Add to ORKGA computational method was developed to treat unsteady aerodynamic interactions between a helicopter rotor, wake, and fuselage and between the main and tail rotors. An existing lifting line prescribed wake rotor analysis and a source panel fuselage analysis were coupled and modified to predict unsteady fuselage surface pressures and airloads. A prescribed displacement technique is used to position the rotor wake about the fuselage. Either a rigid blade or an aeroelastic blade analysis may be used to establish rotor operating conditions. Sensitivity studies were performed to determine the influence of the wake fuselage geometry on the computation. Results are presented that describe the induced velocities, pressures, and airloads on the fuse...
Unsteady rotor wake interactions with the empennage, tail boom, and other aerodynamic surfaces have ...
Unsteady flow simulations of complete helicopter configurations were conducted, and the flow fields ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
The problem of rotor-fuselage aerodynamic interaction has to be considered in industry applications ...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
A method was developed which allows the fully coupled calculation of fuselage and rotor airloads for...
The Rotor-Fuselage Analysis is a method of calculating the aerodynamic reaction between a helicopter...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
Aerodynamic interactions between the main rotor, fuselage, and tail rotor must be considered during ...
A potential-flow panel method was modified to calculate the effects of a rotor wake on the time-aver...
An overset grid thin-layer Navier-Stokes code has been extended to include dynamic motion of helicop...
AbstractAn iterative and full-coupled rotor/fuselage aerodynamic interaction analytical method is de...
Unsteady rotor wake interactions with the empennage, tail boom, and other aerodynamic surfaces have ...
Unsteady flow simulations of complete helicopter configurations were conducted, and the flow fields ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...
The problem of rotor-fuselage aerodynamic interaction has to be considered in industry applications ...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
A method was developed which allows the fully coupled calculation of fuselage and rotor airloads for...
The Rotor-Fuselage Analysis is a method of calculating the aerodynamic reaction between a helicopter...
The unsteady loads experienced by a helicopter are known to be strongly influenced by aerodynamic in...
Aerodynamic interactions between the main rotor, fuselage, and tail rotor must be considered during ...
A potential-flow panel method was modified to calculate the effects of a rotor wake on the time-aver...
An overset grid thin-layer Navier-Stokes code has been extended to include dynamic motion of helicop...
AbstractAn iterative and full-coupled rotor/fuselage aerodynamic interaction analytical method is de...
Unsteady rotor wake interactions with the empennage, tail boom, and other aerodynamic surfaces have ...
Unsteady flow simulations of complete helicopter configurations were conducted, and the flow fields ...
The development of an advanced computational analysis of unsteady aerodynamic loads on isolated heli...