Limit Cycle Oscillation is a type of aircraft wing structural vibration caused by the non-linearity of the system. The objective of this thesis is to provide a numerical study of this aeroelastic behavior. A CFD solver is used to simulate airfoils displaying such an aeroelastic behavior under certain airflow conditions. Two types of airfoils are used for this numerical study, including the NACA64a010 airfoil, and the supercritical NLR 7301 airfoil. The CFD simulation of limit cycle oscillation (LCO) can be obtained by using published flow and structural parameters. Final results from the CFD solver capture LCO, as well as flutter, behaviors for both wings. These CFD results can be obtained by using two different solution schemes, including ...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
This paper deals with the prediction of stability boundaries and Limit Cycle Oscillation amplitudes ...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
CFD-based aeroelastic computations are performed to investigate the effect of nonlinear aerodynamics...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
Experiments have been performed in order to explore the Limit-Cycle Oscillation (LCO) behavior of a ...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
Aeroelastic limit-cycle oscillations (LCO) due to aerodynamic non-linearities are usually investigat...
Aeroelastic measurements of a three-dimensional wing model, the so-called Aerostabil wing, were cond...
This paper presents an analytical feature for limit cycle oscillation (LCO) in the nonlinear aeroela...
The aeroelastic behaviour of an airfoil oscillating in large and small pitch amplitudes due to nonli...
The nature of nonlinear aerodynamic effects for transonic Limit Cycle Oscillation (LCO) mechanisms a...
<p>High performance fighter aircraft such as the F-16 experience aeroelastic Limit Cycle Oscillation...
Nowadays drag reductions are important also in aircraft design. Natural laminar flow on aircraft win...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
This paper deals with the prediction of stability boundaries and Limit Cycle Oscillation amplitudes ...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...
CFD-based aeroelastic computations are performed to investigate the effect of nonlinear aerodynamics...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
Experiments have been performed in order to explore the Limit-Cycle Oscillation (LCO) behavior of a ...
The purpose of this study was to develop new approaches for predicting transonic flutter and limit c...
Aeroelastic limit-cycle oscillations (LCO) due to aerodynamic non-linearities are usually investigat...
Aeroelastic measurements of a three-dimensional wing model, the so-called Aerostabil wing, were cond...
This paper presents an analytical feature for limit cycle oscillation (LCO) in the nonlinear aeroela...
The aeroelastic behaviour of an airfoil oscillating in large and small pitch amplitudes due to nonli...
The nature of nonlinear aerodynamic effects for transonic Limit Cycle Oscillation (LCO) mechanisms a...
<p>High performance fighter aircraft such as the F-16 experience aeroelastic Limit Cycle Oscillation...
Nowadays drag reductions are important also in aircraft design. Natural laminar flow on aircraft win...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
This paper deals with the prediction of stability boundaries and Limit Cycle Oscillation amplitudes ...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions nea...