The second-degree nonlinear equations of motion for a flexible, twisted, nonuniform, horizontal axis wind turbine blade were developed using Hamilton's principle. A mathematical ordering scheme which was consistent with the assumption of a slender beam was used to discard some higher-order elastic and inertial terms in the second-degree nonlinear equations. The blade aerodynamic loading which was employed accounted for both wind shear and tower shadow and was obtained from strip theory based on a quasi-steady approximation of two-dimensional, incompressible, unsteady, airfoil theory. The resulting equations had periodic coefficients and were suitable for determining the aeroelastic stability and response of large horizontal-axis wind turbin...
Certain aspects of the aeroelastic modeling and behavior of the horizontal axis wind turbine (HAWT) ...
A summary of the work performed during the progress period is presented. Analysis methods for predic...
Analysis results, obtained from numerical simulation, for non-linear and unsteady aeroelastic behavi...
The equations of motion are developed by two complementary methods, Hamilton's principle and the New...
The structural dynamics behavior of the blade of a horizontal axis wind turbine that reacts to the d...
An aeroelastic investigation of horizontal axis wind turbines is described. The study is divided int...
A set of nonlinear equations of equilibrium for an elastic wind turbine or helicopter blades are pre...
As the size of wind turbine blades increases, the influence of geometric nonlinearity on aerodynamic...
The stability of large horizontal axis, axi-symmetric, power producing wind turbines was examined. T...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predic...
With the increasing size of wind turbines and the use of flexible and light materials in aerodynamic...
The nonlinear equations of motion for a rigid rotor restrained by three flexible springs representin...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
The differential equations of motion, and boundary conditions, describing the flap-lead/lag-torsiona...
The linear aeroelastic equations for one curved blade of a vertical axis wind turbine in state vecto...
Certain aspects of the aeroelastic modeling and behavior of the horizontal axis wind turbine (HAWT) ...
A summary of the work performed during the progress period is presented. Analysis methods for predic...
Analysis results, obtained from numerical simulation, for non-linear and unsteady aeroelastic behavi...
The equations of motion are developed by two complementary methods, Hamilton's principle and the New...
The structural dynamics behavior of the blade of a horizontal axis wind turbine that reacts to the d...
An aeroelastic investigation of horizontal axis wind turbines is described. The study is divided int...
A set of nonlinear equations of equilibrium for an elastic wind turbine or helicopter blades are pre...
As the size of wind turbine blades increases, the influence of geometric nonlinearity on aerodynamic...
The stability of large horizontal axis, axi-symmetric, power producing wind turbines was examined. T...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predic...
With the increasing size of wind turbines and the use of flexible and light materials in aerodynamic...
The nonlinear equations of motion for a rigid rotor restrained by three flexible springs representin...
In this work, we present an aeroelastic model intended for three-blade large-scale horizontal-axis w...
The differential equations of motion, and boundary conditions, describing the flap-lead/lag-torsiona...
The linear aeroelastic equations for one curved blade of a vertical axis wind turbine in state vecto...
Certain aspects of the aeroelastic modeling and behavior of the horizontal axis wind turbine (HAWT) ...
A summary of the work performed during the progress period is presented. Analysis methods for predic...
Analysis results, obtained from numerical simulation, for non-linear and unsteady aeroelastic behavi...