The recent efforts to develop accurate numerical schemes for transition and turbulent flows are motivated, among other factors, by the need for accurate prediction of flow noise. The success of developing high speed civil transport plane (HSCT) is contingent upon our understanding and suppression of the jet exhaust noise. The radiated sound can be directly obtained by solving the full (time-dependent) compressible Navier-Stokes equations. However, this requires computational storage that is beyond currently available machines. This difficulty can be overcome by limiting the solution domain to the near field where the jet is nonlinear and then use acoustic analogy (e.g., Lighthill) to relate the far-field noise to the near-field sources. The...
A recently developed computational framework for jet noise is used to compute the noise generated by...
This Phase II project validated a state-of-the-art LES model, coupled with a Ffowcs Williams-Hawking...
The work is performed as part of the EU-funded project JERONIMO (ACP2-GA-2012-314692-JERONIMO) and t...
An attempt has been made to combine a wave solution method and an unsteady flow computation to produ...
The computations of axisymmetric jet noise with symmetric disturbances are investigated using the di...
Jet noise is directly predicted using large-scale equations. The computational domain is extended in...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
Development of concepts for reduction of jet noise has relied heavily on expensive experimental test...
Jet noise is a major concern in the design of commercial aircraft. Studies by various researchers su...
Results on the numerical simulation of jet flow fields were used to study the radiated sound field, ...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
The new source model was combined with the original sound propagation model developed for rectangula...
The turbulent mixing noise of a supersonic jet is calculated for a round convergent-divergent nozzle...
Aeroacoustic noise generation in a supersonic round jet is studied to understand in particular the e...
Progress associated with research in (1) physics and prediction of turbulent mixing noise from super...
A recently developed computational framework for jet noise is used to compute the noise generated by...
This Phase II project validated a state-of-the-art LES model, coupled with a Ffowcs Williams-Hawking...
The work is performed as part of the EU-funded project JERONIMO (ACP2-GA-2012-314692-JERONIMO) and t...
An attempt has been made to combine a wave solution method and an unsteady flow computation to produ...
The computations of axisymmetric jet noise with symmetric disturbances are investigated using the di...
Jet noise is directly predicted using large-scale equations. The computational domain is extended in...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
Development of concepts for reduction of jet noise has relied heavily on expensive experimental test...
Jet noise is a major concern in the design of commercial aircraft. Studies by various researchers su...
Results on the numerical simulation of jet flow fields were used to study the radiated sound field, ...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
The new source model was combined with the original sound propagation model developed for rectangula...
The turbulent mixing noise of a supersonic jet is calculated for a round convergent-divergent nozzle...
Aeroacoustic noise generation in a supersonic round jet is studied to understand in particular the e...
Progress associated with research in (1) physics and prediction of turbulent mixing noise from super...
A recently developed computational framework for jet noise is used to compute the noise generated by...
This Phase II project validated a state-of-the-art LES model, coupled with a Ffowcs Williams-Hawking...
The work is performed as part of the EU-funded project JERONIMO (ACP2-GA-2012-314692-JERONIMO) and t...