Development of a shock noise prediction code for high-speed helicopters - The subsonically moving shock
Abstract
A previously defined airfoil subsonic shock-noise prediction formula whose result depends on a mapping of the time-dependent shock surface to a time-independent computational domain is presently coded and incorporated in the NASA-Langley rotor-noise prediction code, WOPWOP. The structure and algorithms used in the shock-noise prediction code are presented; special care has been taken to reduce computation time while maintaining accuracy. Numerical examples of shock-noise prediction are presented for hover and forward flight. It is confirmed that shock noise is an important component of the quadrupole source.
- Publication:
-
IN: AHS
- Pub Date:
- 1991
- Bibcode:
- 1991ahs.....2..773T
- Keywords:
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- Aeroacoustics;
- Aircraft Noise;
- Noise Prediction;
- Rotary Wings;
- Shock Wave Interaction;
- Subsonic Speed;
- Computer Programs;
- Noise Generators;
- Quadrupoles;
- Acoustics