Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed and trailed vorticity in its wake that has profound effects on its loading. To examine these effects, the response of a two-bladed hovering rotor to a ramp change in collective pitch is investigated using three different computational approaches. Solutions obtained using a Compressible Reynolds Averaged Navier-Stokes approach are compared to results obtained from lifting-line theory coupled to an Eulerian Vorticity Transport Model, and from a simple single-state dynamic inflow model. The different numerical approaches yield very similar predictions of the thrust response of the rotor to ramp changes in collective pitch, as long as the ramp rat...
Brown’s vorticity transport model has been used to investigate the influence of the blade aerodynamic...
A model of the flow through a helicopter rotor, suitable for estimating shed wake effects in hoverin...
The prediction of airloads and the corresponding structural response in high-speed forward flight of...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
Interactions between the blades and vortical structures within the wake of a helicopter rotor are a ...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft with the resear...
The computation of rotor flowfields is a challenging problem in theoretical aerodynamics and essent...
Innovative helicopter rotor blades with a combined forward-backward double-sweep at the outer part o...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft. Computations f...
There are two parts to solving rotor aerodynamics. First is pertaining to the rotor blades and other...
The aerodynamic effects of dynamic stall on pitching wings and airfoils differ significantly from th...
Dynamic stall is experimentally and numerically investigated on a pitching double-swept helicopter r...
Flowfield and tip vortex results are presented for hovering rotor blade at sub-critical and supercri...
Dynamic Stall is a flow phenomenon which occurs on helicopter rotor blades during forward flight mai...
Brown’s vorticity transport model has been used to investigate the influence of the blade aerodynamic...
A model of the flow through a helicopter rotor, suitable for estimating shed wake effects in hoverin...
The prediction of airloads and the corresponding structural response in high-speed forward flight of...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
Under transient conditions, a helicopter rotor generates a complex, time-dependent pattern of shed a...
Interactions between the blades and vortical structures within the wake of a helicopter rotor are a ...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft with the resear...
The computation of rotor flowfields is a challenging problem in theoretical aerodynamics and essent...
Innovative helicopter rotor blades with a combined forward-backward double-sweep at the outer part o...
Advanced CFD tools are nowadays used routinely for analysis and design of rotorcraft. Computations f...
There are two parts to solving rotor aerodynamics. First is pertaining to the rotor blades and other...
The aerodynamic effects of dynamic stall on pitching wings and airfoils differ significantly from th...
Dynamic stall is experimentally and numerically investigated on a pitching double-swept helicopter r...
Flowfield and tip vortex results are presented for hovering rotor blade at sub-critical and supercri...
Dynamic Stall is a flow phenomenon which occurs on helicopter rotor blades during forward flight mai...
Brown’s vorticity transport model has been used to investigate the influence of the blade aerodynamic...
A model of the flow through a helicopter rotor, suitable for estimating shed wake effects in hoverin...
The prediction of airloads and the corresponding structural response in high-speed forward flight of...