The Effect of a Flexible Blade for Load Alleviation in Wind Turbines
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Duran Castillo, Azael; Jauregui-Correa, Juan C.; Herbert, Francisco; Castillo-Villar, Krystel K.; Franco, Jesus Alejandro; [et al.]Date
2021-08-13Abstract
This article presents the analysis of the performance of a flexible wind turbine blade. The simulation analysis is based on a 3 m span blade prototype. The blade has a flexible surface and a cam mechanism that modifies the aerodynamic profile and adapts the surface to different configurations. The blade surface was built with a flexible fiberglass composite, and the internal mechanism consists of a flexible structure actuated with an eccentric cam. The cam mechanism deforms five sections of the blade, and the airfoil geometry for each section was measured from zero cam displacement to full cam displacement. The measured data were interpolated to obtain the aerodynamic profiles of the five sections to model the flexible blade in the simulation process. The simulation analysis consisted of determining the different aerodynamic coefficients for different deformed surfaces and a range of wind speeds. The aerodynamic coefficients were calculated with the BEM method (QBlade®); as a result, t...
Palabra/s clave
wind energy
deformable profile
efficiency
wind turbine
renewable energy