Fatigue Damage Estimation and Data-based Control for Wind Turbines

Jose de Jesus Barradas Berglind; Rafal Wisniewski; Mohsen Soltani

doi:10.1049/iet-cta.2014.0730

Fatigue Damage Estimation and Data-based Control for Wind Turbines

Jose de Jesus Barradas Berglind, Rafal Wisniewski, Mohsen Soltani

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

42 Citationer (Scopus)

789 Downloads (Pure)

Abstract

The focus of this work is on fatigue estimation and data-based controller design for wind turbines. The main purpose is to include a model of the fatigue damage of the wind turbine components in the controller design and synthesis process. This study addresses an online fatigue estimation method based on hysteresis operators, which can be used in control loops. The authors propose a data-based model predictive control (MPC) strategy that incorporates an online fatigue estimation method through the objective function, where the ultimate goal in mind is to reduce the fatigue damage of the wind turbine components. The outcome is an adaptive or self-tuning MPC strategy for wind turbine fatigue damage reduction, which relies on parameter identification on previous measurement data. The results of the proposed strategy are compared with a baseline model predictive controller.

Originalsprog	Engelsk
Tidsskrift	IET Control Theory & Applications
Vol/bind	9
Udgave nummer	7
Sider (fra-til)	1042 – 1050
Antal sider	9
ISSN	1751-8644
DOI	https://doi.org/10.1049/iet-cta.2014.0730
Status	Udgivet - 23 apr. 2015

Adgang til dokumentet

10.1049/iet-cta.2014.0730

CTA_SI_2014_0730Accepteret manuskript, 1 MB

http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=7101000

AUB Link

Søg efter materialet i Aalborg Universitetsbiblioteks søgemaskine

EDGE: EDGE (Efficient Distribution of Green Energy)
Wisniewski, R., Bak-Jensen, B., Bendtsen, J. D., Bunzel, H., De Persis, C., Jung, O., Leth, J., Madsen, T. K., Kordheili, R. A., Barradas Berglind, J. D. J., Izadi-Zamanabadi, R., Jaeschke, J., Madsen, J. T., Mahat, P., Minko, T., Neamtu, I. D., Edlund, K., Pillai, J. R., Schwefel, H., Skogestad, S., Sloth, C., Thoegersen, P. & Trip, S.
01/04/2012 → 31/12/2016
Projekter: Projekt › Forskning

Citationsformater

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AU - Barradas Berglind, Jose de Jesus

AU - Wisniewski, Rafal

AU - Soltani, Mohsen

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Y1 - 2015/4/23

N2 - The focus of this work is on fatigue estimation and data-based controller design for wind turbines. The main purpose is to include a model of the fatigue damage of the wind turbine components in the controller design and synthesis process. This study addresses an online fatigue estimation method based on hysteresis operators, which can be used in control loops. The authors propose a data-based model predictive control (MPC) strategy that incorporates an online fatigue estimation method through the objective function, where the ultimate goal in mind is to reduce the fatigue damage of the wind turbine components. The outcome is an adaptive or self-tuning MPC strategy for wind turbine fatigue damage reduction, which relies on parameter identification on previous measurement data. The results of the proposed strategy are compared with a baseline model predictive controller.

AB - The focus of this work is on fatigue estimation and data-based controller design for wind turbines. The main purpose is to include a model of the fatigue damage of the wind turbine components in the controller design and synthesis process. This study addresses an online fatigue estimation method based on hysteresis operators, which can be used in control loops. The authors propose a data-based model predictive control (MPC) strategy that incorporates an online fatigue estimation method through the objective function, where the ultimate goal in mind is to reduce the fatigue damage of the wind turbine components. The outcome is an adaptive or self-tuning MPC strategy for wind turbine fatigue damage reduction, which relies on parameter identification on previous measurement data. The results of the proposed strategy are compared with a baseline model predictive controller.

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DO - 10.1049/iet-cta.2014.0730

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JO - IET Control Theory & Applications

JF - IET Control Theory & Applications

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Fatigue Damage Estimation and Data-based Control for Wind Turbines

Abstract

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AUB Link

Fingeraftryk

Projekter

EDGE: EDGE (Efficient Distribution of Green Energy)

Citationsformater