We investigate a typical aerofoil section under dynamic stall conditions, the structural model is linear and the aerodynamic loading is represented by the Leishman-Beddoes semi-empirical dynamic stall model. The loads given by this model are non-linear and non-smooth, therefore we have integrated the equation of motion using a Runge-Kutta-Fehlberg algorithm equipped with event detection. The main focus of the paper is on the interaction between the Hopf bifurcation typical of aero-elastic systems, which causes flutter oscillations, and the discontinuous definition of the stall model. The paper shows how the non-smooth definition of the dynamic stall model can generate a non-smooth Hopf bifurcation. The mechanisms for the appearance of limit...
This paper presents and experimental and theoretical investigation of a novel nonlinear aeroelastic ...
The aeroelastic behaviour of a wing oscillating in the heave and pitch degrees of freedom is examine...
Aerodynamic forces for a 2-DOF aeroelastic system oscillat-ing in pitch and plunge are modeled as a ...
We use standard tools of the theory of dynamical systems such as phase plots, bifurcation diagrams a...
The interaction of an elastic structure such as an airfoil and fluid flow can give rise to nonlinear...
Stall flutter is a nonlinear aeroelastic phenomenon that can affect several types of aeroelastic sys...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
Stall flutter is a nonlinear aeroelastic phenomenon that can affect several types of aeroelastic sys...
We investigate the dynamic behaviour of the typical airfoil section modelled structurally by linear ...
The system under study is that of a two-dimensional, two-degree-of-freedom airfoil (NACA 0012) in a ...
peer reviewedThe present study focuses on investigating the bifurcation characteristics of a pitch–p...
Stall-induced vibrations are a relevant aeroelastic problem for very flexible aero-structures. Helic...
Note:The aeroelastic system studied in this thesis is a rigid NACA 0012 airfoil flexibly suspended i...
In this paper the aeroelastic stability of a wind turbine rotor in the dynamic stall regime is inves...
This paper presents and experimental and theoretical investigation of a novel nonlinear aeroelastic ...
The aeroelastic behaviour of a wing oscillating in the heave and pitch degrees of freedom is examine...
Aerodynamic forces for a 2-DOF aeroelastic system oscillat-ing in pitch and plunge are modeled as a ...
We use standard tools of the theory of dynamical systems such as phase plots, bifurcation diagrams a...
The interaction of an elastic structure such as an airfoil and fluid flow can give rise to nonlinear...
Stall flutter is a nonlinear aeroelastic phenomenon that can affect several types of aeroelastic sys...
This paper investigates the effect of model uncertainty on the nonlinear dynamics of a generic aeroe...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
Stall flutter is a nonlinear aeroelastic phenomenon that can affect several types of aeroelastic sys...
We investigate the dynamic behaviour of the typical airfoil section modelled structurally by linear ...
The system under study is that of a two-dimensional, two-degree-of-freedom airfoil (NACA 0012) in a ...
peer reviewedThe present study focuses on investigating the bifurcation characteristics of a pitch–p...
Stall-induced vibrations are a relevant aeroelastic problem for very flexible aero-structures. Helic...
Note:The aeroelastic system studied in this thesis is a rigid NACA 0012 airfoil flexibly suspended i...
In this paper the aeroelastic stability of a wind turbine rotor in the dynamic stall regime is inves...
This paper presents and experimental and theoretical investigation of a novel nonlinear aeroelastic ...
The aeroelastic behaviour of a wing oscillating in the heave and pitch degrees of freedom is examine...
Aerodynamic forces for a 2-DOF aeroelastic system oscillat-ing in pitch and plunge are modeled as a ...