swarm optimization algorithm to determine the proportional–integral controller optimal parameters. From the simulations results, we observe that the proportional–integral controller designed with particle swarm optimization gives better results compared to the traditional method (proportional–integral manually) in terms of the performance index.

Publisher

SAGE Publications

Subject

Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment

Link

http://journals.sagepub.com/doi/pdf/10.1177/0309524X20903745

Reference18 articles.

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2. Energy efficient control of a stand-alone wind energy conversion system with AC current harmonics compensation

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