Luca Bernini scite author profile

This study illustrates the aerodynamic and mechatronic design of a 1/75 scaled model of the DTU 10 MW wind turbine to perform wind tunnel tests in floating offshore configuration. Due to the strong discrepancy of the Reynolds number between full and model scale (up to 150), a dedicated low-Reynolds airfoil (SD7032) was chosen for the aerodynamic design of the blades, and the final shape was defined based on a dedicated optimisation algorithm which had as target the matching of the scaled thrust force and the first flap-wise bending frequency, as it is thoroughly explained in the study. Furthermore, the mechatronic design is reported in terms of the design choices adopted to get the best target-oriented functionalities to the model (i.e. individual pitch control, bandwidth) and to reduce as much as possible the weights, greatly affecting the aero-elastic scaling. The results gathered during experimental campaigns at Politecnico di Milano wind tunnel, are reported confirming the validity of the design and manufacturing choices.

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Luca Bernini

Aerodynamic design methodology for wind tunnel tests of wind turbine rotors

Wind tunnel validation of AeroDyn within LIFES50+ project: imposed Surge and Pitch tests

Wind Tunnel Wake Measurements of Floating Offshore Wind Turbines

UNAFLOW project: UNsteady Aerodynamics of FLOating Wind turbines

Scale model technology for floating offshore wind turbines

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