Data-driven repetitive control: Wind tunnel experiments under turbulent conditions

Joeri Frederik; Lars Kröger; Gerd Gülker; Jan Willem van Wingerden

doi:10.1016/j.conengprac.2018.08.011

Data-driven repetitive control: Wind tunnel experiments under turbulent conditions

Joeri Frederik^*, Lars Kröger, Gerd Gülker, Jan Willem van Wingerden

^*Corresponding author for this work

Team Jan-Willem van Wingerden

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

22 Citations (Scopus)

55 Downloads (Pure)

Abstract

A commonly applied method to reduce the cost of wind energy, is alleviating the periodic loads on turbine blades using Individual Pitch Control (IPC). In this paper, a data-driven IPC methodology called Subspace Predictive Repetitive Control (SPRC) is employed. The effectiveness of SPRC will be demonstrated on a scaled 2-bladed wind turbine. An open-jet wind tunnel with an innovative active grid is employed to generate reproducible turbulent wind conditions. A significant load reduction with limited actuator duty is achieved even under these high turbulent conditions. Furthermore, it will be demonstrated that SPRC is able to adapt to changing operating conditions.

Original language	English
Pages (from-to)	105-115
Journal	Control Engineering Practice
Volume	80
DOIs	https://doi.org/10.1016/j.conengprac.2018.08.011
Publication status	Published - 2018

Bibliographical note

Accepted Author Manuscript

Keywords

Active grid
Data-driven control
Individual pitch control
Load alleviation
Repetitive control
Subspace identification
Wind energy
Wind tunnel experiments

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10.1016/j.conengprac.2018.08.011

CEP_DRC_Frederik2Accepted author manuscript, 1.94 MBLicence: CC BY-NC-ND

Cite this

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title = "Data-driven repetitive control: Wind tunnel experiments under turbulent conditions",

abstract = "A commonly applied method to reduce the cost of wind energy, is alleviating the periodic loads on turbine blades using Individual Pitch Control (IPC). In this paper, a data-driven IPC methodology called Subspace Predictive Repetitive Control (SPRC) is employed. The effectiveness of SPRC will be demonstrated on a scaled 2-bladed wind turbine. An open-jet wind tunnel with an innovative active grid is employed to generate reproducible turbulent wind conditions. A significant load reduction with limited actuator duty is achieved even under these high turbulent conditions. Furthermore, it will be demonstrated that SPRC is able to adapt to changing operating conditions.",

keywords = "Active grid, Data-driven control, Individual pitch control, Load alleviation, Repetitive control, Subspace identification, Wind energy, Wind tunnel experiments",

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note = "Accepted Author Manuscript",

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journal = "Control Engineering Practice",

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T2 - Wind tunnel experiments under turbulent conditions

AU - Frederik, Joeri

AU - Kröger, Lars

AU - Gülker, Gerd

AU - van Wingerden, Jan Willem

N1 - Accepted Author Manuscript

PY - 2018

Y1 - 2018

N2 - A commonly applied method to reduce the cost of wind energy, is alleviating the periodic loads on turbine blades using Individual Pitch Control (IPC). In this paper, a data-driven IPC methodology called Subspace Predictive Repetitive Control (SPRC) is employed. The effectiveness of SPRC will be demonstrated on a scaled 2-bladed wind turbine. An open-jet wind tunnel with an innovative active grid is employed to generate reproducible turbulent wind conditions. A significant load reduction with limited actuator duty is achieved even under these high turbulent conditions. Furthermore, it will be demonstrated that SPRC is able to adapt to changing operating conditions.

AB - A commonly applied method to reduce the cost of wind energy, is alleviating the periodic loads on turbine blades using Individual Pitch Control (IPC). In this paper, a data-driven IPC methodology called Subspace Predictive Repetitive Control (SPRC) is employed. The effectiveness of SPRC will be demonstrated on a scaled 2-bladed wind turbine. An open-jet wind tunnel with an innovative active grid is employed to generate reproducible turbulent wind conditions. A significant load reduction with limited actuator duty is achieved even under these high turbulent conditions. Furthermore, it will be demonstrated that SPRC is able to adapt to changing operating conditions.

KW - Active grid

KW - Data-driven control

KW - Individual pitch control

KW - Load alleviation

KW - Repetitive control

KW - Subspace identification

KW - Wind energy

KW - Wind tunnel experiments

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DO - 10.1016/j.conengprac.2018.08.011

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VL - 80

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JO - Control Engineering Practice

JF - Control Engineering Practice

ER -

Data-driven repetitive control: Wind tunnel experiments under turbulent conditions

Abstract

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Keywords

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