Effects of wake on gearbox design load cases identified from fleet-wide operational data

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Samenvatting

Drivetrains play an essential role in guaranteeing the reliability of wind turbines. A challenge in their design is the wide range of loading conditions they are exposed to. Several design load cases are required to be simulated in order to ensure that the ultimate loads are not exceeded, and to validate that the fatigue lifetime matches the design requirements. These loading conditions include among other (emergency) stops, start-ups, and normal and parked operation in different ambient conditions (wind speed, wave height, ...). The design requirements are validated through a combination of functional, robustness and system tests when the turbine is operated in the design load cases. Within the context of Industry 4.0, turbines are becoming increasingly equipped with sensors. This offers opportunities for the in-depth validation of design hypotheses, as it allows to obtain detailed insights in the occurrence of loading events to which turbines are exposed to throughout their lifetime. This can be incorporated in future design iterations to further optimize the design based on more realistic loading conditions. The goal of this paper is to automatically and continuously classify SCADA data of an
offshore farm in the aforementioned design load cases on a farm-wide level. Using this framework, the effects of wake on loading conditions are assessed in a data-driven manner.
Originele taal-2English
Pagina's (van-tot)553-558
Aantal pagina's6
TijdschriftForschung im Ingenieurwesen
Volume85
Nummer van het tijdschrift2
DOI's
StatusPublished - jun 2021

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