In this work limit-cycle oscillations (LCOs) caused by aerodynamic non-linearitieswere analysed using fluid-structure interaction (FSI) simulations of a two-degree-of-freedomairfoil system. A comparison with sinusoidal forced motion oscillation simulations at the fundamental frequency was performed. The results show that using the first harmonic component for the forced motion oscillations is a good approach to describe the limit-cycle oscillations considered in this work. Following the work of G. Dietz, G. Schewe and H. Mai (2004), Journal of Fluids and Structures, Vol. 19, an energy budget analysis of the limit-cycle oscillations was performed. Power analysis of the LCO reveals that the power of the lift and moment show non-linear behavi...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
peer reviewedWe show numerically that the triggering mechanisms of limit cycle oscillations (LCOs) d...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
Aeroelastic limit-cycle oscillations (LCO) due to aerodynamic non-linearities are usually investigat...
The presence of limit cycle oscillations within the flight envelopes of existing aircraft is well do...
Aerodynamic non-linearities, such as shock waves, boundary layer separation or boundary layer transi...
Limit cycle oscillations (LCOs) commonly require restrictions on the operation of high- performance...
Limit-cycle oscillation, or LCO, is an aeroelastic phenomenon characterized by limited amplitude, se...
<p>High performance fighter aircraft such as the F-16 experience aeroelastic Limit Cycle Oscillation...
The present work is a continuation of earlier work by the author on the energetics of flutter. It ha...
Flutter is a destructive aeroelastic phenomenon occurring on flexible aeronau- tical structures beca...
This paper presents an analytical feature for limit cycle oscillation (LCO) in the nonlinear aeroela...
The effect of non-linearities, be they structural, aerodynamic or control, on the aeroelastic behavi...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
peer reviewedWe show numerically that the triggering mechanisms of limit cycle oscillations (LCOs) d...
Non-linear effects, either of structural or aerodynamic nature, are of high importance in aeroelasti...
Flutter is usually predicted using linearised theory. In reality, flutter is always non-linear and m...
Aeroelastic limit-cycle oscillations (LCO) due to aerodynamic non-linearities are usually investigat...
The presence of limit cycle oscillations within the flight envelopes of existing aircraft is well do...
Aerodynamic non-linearities, such as shock waves, boundary layer separation or boundary layer transi...
Limit cycle oscillations (LCOs) commonly require restrictions on the operation of high- performance...
Limit-cycle oscillation, or LCO, is an aeroelastic phenomenon characterized by limited amplitude, se...
<p>High performance fighter aircraft such as the F-16 experience aeroelastic Limit Cycle Oscillation...
The present work is a continuation of earlier work by the author on the energetics of flutter. It ha...
Flutter is a destructive aeroelastic phenomenon occurring on flexible aeronau- tical structures beca...
This paper presents an analytical feature for limit cycle oscillation (LCO) in the nonlinear aeroela...
The effect of non-linearities, be they structural, aerodynamic or control, on the aeroelastic behavi...
High-frequency limit-cycle oscillations of an airfoil at low Reynolds number are studied numerically...
Recent results from flutter experiments of the supercritical airfoil NLR 7301 at flow conditions clo...
peer reviewedWe show numerically that the triggering mechanisms of limit cycle oscillations (LCOs) d...