Robust lidar-based closed-loop wake redirection for wind farm control

Steffen Raach; Sjoerd Boersma; Jan Willem van Wingerden; David Schlipf; Po Wen Cheng

doi:10.1016/j.ifacol.2017.08.380

Robust lidar-based closed-loop wake redirection for wind farm control

Steffen Raach, Sjoerd Boersma, Jan Willem van Wingerden, David Schlipf, Po Wen Cheng

Team Jan-Willem van Wingerden

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

7 Citations (Scopus)

140 Downloads (Pure)

Abstract

Wind turbine wake redirection is a promising concept for wind farm control to increase the total power of a wind farm. Further, the concept aims to avoid partial wake overlap on a downwind wind turbine and hence aims to decrease structural loads. Controller for wake redirection need to account for model uncertainties due to the complexity of wake dynamics. Therefore, this work focuses first on modeling a wind farm using an uncertain plant description and second on the design of a robust H_∞ controller for closed-loop wake redirection by applying standard robust modeling and control techniques on a wind farm. The wake center position is estimated and fed back to a controller which uses the yaw actuator to redirect the wake. For several inflow conditions, step simulations are conducted and system identifications are performed to obtain multiple plant models. This set of models is used to derive a nominal plant and an uncertainty set. Both the nominal model and the uncertainty set define the uncertain plant model. The robust controller is then designed showing promising results in a medium-fidelity CFD simulation model with time-varying inflow conditions.

Original language	English
Title of host publication	IFAC-PapersOnLine
Subtitle of host publication	Proceedings 20th IFAC World Congress
Editors	Denis Dochain, Didier Henrion, Dimitri Peaucelle
Place of Publication	Laxenburg, Austria
Publisher	Elsevier
Pages	4498-4503
Volume	50-1
DOIs	https://doi.org/10.1016/j.ifacol.2017.08.380
Publication status	Published - 2017
Event	20th World Congress of the International Federation of Automatic Control (IFAC), 2017 - Toulouse, France Duration: 9 Jul 2017 → 14 Jul 2017 Conference number: 20 https://www.ifac2017.org

Publication series

Name	IFAC-PapersOnLine
Publisher	IFAC-Elsevier
Number	1
Volume	50
ISSN (Electronic)	2405-8963

Conference

Conference	20th World Congress of the International Federation of Automatic Control (IFAC), 2017
Abbreviated title	IFAC 2017
Country/Territory	France
City	Toulouse
Period	9/07/17 → 14/07/17
Internet address	https://www.ifac2017.org

Keywords

Control of renewable energy
lidar-based control
robust control
wake redirection
wind energy
wind farm control

UN SDGs

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

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10.1016/j.ifacol.2017.08.380

1-s2.0-S2405896317307243-mainFinal published version, 1.66 MB

Cite this

Raach, S., Boersma, S., Wingerden, J. W. V., Schlipf, D., & Cheng, P. W. (2017). Robust lidar-based closed-loop wake redirection for wind farm control. In D. Dochain, D. Henrion, & D. Peaucelle (Eds.), IFAC-PapersOnLine: Proceedings 20th IFAC World Congress (Vol. 50-1, pp. 4498-4503). (IFAC-PapersOnLine; Vol. 50, No. 1). Elsevier. https://doi.org/10.1016/j.ifacol.2017.08.380

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title = "Robust lidar-based closed-loop wake redirection for wind farm control",

abstract = "Wind turbine wake redirection is a promising concept for wind farm control to increase the total power of a wind farm. Further, the concept aims to avoid partial wake overlap on a downwind wind turbine and hence aims to decrease structural loads. Controller for wake redirection need to account for model uncertainties due to the complexity of wake dynamics. Therefore, this work focuses first on modeling a wind farm using an uncertain plant description and second on the design of a robust H∞ controller for closed-loop wake redirection by applying standard robust modeling and control techniques on a wind farm. The wake center position is estimated and fed back to a controller which uses the yaw actuator to redirect the wake. For several inflow conditions, step simulations are conducted and system identifications are performed to obtain multiple plant models. This set of models is used to derive a nominal plant and an uncertainty set. Both the nominal model and the uncertainty set define the uncertain plant model. The robust controller is then designed showing promising results in a medium-fidelity CFD simulation model with time-varying inflow conditions.",

keywords = "Control of renewable energy, lidar-based control, robust control, wake redirection, wind energy, wind farm control",

author = "Steffen Raach and Sjoerd Boersma and Wingerden, {Jan Willem van} and David Schlipf and Cheng, {Po Wen}",

year = "2017",

doi = "10.1016/j.ifacol.2017.08.380",

language = "English",

volume = "50-1",

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editor = "Denis Dochain and Didier Henrion and Dimitri Peaucelle",

booktitle = "IFAC-PapersOnLine",

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Raach, S, Boersma, S, Wingerden, JWV, Schlipf, D & Cheng, PW 2017, Robust lidar-based closed-loop wake redirection for wind farm control. in D Dochain, D Henrion & D Peaucelle (eds), IFAC-PapersOnLine: Proceedings 20th IFAC World Congress. vol. 50-1, IFAC-PapersOnLine, no. 1, vol. 50, Elsevier, Laxenburg, Austria, pp. 4498-4503, 20th World Congress of the International Federation of Automatic Control (IFAC), 2017, Toulouse, France, 9/07/17. https://doi.org/10.1016/j.ifacol.2017.08.380

Robust lidar-based closed-loop wake redirection for wind farm control. / Raach, Steffen; Boersma, Sjoerd; Wingerden, Jan Willem van et al.
IFAC-PapersOnLine: Proceedings 20th IFAC World Congress. ed. / Denis Dochain; Didier Henrion; Dimitri Peaucelle. Vol. 50-1 Laxenburg, Austria: Elsevier, 2017. p. 4498-4503 (IFAC-PapersOnLine; Vol. 50, No. 1).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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T1 - Robust lidar-based closed-loop wake redirection for wind farm control

AU - Raach, Steffen

AU - Boersma, Sjoerd

AU - Wingerden, Jan Willem van

AU - Schlipf, David

AU - Cheng, Po Wen

N1 - Conference code: 20

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N2 - Wind turbine wake redirection is a promising concept for wind farm control to increase the total power of a wind farm. Further, the concept aims to avoid partial wake overlap on a downwind wind turbine and hence aims to decrease structural loads. Controller for wake redirection need to account for model uncertainties due to the complexity of wake dynamics. Therefore, this work focuses first on modeling a wind farm using an uncertain plant description and second on the design of a robust H∞ controller for closed-loop wake redirection by applying standard robust modeling and control techniques on a wind farm. The wake center position is estimated and fed back to a controller which uses the yaw actuator to redirect the wake. For several inflow conditions, step simulations are conducted and system identifications are performed to obtain multiple plant models. This set of models is used to derive a nominal plant and an uncertainty set. Both the nominal model and the uncertainty set define the uncertain plant model. The robust controller is then designed showing promising results in a medium-fidelity CFD simulation model with time-varying inflow conditions.

AB - Wind turbine wake redirection is a promising concept for wind farm control to increase the total power of a wind farm. Further, the concept aims to avoid partial wake overlap on a downwind wind turbine and hence aims to decrease structural loads. Controller for wake redirection need to account for model uncertainties due to the complexity of wake dynamics. Therefore, this work focuses first on modeling a wind farm using an uncertain plant description and second on the design of a robust H∞ controller for closed-loop wake redirection by applying standard robust modeling and control techniques on a wind farm. The wake center position is estimated and fed back to a controller which uses the yaw actuator to redirect the wake. For several inflow conditions, step simulations are conducted and system identifications are performed to obtain multiple plant models. This set of models is used to derive a nominal plant and an uncertainty set. Both the nominal model and the uncertainty set define the uncertain plant model. The robust controller is then designed showing promising results in a medium-fidelity CFD simulation model with time-varying inflow conditions.

KW - Control of renewable energy

KW - lidar-based control

KW - robust control

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KW - wind farm control

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VL - 50-1

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SP - 4498

EP - 4503

BT - IFAC-PapersOnLine

A2 - Dochain, Denis

A2 - Henrion, Didier

A2 - Peaucelle, Dimitri

PB - Elsevier

CY - Laxenburg, Austria

T2 - 20th World Congress of the International Federation of Automatic Control (IFAC), 2017

Y2 - 9 July 2017 through 14 July 2017

ER -

Robust lidar-based closed-loop wake redirection for wind farm control

Abstract

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Keywords

UN SDGs

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