Experimental validation of the aero-servo design of a large-scale floating offshore wind turbine model

Taruffi, Federico; Carlo, Simone Di; Muggiasca, Sara; Belloli, Marco

doi:10.1088/1742-6596/2265/4/042008

J. Phys.: Conf. Ser.

2022

DOI: 10.1088/1742-6596/2265/4/042008

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Experimental validation of the aero-servo design of a large-scale floating offshore wind turbine model

Federico Taruffi

Simone Di Carlo

Sara Muggiasca

et al.

Abstract: Offshore floating wind turbines are such complex systems from the point of view of global dynamics that numerical models are often insufficient in describing completely and correctly their behavior. In this framework large scale models deployed in a natural outdoor environment are a valid complement in understanding the real features of the system and in updating or validating codes. In the case of wind turbines adopting a large scale allows to better reproduce the aerodynamic behavior of the rotor. Objective … Show more

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2023

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A large-scale wind turbine model installed on a floating structure: experimental validation of the numerical design

Taruffi

Carlo²,

Muggiasca³

et al. 2023

Wind Energ. Sci.

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Abstract. In the field of floating wind energy, large-scale wind turbine models deployed in natural environments represent a key link between small-scale laboratory tests and full-scale prototypes. While implying smaller cost, design and installation effort than a full-scale prototype, large-scale models are technologically very similar to prototypes, can be tested in natural sea and wind conditions, and reduce by a consistent amount the dimensional scaling issues arising in small-scale experiments. In this framework the presented work report the aerodynamic and control system assessment of a 1:15 model of the DTU 10 MW wind turbine installed on a multipurpose-platform model for fish farming and energy production. The model has operated for 6 months in a natural laboratory and has been exposed to fully natural and uncontrolled environmental conditions. Assessment is performed in terms of rotor thrust force and power controller parameters such as rotor speed, blade pitch and rotor power as a function of incoming wind speed.

show abstract

A large-scale wind turbine model installed on a floating structure: experimental validation of the numerical design

Taruffi

Carlo²,

Muggiasca³

et al. 2023

Wind Energ. Sci.

Self Cite

View full text Add to dashboard Cite

show abstract

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Experimental validation of the aero-servo design of a large-scale floating offshore wind turbine model

Cited by 1 publication

References 5 publications

A large-scale wind turbine model installed on a floating structure: experimental validation of the numerical design

A large-scale wind turbine model installed on a floating structure: experimental validation of the numerical design

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