An attempt has been made to combine a wave solution method and an unsteady flow computation to produce an integrated aeroacoustic code to predict far-field jet noise. An axisymmetric subsonic jet is considered for this purpose. A fourth order space accurate Pade compact scheme is used for the unsteady Navier-Stokes solution. A Kirchhoff surface integral for the wave equation is employed through the use of an imaginary surface which is a circular cylinder enclosing the jet at a distance. Information such as pressure and its time and normal derivatives is provided on the surface. The sound prediction is performed side by side with the jet flow computation. Retarded time is also taken into consideration since the cylinder body is not acoustica...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
This study is focused on developing a Computational Aeroacoustics (CAA) method-ology that couples th...
Jet flows interacting with nearby surfaces exhibit a complex behavior in which acoustic and aerodyna...
Supersonic jet aeroacoustics will be studied using computational techniques. In the study, a Kirchho...
The recent efforts to develop accurate numerical schemes for transition and turbulent flows are moti...
The computations of axisymmetric jet noise with symmetric disturbances are investigated using the di...
A new method of computing jet noise, called mSrc, was developed on the general principles of acousti...
Turbulent jet large-eddy simulations (LES) are performed at Mach 0.9 and Reynolds number of 106. For...
Prediction method for near field noise of subsonic and supersonic jets observing jet-flow structur
Jet noise is an extensively studied phenomenon since the deployment of the first civil jet aircraft ...
The turbulent mixing noise of a supersonic jet is calculated for a round convergent-divergent nozzle...
A computational aeroacoustics prediction tool based on the application of Lighthill’s theory is pres...
A numerical algorithm for acoustic noise predictions based on solving Lilley's third order wave equa...
An acoustic prediction capability for supersonic axisymmetric jets was developed on the basis of OVE...
This paper examines the shielding effect of the mean flow and refraction of sound in non-axisymmetri...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
This study is focused on developing a Computational Aeroacoustics (CAA) method-ology that couples th...
Jet flows interacting with nearby surfaces exhibit a complex behavior in which acoustic and aerodyna...
Supersonic jet aeroacoustics will be studied using computational techniques. In the study, a Kirchho...
The recent efforts to develop accurate numerical schemes for transition and turbulent flows are moti...
The computations of axisymmetric jet noise with symmetric disturbances are investigated using the di...
A new method of computing jet noise, called mSrc, was developed on the general principles of acousti...
Turbulent jet large-eddy simulations (LES) are performed at Mach 0.9 and Reynolds number of 106. For...
Prediction method for near field noise of subsonic and supersonic jets observing jet-flow structur
Jet noise is an extensively studied phenomenon since the deployment of the first civil jet aircraft ...
The turbulent mixing noise of a supersonic jet is calculated for a round convergent-divergent nozzle...
A computational aeroacoustics prediction tool based on the application of Lighthill’s theory is pres...
A numerical algorithm for acoustic noise predictions based on solving Lilley's third order wave equa...
An acoustic prediction capability for supersonic axisymmetric jets was developed on the basis of OVE...
This paper examines the shielding effect of the mean flow and refraction of sound in non-axisymmetri...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
This study is focused on developing a Computational Aeroacoustics (CAA) method-ology that couples th...
Jet flows interacting with nearby surfaces exhibit a complex behavior in which acoustic and aerodyna...