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Experimental And Computational Damping Estimation Of An Offshore Wind Turbine On A Monopile Foundation

R. Shirzadeh, C. Devriendt, M. A. Bidakhvidi, P. Guillaume
Published 2013 · Engineering

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Abstract In this study, Operational Modal Analysis (OMA) is used to identify the damping value of the fundamental for-aft (FA) mode of an Offshore Wind Turbine (OWT) using both real life measurements and simulations. Estimations of the total damping of an offshore wind turbine (taking into account the effects of the aerodynamic, hydrodynamic and soil loads) give a quantitative view of the stability characteristics of the wind turbine. Two different test cases including an overspeed stop and ambient excitation have been considered. The experimental data has been obtained during a measurement campaign on an offshore wind turbine in the Belgian North Sea and the results are compared with the numerical simulations which have been carried out in HAWC2.
This paper references
Engineering Applications of Correlation and Spectral Analysis
J. Bendat (1980)
Damping measurements using operational data
G. James (1991)
Guidelines for design of wind turbines
J. Schaarup (2001)
Frequency-Domain System Identification Techniques for Experimental and Operational Modal Analysis
P. Guillaume (2003)
The PolyMAX frequency-domain method: a new standard for modal parameter estimation?
B. Peeters (2004)
Influence of wave modelling on the prediction of fatigue for offshore wind turbines
H. Veldkamp (2005)
Investigation of stability effects of an offshore wind turbine using the new aeroelastic code HAWC2
T. Larsen (2005)
Design of support structures for offshore wind turbines
J. Tempel (2006)
Memorandum Derivation and Description of the Soil-Pile-Interaction Models
P. Passon (2006)
Two methods for estimating aeroelastic damping of operational wind turbine modes from experiments
M. Hansen (2006)
Damping Estimation Using Free Decays and Ambient Vibration Tests
F. Magalh̃aes (2007)
Comparing Sources of Damping of Cross-Wind Motion
N. J. Tarp-Johansen (2009)
Definition of a 5-MW Reference Wind Turbine for Offshore System Development
J. Jonkman (2009)
Operational Modal Analysis of Operating Wind Turbines: Application to Measured Data
S. Chauhan (2011)
Applicability Limits of Operational Modal Analysis to Operational Wind Turbines
D. Tcherniak (2011)
Damping estimation of an offshore wind turbine on a monopile foundation
C. Devriendt (2013)
Cross-wind modal properties of offshore wind turbines identified by full scale testing
Mads Damgaard (2013)

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