A direct panel method based on a novel boundary integral formulation for the velocity potential is presented and applied to helicopter rotors experiencing bladevortex interaction. It avoids the numerical instabilities arising in the standard direct panel method in case of blade/wake impingement. This aerodynamic formulation yields a unified approach for the calculation of free-wake evolution and the blade-pressure field; it is fully 3-D, includes body-thickness effects, and can be applied to blades with arbitrary shape and motion. Blade-pressure predictions and the corresponding acoustic fields correlate well with wind-tunnel test data for helicopter rotors in descent flight, in which severe bladevortex interaction occurs.
Gennaretti, M., Bernardini, G. (2007). Novel Boundary Integral Formulation for Blade-Vortex Interaction Aerodynamics of Helicopter Rotors. AIAA JOURNAL, 45, 1169-1176 [10.2514/1.18383].
Novel Boundary Integral Formulation for Blade-Vortex Interaction Aerodynamics of Helicopter Rotors
GENNARETTI, MASSIMO;
2007-01-01
Abstract
A direct panel method based on a novel boundary integral formulation for the velocity potential is presented and applied to helicopter rotors experiencing bladevortex interaction. It avoids the numerical instabilities arising in the standard direct panel method in case of blade/wake impingement. This aerodynamic formulation yields a unified approach for the calculation of free-wake evolution and the blade-pressure field; it is fully 3-D, includes body-thickness effects, and can be applied to blades with arbitrary shape and motion. Blade-pressure predictions and the corresponding acoustic fields correlate well with wind-tunnel test data for helicopter rotors in descent flight, in which severe bladevortex interaction occurs.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
