Application of the Baseline Rotonet system to the prediction of helicopter tone noise
Abstract
The capabilities of the baseline Rotonet system designed to predict helicopter noise are analyzed. The modules of the system utilized for main and tail rotor geometry and blade section aerodynamic characteristics, for analyses, and for source-to-observer geometry, and atmospheric and ground effects calculations are described; a diagram of the system is provided. The Rotonet system produces axial force, tone noise, and sound pressure level information and a one third octave spectrum related to rotor tone noise and broadband noise sources. Main rotor noise predictions are compared with flight data. It is observed that both sets of data reveal increase loading on the advancing side and decrease loading on the retreating side. The tone noise and sound pressure levels for the first and second harmonics correlate well with the flight data; however, there is only fair agreement for the third harmonics of the sound pressure level. Analysis of the spectra display lower noise levels for higher altitudes and lower speeds. It is noted that the baseline Rotonet system is applicable for predicting performance and noise signatures for the lower harmonics. A phase II Rotonet system for evaluating higher harmonics is being developed.
- Publication:
-
Thermophysical Aspects of Re-entry Flows
- Pub Date:
- July 1986
- Bibcode:
- 1986aiaa.confQ....G
- Keywords:
-
- Aeroacoustics;
- Aircraft Noise;
- Helicopters;
- Noise Prediction (Aircraft);
- Broadband;
- Effective Perceived Noise Levels;
- Harmonic Generations;
- Nasa Programs;
- Sound Pressure;
- Acoustics