Bioengineering models for wind turbines blades

Starting from the directing and fluid concentration effect in a cylindrical enclosure, it was developed, at laboratory scale, an integrated installation to be use in coastal areas which use 3 natural resources for the production of electricity within the same system. Initially, the wind turbine, which is an integral part of this system, was provided with trapezoidal blades. In order to obtain higher power, other types of blades have been studied and proposed, whose geometry is inspired by nature. As a result of the tests carried out at the pilot station, it was demonstrated that if bioengineering models are used, the rotation speed of the blades increases by approx. 37% compared to trapezoidal ones.Starting from the directing and fluid concentration effect in a cylindrical enclosure, it was developed, at laboratory scale, an integrated installation to be use in coastal areas which use 3 natural resources for the production of electricity within the same system. Initially, the wind turbine, which is an integral part of this system, was provided with trapezoidal blades. In order to obtain higher power, other types of blades have been studied and proposed, whose geometry is inspired by nature. As a result of the tests carried out at the pilot station, it was demonstrated that if bioengineering models are used, the rotation speed of the blades increases by approx. 37% compared to trapezoidal ones.