The problem of helicopter rotor wake aerodynamics during maneuvering flight conditions was analyzed using a time-accurate, free-vortex wake methodology. The free-vortex method consists of a Lagrangian representation of the rotor flow field using vortex elements, where the evolution of the flow field is simulated by tracking the free motion of these vortex elements and calculating their induced velocity field. Traditionally, free-vortex methods are inviscid, incompressible models, but in the present approach the viscous effects are incorporated using a viscous splitting method where the viscous and inviscid terms are modeled as successive sub-processes. The rotor aerodynamics and rigid blade flapping dynamics are closely coupled with the wak...
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
The presented work is dedicated to the numerical study of the aerodynamic characteristics of the hel...
This paper presents an approach to verify and validate a newly developed free-wake lifting line vort...
A second-order accurate predictor-corrector type algorithm has been developed to obtain a time-accu...
This dissertation describes the implementation and validation of a coupled rotor-fuselage simulation...
A time-accurate free-vortex method was developed to ac-curately predict the time evolution of rotor ...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A time-marching free-vortex wake analysis was developed for application to the prediction of the aer...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft. Computations f...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
Modern aerodynamic analysis tools, such as free-vortex wake models and CFD-based techniques, include...
The nature of the aerodynamic environment surrounding a helicopter causes a significant amount of vi...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
A new rotor dynamic wake distortion model, which can be used to account for the rotor transient wake...
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
The presented work is dedicated to the numerical study of the aerodynamic characteristics of the hel...
This paper presents an approach to verify and validate a newly developed free-wake lifting line vort...
A second-order accurate predictor-corrector type algorithm has been developed to obtain a time-accu...
This dissertation describes the implementation and validation of a coupled rotor-fuselage simulation...
A time-accurate free-vortex method was developed to ac-curately predict the time evolution of rotor ...
AbstractTwo methods for calculating the wake geometry and blade loads for a hovering helicopter roto...
A time-marching free-vortex wake analysis was developed for application to the prediction of the aer...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft. Computations f...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
Modern aerodynamic analysis tools, such as free-vortex wake models and CFD-based techniques, include...
The nature of the aerodynamic environment surrounding a helicopter causes a significant amount of vi...
Rotor wake geometries are predicted by a process similar to the startup of a rotor in a free stream....
A new rotor dynamic wake distortion model, which can be used to account for the rotor transient wake...
A two-dimensional model of the aerodynamics of rotor blades in forward flight is proposed in which ...
The presented work is dedicated to the numerical study of the aerodynamic characteristics of the hel...
This paper presents an approach to verify and validate a newly developed free-wake lifting line vort...