Add to ORKGTam and Auriault successfully predicted the acoustic spectrum at 90deg to the axis of a high speed air jet by using an acoustic equation derived from ad hoc kinetic theory-type arguments. The present paper shows that similar predictions can be obtained by using a rigorous acoustic analogy approach together with actual measurements of the relevant acoustic source correlations. This puts the result on a firmer basis and enables its extension to new situations and to the prediction of sound at other observation angles
Subsonicand supersonic jet noise is determined numerically from statistical sourcemodels.The goal is...
A prediction method based on the generalized acoustic analogy is presented, and used to evaluate aer...
Lighthill’s theory of aerodynamic sound is employed to model the acoustic far field of turbulent jet...
This paper uses asymptotic analysis within the generalized acoustic analogy formulation (Goldstein 2...
An acoustic analogy is developed to predict the noise from jet flows. It contains two source models ...
This paper uses asymptotic analysis within the generalized acoustic analogy formulation (Goldstein 2...
The acoustic analogy introduced by Lighthill to study jet noise is now over 50 years old. In the pre...
Data from the direct numerical simulation (DNS) of a turbulent, compressible (Mach = 1.92) jet has b...
This paper describes several methods for the prediction of jet noise. All but one of the noise predi...
JeNo is a jet noise prediction code based on an acoustic analogy method developed by Mani, Gliebe, B...
In this study we show how accurate jet noise predictions can be achieved within Goldstein’s generali...
An assessment of an acoustic analogy for the mixing noise component of jet noise in the presence of ...
In this thesis, the numerical code for predicting the far-field sound radiated from a localized soun...
It has often been suggested that simulations of turbulent jets could provide the necessary sound sou...
A computational aeroacoustics prediction tool based on the application of Lighthill’s theory is pres...
Subsonicand supersonic jet noise is determined numerically from statistical sourcemodels.The goal is...
A prediction method based on the generalized acoustic analogy is presented, and used to evaluate aer...
Lighthill’s theory of aerodynamic sound is employed to model the acoustic far field of turbulent jet...
This paper uses asymptotic analysis within the generalized acoustic analogy formulation (Goldstein 2...
An acoustic analogy is developed to predict the noise from jet flows. It contains two source models ...
This paper uses asymptotic analysis within the generalized acoustic analogy formulation (Goldstein 2...
The acoustic analogy introduced by Lighthill to study jet noise is now over 50 years old. In the pre...
Data from the direct numerical simulation (DNS) of a turbulent, compressible (Mach = 1.92) jet has b...
This paper describes several methods for the prediction of jet noise. All but one of the noise predi...
JeNo is a jet noise prediction code based on an acoustic analogy method developed by Mani, Gliebe, B...
In this study we show how accurate jet noise predictions can be achieved within Goldstein’s generali...
An assessment of an acoustic analogy for the mixing noise component of jet noise in the presence of ...
In this thesis, the numerical code for predicting the far-field sound radiated from a localized soun...
It has often been suggested that simulations of turbulent jets could provide the necessary sound sou...
A computational aeroacoustics prediction tool based on the application of Lighthill’s theory is pres...
Subsonicand supersonic jet noise is determined numerically from statistical sourcemodels.The goal is...
A prediction method based on the generalized acoustic analogy is presented, and used to evaluate aer...
Lighthill’s theory of aerodynamic sound is employed to model the acoustic far field of turbulent jet...