The validation and application of a rotor acoustic prediction computer program
Abstract
An essential prerequisite to reducing the acoustic detectability of military rotorcraft is a better understanding of main rotor noise which is the major contributor to the overall noise. A simple, yet accurate, Rotor Acoustic Prediction Program (RAPP) was developed to advance the understanding of main rotor noise. This prediction program uses the Ffowcs Williams and Hawkings (FW-H) equation. The particular form of the FW-H equation used is well suited for the coupling of the measured blade surface pressure to the prediction of acoustic pressure. The FW-H equation is an inhomogeneous wave equation that is valid in all space and governs acoustic pressure generated by thin moving bodies. The nonhomogeneous terms describe mass displacement due to surface motion and forces due to local surface stresses, such as viscous stress and pressure distribution on the surface. This paper examines two of the four types of main rotor noise: BVI noise and low-frequency noise. Blade-vortex interaction noise occurs when a tip vortex, previously shed by a rotor blade, passes close enough to a rotor blade to cause large variations in the blade surface pressures. This event is most disturbing when it happens on the advancing side of the rotor disk. Low-frequency noise includes hover and low to moderate speed forward flight. For these flight conditions, the low frequency components of the acoustic signal dominate.
- Publication:
-
Unknown
- Pub Date:
- 1990
- Bibcode:
- 1990vara.rept.....G
- Keywords:
-
- Acoustics;
- Blade Tips;
- Computer Programs;
- Noise Prediction (Aircraft);
- Noise Propagation;
- Prediction Analysis Techniques;
- Signal Detection;
- Surface Noise Interactions;
- Wave Equations;
- Displacement;
- Hovering;
- Low Frequencies;
- Pressure Distribution;
- Rotary Wing Aircraft;
- Sound Pressure;
- Stress Propagation;
- Turbine Wheels;
- Vortex Shedding;
- Acoustics