Towards Universal Non-Dimensional Characterization of the Oscillatory Dynamics of Wind Turbine Rotors of Multiple Sizes

Yates, North; Ponta, Fernando; Farrell, Alayna

doi:10.3390/dynamics5020012

Towards Universal Non-Dimensional Characterization of the Oscillatory Dynamics of Wind Turbine Rotors of Multiple Sizes

Journal Article · Tue Apr 01 00:00:00 EDT 2025 · Dynamics

DOI:https://doi.org/10.3390/dynamics5020012· OSTI ID:2544408

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One concern in the field of Horizontal Axis Wind Turbines (HAWTs) is what control strategies are needed to handle gust pulses in the wind to prevent extreme oscillations of the blades to reduce fatigue stress, prevent blade rupture, and extend the turbine’s operational life. In order to design innovative control strategies to modify the blade’s oscillatory response, it is crucial to establish the fundamental vibrational behavior of the blades when excited by gust pulses of different frequencies and amplitudes present in the fluctuating wind inflow. In a series of previous works, the authors presented a novel Reduced-Order Characterization (ROC) technique that provided an energy-based characterization of the fundamental modes of oscillation of wind turbine rotors when excited by combinations of wind gust pulses of different frequencies and amplitudes. The main focus of the present work is to extend these original notions of energy-based ROC to a universal technique expressed in terms of non-dimensional quantities that could be applied to turbines of any size, operating in any set of wind conditions, as long as they share geometrical and material similarity. The ROC technique provides a simple formula that is capable of predicting the dominant vibrational modes of a blade with sufficient precision to be useful in the determination of a control decision that can be computed in real time, an aspect of fundamental importance in dealing with rapid fluctuations in wind conditions.

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Sponsoring Organization:: USDOE

OSTI ID:: 2544408

Journal Information:: Dynamics, Journal Name: Dynamics Journal Issue: 2 Vol. 5; ISSN 2673-8716; ISSN DYNACW

Publisher:: MDPI AGCopyright Statement

Country of Publication:: Switzerland

Language:: English

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