Experimental tests performed in a wind tunnel or in a natural laboratory represent a fundamental research tool to develop floating wind technologies. In order to obtain reliable results, the wind turbine scale model rotor must be designed so to obtain a fluid-structure interaction comparable to the one experienced by a real machine. This implies an aerodynamic design of the 3D blade geometry but, also, a structural project to match the main aeroelastic issues. For natural laboratory models, due to not controlled test conditions, the wind turbine rotor model must be checked also for extreme winds. The present paper will focus on all the strategies adopted to scale a wind turbine blade presenting two studied cases: the first is a 1:75 scale m...
Wind turbines are operating under very complex and uncontrolled environmental conditions, including ...
This work focuses on the design of wind turbine rotors of wind tunnel size that match the aerodynami...
Two scaling methodologies are presented to address the dissimilitude normally experienced when attem...
Experimental tests performed in a wind tunnel or in a natural laboratory represent a fundamental res...
This paper illustrates the methodology and the experimental verification of the design of a 1/75 aer...
This study illustrates the aerodynamic and mechatronic design of a 1/75 scaled model of the DTU 10 M...
A small-scale wind turbine model was designed and manufactured to study its aerodynamic thrust force...
Within wind energy research there is a drive towards the development of a “smart rotor”; a rotor of ...
An aeroelastically scaled model of a wind turbine is described, featuring active individual blade pi...
Wind tunnel testing of small-scale models is one of the most useful techniques to predict the perfor...
The use of wind turbines offers a pollution-free, sustainable, and economically workable alternative...
In a combined approach of extensive measurement and accompanying simulation a wind turbine blade use...
The focus of this paper is the development of validated structural models of wind turbine structures...
Wind turbines are operating under very complex and uncontrolled environmental conditions, including ...
This work focuses on the design of wind turbine rotors of wind tunnel size that match the aerodynami...
Two scaling methodologies are presented to address the dissimilitude normally experienced when attem...
Experimental tests performed in a wind tunnel or in a natural laboratory represent a fundamental res...
This paper illustrates the methodology and the experimental verification of the design of a 1/75 aer...
This study illustrates the aerodynamic and mechatronic design of a 1/75 scaled model of the DTU 10 M...
A small-scale wind turbine model was designed and manufactured to study its aerodynamic thrust force...
Within wind energy research there is a drive towards the development of a “smart rotor”; a rotor of ...
An aeroelastically scaled model of a wind turbine is described, featuring active individual blade pi...
Wind tunnel testing of small-scale models is one of the most useful techniques to predict the perfor...
The use of wind turbines offers a pollution-free, sustainable, and economically workable alternative...
In a combined approach of extensive measurement and accompanying simulation a wind turbine blade use...
The focus of this paper is the development of validated structural models of wind turbine structures...
Wind turbines are operating under very complex and uncontrolled environmental conditions, including ...
This work focuses on the design of wind turbine rotors of wind tunnel size that match the aerodynami...
Two scaling methodologies are presented to address the dissimilitude normally experienced when attem...