Theoretical models for duct acoustic propagation and radiation
Abstract
The development of computational methods in acoustics has led to the introduction of analysis and design procedures which model the turbofan inlet as a coupled system, simultaneously modeling propagation and radiation in the presence of realistic internal and external flows. Such models are generally large, require substantial computer speed and capacity, and can be expected to be used in the final design stages, with the simpler models being used in the early design iterations. Emphasis is given to practical modeling methods that have been applied to the acoustical design problem in turbofan engines. The mathematical model is established and the simplest case of propagation in a duct with hard walls is solved to introduce concepts and terminologies. An extensive overview is given of methods for the calculation of attenuation in uniform ducts with uniform flow and with shear flow. Subsequent sections deal with numerical techniques which provide an integrated representation of duct propagation and near- and far-field radiation for realistic geometries and flight conditions.
- Publication:
-
Aeroacoustics of Flight Vehicles: Theory and Practice. Volume 2: Noise Control
- Pub Date:
- August 1991
- Bibcode:
- 1991afvt....2..101E
- Keywords:
-
- Acoustic Attenuation;
- Acoustic Ducts;
- Acoustic Propagation;
- Design Analysis;
- Engine Design;
- Mathematical Models;
- Noise Propagation;
- Sound Fields;
- Turbofan Engines;
- Far Fields;
- Flight Conditions;
- Near Fields;
- Shear Flow;
- Sound Waves;
- Uniform Flow;
- Acoustics