This dissertation describes the implementation and validation of a coupled rotor-fuselage simulation model with a time-accurate free-vortex wake model capable of capturing the response to maneuvers of arbitrary amplitude. The resulting model has been used to analyze different flight conditions, including both steady and transient maneuvers. The flight dynamics model is based on a system of coupled nonlinear rotor-fuselage differential equations in first-order, state-space form. The rotor model includes flexible blades, with coupled flap-lag-torsion dynamics and swept tips; the rigid body dynamics are modeled with the non-linear Euler equations. The free wake models the rotor flow field by tracking the vortices released at the blade tips....
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
A time-accurate free-vortex method was developed to ac-curately predict the time evolution of rotor ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...
The problem of helicopter rotor wake aerodynamics during maneuvering flight conditions was analyzed ...
A second-order accurate predictor-corrector type algorithm has been developed to obtain a time-accu...
The transient response of a helicopter to unsteady maneuvers using a time accurate free wake model c...
Modern aerodynamic analysis tools, such as free-vortex wake models and CFD-based techniques, include...
High-fidelity rotorcraft flight simulation relies on the availability of a quality flight model that...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
Rotorcraft Blade-Vortex Interaction (BVI) remains one of the most challenging flow phenomenon to sim...
Free-vortex wake models are capable of providing an accurate and physically detailed representation ...
A new rotor dynamic wake distortion model, which can be used to account for the rotor transient wake...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The presented work is dedicated to the numerical study of the aerodynamic characteristics of the hel...
A helicopter rotor in descent flight encounters its own wake, resulting in a doughnut-shaped ring ar...
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
A time-accurate free-vortex method was developed to ac-curately predict the time evolution of rotor ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...
The problem of helicopter rotor wake aerodynamics during maneuvering flight conditions was analyzed ...
A second-order accurate predictor-corrector type algorithm has been developed to obtain a time-accu...
The transient response of a helicopter to unsteady maneuvers using a time accurate free wake model c...
Modern aerodynamic analysis tools, such as free-vortex wake models and CFD-based techniques, include...
High-fidelity rotorcraft flight simulation relies on the availability of a quality flight model that...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
Rotorcraft Blade-Vortex Interaction (BVI) remains one of the most challenging flow phenomenon to sim...
Free-vortex wake models are capable of providing an accurate and physically detailed representation ...
A new rotor dynamic wake distortion model, which can be used to account for the rotor transient wake...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The presented work is dedicated to the numerical study of the aerodynamic characteristics of the hel...
A helicopter rotor in descent flight encounters its own wake, resulting in a doughnut-shaped ring ar...
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
A time-accurate free-vortex method was developed to ac-curately predict the time evolution of rotor ...
A framework is developed for the computational fluid dynamics (CFD) analyses of a series of helicopt...