Add to ORKGA wave-packet Ansatz is used to model jet noise generation by large-scale turbulence. In this approach, an equivalent source is defined based on the two-point space-time correlation of hydrodynamic pressure on a conical surface surrounding the jet plume. The surface is sufficiently near the turbulent flow region to be dominated by non-propagating hydrodynamic signatures of large-scale turbulent structures, yet sufficiently far that linear behavior can be assumed in extending the near-field pressure to the acoustic field. In the present study, a 78-microphone array was used to measure hydrodynamic pressure on the conical surface in order to identify parameters for the model and to validate the approach. Six microphones were distributed in th...
We report on the development of parabolized stability equation models to predict the evolution of ...
This work presents advances towards a linear surface-based model for the jet noise source in simple ...
This paper makes contributions towards reduced-order models of wave packets in supersonic, turbulent...
A wave-packet ansatz is used to model noise generation by organized, large-scale structures. The spe...
International audienceOrganized structures in turbulent jets can be modeled as wavepackets. These ar...
Work was carried out as part of an ongoing effort to relate instantaneous large-amplitude features o...
Turbulent jet noise is a controversial fluid mechanical puzzle that has amused and bewildered resear...
Abstractmodels to predict the evolution of low frequencies, large-scale wavepacket structures in tur...
Extensive Experimental evidence is now available to support the observation that there are two compo...
In this paper we present several refinements to a wave-packet model of sound generation from large-s...
AbstractWe report on the development of parabolized stability equation models to predict the evoluti...
Parabolized stability equation (PSE) models are being deve loped to predict the evolu-tion of low-f...
Large-scale coherent structures, or wavepackets, are a salient feature of turbulent jets, and the ma...
We present analytical, experimental and computational studies aimed at understanding the role of lar...
This paper details the statistical and time-resolved analysis of the relationship between the near-f...
We report on the development of parabolized stability equation models to predict the evolution of ...
This work presents advances towards a linear surface-based model for the jet noise source in simple ...
This paper makes contributions towards reduced-order models of wave packets in supersonic, turbulent...
A wave-packet ansatz is used to model noise generation by organized, large-scale structures. The spe...
International audienceOrganized structures in turbulent jets can be modeled as wavepackets. These ar...
Work was carried out as part of an ongoing effort to relate instantaneous large-amplitude features o...
Turbulent jet noise is a controversial fluid mechanical puzzle that has amused and bewildered resear...
Abstractmodels to predict the evolution of low frequencies, large-scale wavepacket structures in tur...
Extensive Experimental evidence is now available to support the observation that there are two compo...
In this paper we present several refinements to a wave-packet model of sound generation from large-s...
AbstractWe report on the development of parabolized stability equation models to predict the evoluti...
Parabolized stability equation (PSE) models are being deve loped to predict the evolu-tion of low-f...
Large-scale coherent structures, or wavepackets, are a salient feature of turbulent jets, and the ma...
We present analytical, experimental and computational studies aimed at understanding the role of lar...
This paper details the statistical and time-resolved analysis of the relationship between the near-f...
We report on the development of parabolized stability equation models to predict the evolution of ...
This work presents advances towards a linear surface-based model for the jet noise source in simple ...
This paper makes contributions towards reduced-order models of wave packets in supersonic, turbulent...