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Seismic responses and vibration control of offshore wind turbines considering hydrodynamic effects based on underwater shaking table tests

Rui He, Lijun Pan

2023Earthquake Engineering & Structural Dynamics28 citationsDOI

Abstract

Abstract The recent construction of numerous offshore wind turbines (OWTs) in seismically active areas worldwide has stimulated research on seismic evaluation and vibration control design for OWTs. Unlike the onshore counterparts, the hydrodynamic effects on the seismic responses of OWTs need to be studied. Besides, the equipment in the nacelle of an OWT is highly sensitive to acceleration. Significant dynamic amplification on the nacelle under horizontal earthquake excitation can cause the malfunction of power generation and even seriously threaten the safety of OWTs. As a promising solution, tuned mass dampers (TMDs) based on the first mode of OWTs need to be tested by various earthquake excitations. In this paper, the seismic amplification effect, the hydrodynamic effects, and the vibration control by a single TMD are investigated through a series of underwater shaking table tests based on a 1:20 scaled model of a 5 MW OWT. The “no water”, “with water”, and “with water and TMD” tests are evaluated and compared. The accelerations of OWTs can be amplified or reduced by the hydrodynamic effects, depending on the natural frequencies and vibration modes of the OWT and the frequency spectrum of the seismic excitation. The earthquake‐induced hydrodynamic damping ratio and hydrodynamic added mass are carefully measured. For the TMD's effect, the single TMD performs reasonably well in seismic vibration control in most cases. Finally, the interaction between hydrodynamic effects and TMD's effect is discussed, and the hydrodynamic damping effect is suggested to be ignored when designing TMDs for OWTs.

Topics & Concepts

Earthquake shaking tableVibrationTuned mass damperStructural engineeringNacelleSubmarine pipelineOffshore wind powerEngineeringVibration controlAccelerationUnderwaterMarine engineeringTurbineGeologySeismologyDamperGeotechnical engineeringAcousticsPhysicsAerospace engineeringOceanographyClassical mechanicsFluid Dynamics and Vibration AnalysisWave and Wind Energy SystemsSeismic Performance and Analysis
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