Maximum power point tracking controller using Lyapunov theorem of wind turbine under varying wind conditions

Maamar Yahiaoui; Benameur Afif; Brahim Brahmi; Mohamed Horch; Mohamed Serraoui

doi:10.11591/ijece.v13i2.pp1281-1290

Maximum power point tracking controller using Lyapunov theorem of wind turbine under varying wind conditions

Maamar Yahiaoui^*
, Benameur Afif
, Brahim Brahmi
, Mohamed Horch
, Mohamed Serraoui

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Due to the instantaneous variation in wind speed, it is necessary to identify the optimal rotational speed that ensures maximum energy efficiency and system stability. We proposed a controller based on the Lyapunov theorem to extract the maximum power from wind speed and to ensure the overall stability of the controlled system under random operating conditions imposed by wind speed and parameter variations. The control of the Tip speed ratio is based on the Lyapunov theorem (TSR_LT), which is a controller based on Lyapunov's theory and the definition of a positive, energetic function, to ensure the stability of the system being controlled, the dynamics of this function must be negative. The viability of this work is demonstrated by MATLAB-based mathematical and simulation models and a comparison with the results obtained using proportional integral (PI) controller-based tip speed ratio control (TSR_PI controller). The simulation results demonstrate the controller's effectiveness.

Original language	English
Pages (from-to)	1281-1290
Number of pages	10
Journal	International Journal of Electrical and Computer Engineering
Volume	13
Issue number	2
DOIs	https://doi.org/10.11591/ijece.v13i2.pp1281-1290
State	Published - Apr 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 Institute of Advanced Engineering and Science. All rights reserved.

Keywords

Lyapunov theorem controller
Permanent magnet synchronous generator
Proportional integral controller
Tip speed ratio control
Wind turbine

ASJC Scopus subject areas

General Computer Science
Electrical and Electronic Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.11591/ijece.v13i2.pp1281-1290

Cite this

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title = "Maximum power point tracking controller using Lyapunov theorem of wind turbine under varying wind conditions",

abstract = "Due to the instantaneous variation in wind speed, it is necessary to identify the optimal rotational speed that ensures maximum energy efficiency and system stability. We proposed a controller based on the Lyapunov theorem to extract the maximum power from wind speed and to ensure the overall stability of the controlled system under random operating conditions imposed by wind speed and parameter variations. The control of the Tip speed ratio is based on the Lyapunov theorem (TSR\_LT), which is a controller based on Lyapunov's theory and the definition of a positive, energetic function, to ensure the stability of the system being controlled, the dynamics of this function must be negative. The viability of this work is demonstrated by MATLAB-based mathematical and simulation models and a comparison with the results obtained using proportional integral (PI) controller-based tip speed ratio control (TSR\_PI controller). The simulation results demonstrate the controller's effectiveness.",

keywords = "Lyapunov theorem controller, Permanent magnet synchronous generator, Proportional integral controller, Tip speed ratio control, Wind turbine",

author = "Maamar Yahiaoui and Benameur Afif and Brahim Brahmi and Mohamed Horch and Mohamed Serraoui",

year = "2023",

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doi = "10.11591/ijece.v13i2.pp1281-1290",

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AU - Yahiaoui, Maamar

AU - Afif, Benameur

AU - Brahmi, Brahim

AU - Horch, Mohamed

AU - Serraoui, Mohamed

PY - 2023/4

Y1 - 2023/4

N2 - Due to the instantaneous variation in wind speed, it is necessary to identify the optimal rotational speed that ensures maximum energy efficiency and system stability. We proposed a controller based on the Lyapunov theorem to extract the maximum power from wind speed and to ensure the overall stability of the controlled system under random operating conditions imposed by wind speed and parameter variations. The control of the Tip speed ratio is based on the Lyapunov theorem (TSR_LT), which is a controller based on Lyapunov's theory and the definition of a positive, energetic function, to ensure the stability of the system being controlled, the dynamics of this function must be negative. The viability of this work is demonstrated by MATLAB-based mathematical and simulation models and a comparison with the results obtained using proportional integral (PI) controller-based tip speed ratio control (TSR_PI controller). The simulation results demonstrate the controller's effectiveness.

AB - Due to the instantaneous variation in wind speed, it is necessary to identify the optimal rotational speed that ensures maximum energy efficiency and system stability. We proposed a controller based on the Lyapunov theorem to extract the maximum power from wind speed and to ensure the overall stability of the controlled system under random operating conditions imposed by wind speed and parameter variations. The control of the Tip speed ratio is based on the Lyapunov theorem (TSR_LT), which is a controller based on Lyapunov's theory and the definition of a positive, energetic function, to ensure the stability of the system being controlled, the dynamics of this function must be negative. The viability of this work is demonstrated by MATLAB-based mathematical and simulation models and a comparison with the results obtained using proportional integral (PI) controller-based tip speed ratio control (TSR_PI controller). The simulation results demonstrate the controller's effectiveness.

KW - Lyapunov theorem controller

KW - Permanent magnet synchronous generator

KW - Proportional integral controller

KW - Tip speed ratio control

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Maximum power point tracking controller using Lyapunov theorem of wind turbine under varying wind conditions

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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Cite this