Role of empirical methods
Abstract
There are different levels of helicopter noise prediction which may be appropriate at various stages in the design process. In the early preliminary design stages, when available information is usually limited to parameters such as gross weight, tip speed, forward speed, rotor radius, and possibly number of blades, one is limited to purely empirically based methodology. As the design progresses, and airfoil blade planforms and twists are defined, predictions of airloads, vortex paths, and compressibility effects may permit application of more analytically based sound pressure level prediction methods. At the present stage of development of first principle prediction methodology, however, the designer may still find it necessary to supplement such analyses with modifications based on empirical experience. Various causes and parameters of helicopter noise were identified and discussed from the standpoint of prediction. Rotational noise, blade-vortex interaction noise, thickness noise, broadband noise, and flyover noise were considered. A modular computer program for helicopter noise prediction (HELNOP) was described briefly. Wind tunnel models as useful tools in predicting full scale helicopter noise were also discussed.
- Publication:
-
Rotorcraft Noise
- Pub Date:
- July 1982
- Bibcode:
- 1982rcn..nasa..123S
- Keywords:
-
- Aircraft Noise;
- Broadband;
- Helicopter Design;
- Helicopter Tail Rotors;
- Helicopters;
- Noise Prediction (Aircraft);
- Prediction Analysis Techniques;
- Rotary Wings;
- Blade Slap Noise;
- Blade-Vortex Interaction;
- Computer Programs;
- Production Planning;
- Project Management;
- Sound Pressure;
- Wind Tunnel Models;
- Wind Tunnel Tests;
- Acoustics