Add to ORKGSound generated in a moving fluid must propagate through a shear layer in order to be measured by a fixed instrument. These propagation effects were evaluated for noise sources typically associated with single and co-flowing subsonic jets and for subcritical flow over airfoils in such jets. The techniques for describing acoustic propagation fall into two categories: geometric acoustics and wave acoustics. Geometric acoustics is most convenient and accurate for high frequency sound. In the frequency range of interest to the present study (greater than 150 Hz), the geometric acoustics approach was determined to be most useful and practical
Analytical problems in the interactions between the mean-shear flows and the acoustic field in the p...
The ability to separate acoustically radiating and non-radiating components in fluid flow is desirab...
In the pages that follow I have attempted to give a systematic description of some findings made dur...
A mathematical model is developed to describe the sound emitted from an arbitrary point within a tur...
Closed form solutions are presented for sound propagation from a line source in or near a shear laye...
Sound generation in turbulent shear flows is examined. The emphasis is on simultaneous calculation o...
An equation for acoustic ray paths in a spatially varying mean flow was examined to determine some o...
Noise from an unheated sonic jet in the presence of an external flow is measured in a free-jet wind ...
The nature of the acoustic field of a simple source in a wind tunnel under flow conditions was exami...
In the following a general discussion of aerodynamically created sound is given. The study is essent...
The shear layer characteristics of an open-jet acoustic wind tunnel are of key importance on measure...
Refraction of high frequency noise by mean flow gradients in a jet is studied using the ray-tracing ...
The behavior of a sound in a jet was investigated. It is verified that the far-field acoustic power ...
This version has been accepted for publication.Published in Journal of Fluid Mechanics / Volume 714 ...
The propagation of sound waves inside a jet (single or multiple) was studied with particular attenti...
Analytical problems in the interactions between the mean-shear flows and the acoustic field in the p...
The ability to separate acoustically radiating and non-radiating components in fluid flow is desirab...
In the pages that follow I have attempted to give a systematic description of some findings made dur...
A mathematical model is developed to describe the sound emitted from an arbitrary point within a tur...
Closed form solutions are presented for sound propagation from a line source in or near a shear laye...
Sound generation in turbulent shear flows is examined. The emphasis is on simultaneous calculation o...
An equation for acoustic ray paths in a spatially varying mean flow was examined to determine some o...
Noise from an unheated sonic jet in the presence of an external flow is measured in a free-jet wind ...
The nature of the acoustic field of a simple source in a wind tunnel under flow conditions was exami...
In the following a general discussion of aerodynamically created sound is given. The study is essent...
The shear layer characteristics of an open-jet acoustic wind tunnel are of key importance on measure...
Refraction of high frequency noise by mean flow gradients in a jet is studied using the ray-tracing ...
The behavior of a sound in a jet was investigated. It is verified that the far-field acoustic power ...
This version has been accepted for publication.Published in Journal of Fluid Mechanics / Volume 714 ...
The propagation of sound waves inside a jet (single or multiple) was studied with particular attenti...
Analytical problems in the interactions between the mean-shear flows and the acoustic field in the p...
The ability to separate acoustically radiating and non-radiating components in fluid flow is desirab...
In the pages that follow I have attempted to give a systematic description of some findings made dur...