The rotor wake dynamics of a helicopter undergoing large amplitude, high-rate maneuvering flight conditions, typical of those used in some types of military tactics, were simulated using a time-accurate free-vortex wake method with a viscous splitting scheme. The maneuver simulations showed that the wake dynamics were accompanied by considerable lags and reorganization of the wake structure, which also significantly influenced the time-history of the lift distribution over the rotor disk. In some maneuvers, it was found that the rotor operates well inside its own wake, giving rise to particularly large unsteady airloads fluctuations. Roll maneuvers were shown to be characterized by a more significant asymmetric wake structure between the advancing and retreating sides of the rotor disk. A roll reversal maneuver was noted to introduce large temporal lags in the wake developments, the results also depending on whether a port-starboard-port or a starboard-port-starboard roll maneuver was performed. During some maneuvers, especially those involving high rotor disk angles of attack, like a quickstop or pull-up, the tip vortices were shown to bundle into a vortical ring structure below the rotor. This ring then passes up through the rotor disk, creating locally high unsteady airloads. Overall, the predicted results demonstrate the large nonlinear wake dynamics that would be produced during certain combat flight maneuvers, and the necessity of simulating large amplitude or short time period maneuvers using a rotor wake model with sufficiently high spatial and temporal resolution if the important features of the wake dynamics are to be properly captured.


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    Title :

    Rotor wake aerodynamics in large amplitude maneuvering flight


    Additional title:

    Rotor-Wirbel-Wechselwirkungen bei großen Flugmanövern


    Contributors:

    Published in:

    Publication date :

    2006


    Size :

    19 Seiten, 22 Bilder, 36 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English