LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor

Pieter M.O. Gebraad; Jan Willem Van Wingerden; Paul A. Fleming; Alan D. Wright

doi:10.1109/cca.2011.6044488

LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor

Pieter M.O. Gebraad, Jan Willem Van Wingerden, Paul A. Fleming, Alan D. Wright

Delft University of Technology

Research output: Contribution to conference › Paper › peer-review

5 Scopus Citations

Abstract

In this paper we apply a state-of-the-art algorithm for subspace identification of linear parameter-varying (LPV) systems to identify the coupled dynamics of the drive-train and the edgewise bending motion of the rotor blades of three-bladed wind turbines. These dynamics are varying with the rotor speed. The identification algorithm uses a factorization which makes it possible to form predictors based on past inputs, outputs, and the known rotor speed. The predictors contain the LPV equivalent of the Markov parameters. Using the predictors, ideas from Predictor Based Subspace IDentification (PBSID) were developed to estimate the state sequence from which the LPV system matrices can be constructed. The algorithm was applied not only to synthetic data generated by a computer simulation of a reference wind turbine, but also to data measured from the CART3 research wind turbine at the National Wind Technology Center of the National Renewable Energy Laboratory (NREL). This paper demonstrates that the linear time-varying behavior of the aeroelastic dynamics of the wind turbine rotor can be captured in an LPV model identified with measured input-output data.

Original language	American English
Pages	37-42
Number of pages	6
DOIs	https://doi.org/10.1109/cca.2011.6044488 https://doi.org/10.1109/CCA.2011.6044488
State	Published - 2011
Event	2011 20th IEEE International Conference on Control Applications, CCA 2011 - Denver, CO, United States Duration: 28 Sep 2011 → 30 Sep 2011

Conference

Conference	2011 20th IEEE International Conference on Control Applications, CCA 2011
Country/Territory	United States
City	Denver, CO
Period	28/09/11 → 30/09/11

NREL Publication Number

NREL/CP-5000-53551

Keywords

vibrational dynamics
wind turbine rotor

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Gebraad, P. M. O., Van Wingerden, J. W., Fleming, P. A., & Wright, A. D. (2011). LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor. 37-42. Paper presented at 2011 20th IEEE International Conference on Control Applications, CCA 2011, Denver, CO, United States. https://doi.org/10.1109/cca.2011.6044488, https://doi.org/10.1109/CCA.2011.6044488

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title = "LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor",

abstract = "In this paper we apply a state-of-the-art algorithm for subspace identification of linear parameter-varying (LPV) systems to identify the coupled dynamics of the drive-train and the edgewise bending motion of the rotor blades of three-bladed wind turbines. These dynamics are varying with the rotor speed. The identification algorithm uses a factorization which makes it possible to form predictors based on past inputs, outputs, and the known rotor speed. The predictors contain the LPV equivalent of the Markov parameters. Using the predictors, ideas from Predictor Based Subspace IDentification (PBSID) were developed to estimate the state sequence from which the LPV system matrices can be constructed. The algorithm was applied not only to synthetic data generated by a computer simulation of a reference wind turbine, but also to data measured from the CART3 research wind turbine at the National Wind Technology Center of the National Renewable Energy Laboratory (NREL). This paper demonstrates that the linear time-varying behavior of the aeroelastic dynamics of the wind turbine rotor can be captured in an LPV model identified with measured input-output data.",

keywords = "vibrational dynamics, wind turbine rotor",

author = "Gebraad, {Pieter M.O.} and {Van Wingerden}, {Jan Willem} and Fleming, {Paul A.} and Wright, {Alan D.}",

year = "2011",

doi = "10.1109/cca.2011.6044488",

language = "American English",

pages = "37--42",

note = "2011 20th IEEE International Conference on Control Applications, CCA 2011 ; Conference date: 28-09-2011 Through 30-09-2011",

}

Gebraad, PMO, Van Wingerden, JW, Fleming, PA & Wright, AD 2011, 'LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor', Paper presented at 2011 20th IEEE International Conference on Control Applications, CCA 2011, Denver, CO, United States, 28/09/11 - 30/09/11 pp. 37-42. https://doi.org/10.1109/cca.2011.6044488, https://doi.org/10.1109/CCA.2011.6044488

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AU - Fleming, Paul A.

AU - Wright, Alan D.

PY - 2011

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N2 - In this paper we apply a state-of-the-art algorithm for subspace identification of linear parameter-varying (LPV) systems to identify the coupled dynamics of the drive-train and the edgewise bending motion of the rotor blades of three-bladed wind turbines. These dynamics are varying with the rotor speed. The identification algorithm uses a factorization which makes it possible to form predictors based on past inputs, outputs, and the known rotor speed. The predictors contain the LPV equivalent of the Markov parameters. Using the predictors, ideas from Predictor Based Subspace IDentification (PBSID) were developed to estimate the state sequence from which the LPV system matrices can be constructed. The algorithm was applied not only to synthetic data generated by a computer simulation of a reference wind turbine, but also to data measured from the CART3 research wind turbine at the National Wind Technology Center of the National Renewable Energy Laboratory (NREL). This paper demonstrates that the linear time-varying behavior of the aeroelastic dynamics of the wind turbine rotor can be captured in an LPV model identified with measured input-output data.

AB - In this paper we apply a state-of-the-art algorithm for subspace identification of linear parameter-varying (LPV) systems to identify the coupled dynamics of the drive-train and the edgewise bending motion of the rotor blades of three-bladed wind turbines. These dynamics are varying with the rotor speed. The identification algorithm uses a factorization which makes it possible to form predictors based on past inputs, outputs, and the known rotor speed. The predictors contain the LPV equivalent of the Markov parameters. Using the predictors, ideas from Predictor Based Subspace IDentification (PBSID) were developed to estimate the state sequence from which the LPV system matrices can be constructed. The algorithm was applied not only to synthetic data generated by a computer simulation of a reference wind turbine, but also to data measured from the CART3 research wind turbine at the National Wind Technology Center of the National Renewable Energy Laboratory (NREL). This paper demonstrates that the linear time-varying behavior of the aeroelastic dynamics of the wind turbine rotor can be captured in an LPV model identified with measured input-output data.

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LPV Subspace Identification of the Edgewise Vibrational Dynamics of a Wind Turbine Rotor

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