In-situ experimental modal analysis of a direct-drive wind turbine generator

M. Kirschneck; D. J. Rixen; Henk Polinder; Ron van Ostayen

doi:10.1007/978-3-319-15236-3_15

In-situ experimental modal analysis of a direct-drive wind turbine generator

M. Kirschneck, D. J. Rixen, Henk Polinder, Ron van Ostayen

Lehrstuhl für Angewandte Mechanik

Delft University of Technology

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

1 Zitat (Scopus)

Abstract

The purpose of the support structure of wind turbine generators is to ensure a constant air gap length throughout the circumference of the generator. It is supposed to be light weight and at the same time stiff enough to minimize deformation of the rotor outer surface caused by electro-magnetic forces in the air gap. Reducing weight without compromising the stability and stiffness of the generator requires an in-depth analysis of the dynamic behaviour. In a previous study a model and a calculation method for estimating this behaviour was developed. For validation of this model an in-situ modal testing of a large off-shore wind turbine generator is necessary. The challenges encountered during in-situ dynamic measurements of such a generator are the coupling with the rest of the turbine, the limited accessibility of the structure within the nacelle as well as the large mass of the structure. Various excitation methods were used for the measurements including hammering tests as well as output only measurements during operation and idling of the turbine. This paper presents the challenges encounter during the measurement campaign as well as the results of these measurements.

Originalsprache	Englisch
Titel	MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics
Redakteure/-innen	LaVern Starman, Barton C. Prorok, Jennifer Hay, Gordon Shaw
Herausgeber (Verlag)	Springer New York LLC
Seiten	157-165
Seitenumfang	9
ISBN (Print)	9783319070032
DOIs	https://doi.org/10.1007/978-3-319-15236-3_15
Publikationsstatus	Veröffentlicht - 2015
Veranstaltung	Annual Conference on Experimental and Applied Mechanics, 2014 - Greenville, USA/Vereinigte Staaten Dauer: 2 Juni 2014 → 5 Juni 2014

Publikationsreihe

Name	Conference Proceedings of the Society for Experimental Mechanics Series
Band	8
ISSN (Print)	2191-5644
ISSN (elektronisch)	2191-5652

Konferenz

Konferenz	Annual Conference on Experimental and Applied Mechanics, 2014
Land/Gebiet	USA/Vereinigte Staaten
Ort	Greenville
Zeitraum	2/06/14 → 5/06/14

Zugriff auf Dokument

10.1007/978-3-319-15236-3_15

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Verknüpfung zur Publikation in Scopus

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Kirschneck, M., Rixen, D. J., Polinder, H., & van Ostayen, R. (2015). In-situ experimental modal analysis of a direct-drive wind turbine generator. in L. Starman, B. C. Prorok, J. Hay, & G. Shaw (Hrsg.), MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics (S. 157-165). Artikel A15 (Conference Proceedings of the Society for Experimental Mechanics Series; Band 8). Springer New York LLC. https://doi.org/10.1007/978-3-319-15236-3_15

Kirschneck, M. ; Rixen, D. J. ; Polinder, Henk et al. / In-situ experimental modal analysis of a direct-drive wind turbine generator. MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics. Hrsg. / LaVern Starman ; Barton C. Prorok ; Jennifer Hay ; Gordon Shaw. Springer New York LLC, 2015. S. 157-165 (Conference Proceedings of the Society for Experimental Mechanics Series).

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title = "In-situ experimental modal analysis of a direct-drive wind turbine generator",

abstract = "The purpose of the support structure of wind turbine generators is to ensure a constant air gap length throughout the circumference of the generator. It is supposed to be light weight and at the same time stiff enough to minimize deformation of the rotor outer surface caused by electro-magnetic forces in the air gap. Reducing weight without compromising the stability and stiffness of the generator requires an in-depth analysis of the dynamic behaviour. In a previous study a model and a calculation method for estimating this behaviour was developed. For validation of this model an in-situ modal testing of a large off-shore wind turbine generator is necessary. The challenges encountered during in-situ dynamic measurements of such a generator are the coupling with the rest of the turbine, the limited accessibility of the structure within the nacelle as well as the large mass of the structure. Various excitation methods were used for the measurements including hammering tests as well as output only measurements during operation and idling of the turbine. This paper presents the challenges encounter during the measurement campaign as well as the results of these measurements.",

keywords = "Direct-drive wind turbine, Operational modal analysis, Order-based modal analysis",

author = "M. Kirschneck and Rixen, {D. J.} and Henk Polinder and {van Ostayen}, Ron",

note = "Publisher Copyright: {\textcopyright} The Society for Experimental Mechanics, Inc. 2015.; Annual Conference on Experimental and Applied Mechanics, 2014 ; Conference date: 02-06-2014 Through 05-06-2014",

year = "2015",

doi = "10.1007/978-3-319-15236-3_15",

language = "English",

isbn = "9783319070032",

series = "Conference Proceedings of the Society for Experimental Mechanics Series",

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Kirschneck, M, Rixen, DJ, Polinder, H & van Ostayen, R 2015, In-situ experimental modal analysis of a direct-drive wind turbine generator. in L Starman, BC Prorok, J Hay & G Shaw (Hrsg.), MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics., A15, Conference Proceedings of the Society for Experimental Mechanics Series, Bd. 8, Springer New York LLC, S. 157-165, Annual Conference on Experimental and Applied Mechanics, 2014, Greenville, USA/Vereinigte Staaten, 2/06/14. https://doi.org/10.1007/978-3-319-15236-3_15

In-situ experimental modal analysis of a direct-drive wind turbine generator. / Kirschneck, M.; Rixen, D. J.; Polinder, Henk et al.
MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics. Hrsg. / LaVern Starman; Barton C. Prorok; Jennifer Hay; Gordon Shaw. Springer New York LLC, 2015. S. 157-165 A15 (Conference Proceedings of the Society for Experimental Mechanics Series; Band 8).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

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T1 - In-situ experimental modal analysis of a direct-drive wind turbine generator

AU - Kirschneck, M.

AU - Rixen, D. J.

AU - Polinder, Henk

AU - van Ostayen, Ron

N1 - Publisher Copyright: © The Society for Experimental Mechanics, Inc. 2015.

PY - 2015

Y1 - 2015

N2 - The purpose of the support structure of wind turbine generators is to ensure a constant air gap length throughout the circumference of the generator. It is supposed to be light weight and at the same time stiff enough to minimize deformation of the rotor outer surface caused by electro-magnetic forces in the air gap. Reducing weight without compromising the stability and stiffness of the generator requires an in-depth analysis of the dynamic behaviour. In a previous study a model and a calculation method for estimating this behaviour was developed. For validation of this model an in-situ modal testing of a large off-shore wind turbine generator is necessary. The challenges encountered during in-situ dynamic measurements of such a generator are the coupling with the rest of the turbine, the limited accessibility of the structure within the nacelle as well as the large mass of the structure. Various excitation methods were used for the measurements including hammering tests as well as output only measurements during operation and idling of the turbine. This paper presents the challenges encounter during the measurement campaign as well as the results of these measurements.

AB - The purpose of the support structure of wind turbine generators is to ensure a constant air gap length throughout the circumference of the generator. It is supposed to be light weight and at the same time stiff enough to minimize deformation of the rotor outer surface caused by electro-magnetic forces in the air gap. Reducing weight without compromising the stability and stiffness of the generator requires an in-depth analysis of the dynamic behaviour. In a previous study a model and a calculation method for estimating this behaviour was developed. For validation of this model an in-situ modal testing of a large off-shore wind turbine generator is necessary. The challenges encountered during in-situ dynamic measurements of such a generator are the coupling with the rest of the turbine, the limited accessibility of the structure within the nacelle as well as the large mass of the structure. Various excitation methods were used for the measurements including hammering tests as well as output only measurements during operation and idling of the turbine. This paper presents the challenges encounter during the measurement campaign as well as the results of these measurements.

KW - Direct-drive wind turbine

KW - Operational modal analysis

KW - Order-based modal analysis

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U2 - 10.1007/978-3-319-15236-3_15

DO - 10.1007/978-3-319-15236-3_15

M3 - Conference contribution

AN - SCOPUS:84946019377

SN - 9783319070032

T3 - Conference Proceedings of the Society for Experimental Mechanics Series

SP - 157

EP - 165

BT - MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics

A2 - Starman, LaVern

A2 - Prorok, Barton C.

A2 - Hay, Jennifer

A2 - Shaw, Gordon

PB - Springer New York LLC

T2 - Annual Conference on Experimental and Applied Mechanics, 2014

Y2 - 2 June 2014 through 5 June 2014

ER -

Kirschneck M, Rixen DJ, Polinder H, van Ostayen R. In-situ experimental modal analysis of a direct-drive wind turbine generator. in Starman L, Prorok BC, Hay J, Shaw G, Hrsg., MEMS and Nanotechnology - Proceedings of the 2014 Annual Conference on Experimental and Applied Mechanics. Springer New York LLC. 2015. S. 157-165. A15. (Conference Proceedings of the Society for Experimental Mechanics Series). doi: 10.1007/978-3-319-15236-3_15

In-situ experimental modal analysis of a direct-drive wind turbine generator

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