An aeroelastic investigation of horizontal axis wind turbines is described. The study is divided into two simpler areas; (1) the aeroelastic stability of a single blade on a rigid tower; and (2) the mechanical vibrations of the rotor system on a flexible tower. Some resulting instabilities and forced vibration behavior are described
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
This paper presents a detailed analysis of the rotor-tower interaction and the effects of the rotor'...
An experimental and theoretical study of horizontal-axis wind turbines is undertaken. The theoreti...
The stability of large horizontal axis, axi-symmetric, power producing wind turbines was examined. T...
Certain aspects of the aeroelastic modeling and behavior of the horizontal axis wind turbine (HAWT) ...
The second-degree nonlinear equations of motion for a flexible, twisted, nonuniform, horizontal axis...
A summary of the work performed during the progress period is presented. Analysis methods for predic...
The basic whirl stability of a rotating windmill on a flexible tower is reviewed. Effects of unbalan...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
Horizontal axis wind turbine dynamics were studied. The following findings are summarized: (1) revie...
The trend in the current development of modern horizontal axis wind turbines (HAWTs) is towards ligh...
Due to global warming effect humanity is forced to seek cleaner forms of energy. One of these are re...
A literature survey of wind turbine aeroelastic stability is presented. The subject received early i...
This dissertation describes fundamental extensions to the hinge-spring model used to simulate the fi...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predict t...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
This paper presents a detailed analysis of the rotor-tower interaction and the effects of the rotor'...
An experimental and theoretical study of horizontal-axis wind turbines is undertaken. The theoreti...
The stability of large horizontal axis, axi-symmetric, power producing wind turbines was examined. T...
Certain aspects of the aeroelastic modeling and behavior of the horizontal axis wind turbine (HAWT) ...
The second-degree nonlinear equations of motion for a flexible, twisted, nonuniform, horizontal axis...
A summary of the work performed during the progress period is presented. Analysis methods for predic...
The basic whirl stability of a rotating windmill on a flexible tower is reviewed. Effects of unbalan...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
Horizontal axis wind turbine dynamics were studied. The following findings are summarized: (1) revie...
The trend in the current development of modern horizontal axis wind turbines (HAWTs) is towards ligh...
Due to global warming effect humanity is forced to seek cleaner forms of energy. One of these are re...
A literature survey of wind turbine aeroelastic stability is presented. The subject received early i...
This dissertation describes fundamental extensions to the hinge-spring model used to simulate the fi...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predict t...
This paper presents aeroelastic analyses of wind turbines, using the compressible flow Helicopter Mu...
This paper presents a detailed analysis of the rotor-tower interaction and the effects of the rotor'...
An experimental and theoretical study of horizontal-axis wind turbines is undertaken. The theoreti...