In this work, the open-source spectral/hp element framework Nektar++ (www.nektar.info) is coupled with the Antares library (www.cerfacs.fr/antares/) to predict noise from a subsonic jet. Nektar++ uses the high-order discontinuous Galerkin method to solve the compressible Navier-Stokes equations on unstructured grids. Unresolved turbulent scales are modeled using an implicit Large Eddy Simulation approach. In this approach, the favourable dissipation properties of the discontinuous Galerkin method are used to remove the highest resolved wavenumbers from the solution. For time-integration, an implicit, matrix-free, Newton-Krylov method is used. To compute the far-field noise, Antares solves the Ffowcs Williams-Hawkings equation for a permeabl...
Turbulent jet large-eddy simulations (LES) are performed at Mach 0.9 and Reynolds number of 106. For...
During a space launch, the noise from hot supersonic jets, generated by rocket engines at liftoff an...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
In this work, the open-source spectral/hp element framework Nektar++ (www.nektar.info) is coupled wi...
A recently developed computational framework for jet noise is used to compute the noise generated by...
In this paper, we use Large Eddy Simulations (LES) in combination with the Ffowcs Williams - Hawking...
A recently developed computational framework for jet noise predictions is presented. The framework ...
This work deals with the application of a high-order discontinuous Galerkin (DG) method to predict t...
Airframe noise is generated through turbulence passing by the edges of (rigid) bodies. Considering ...
The calculation of noise generated by a jet of viscous compressible gas flowing out from a conical n...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
A promising way to predict airframe noise is the numerical solution of the Acoustic Perturbation Equ...
A flexible hybrid approach is investigated for computing far-field jet noise. Compressible large edd...
This thesis deals with the computation and the investigation of the noise radiated by a rocket-like ...
Computational aeroacoustics deals with the computation of noise generated arodynamically. In order t...
Turbulent jet large-eddy simulations (LES) are performed at Mach 0.9 and Reynolds number of 106. For...
During a space launch, the noise from hot supersonic jets, generated by rocket engines at liftoff an...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
In this work, the open-source spectral/hp element framework Nektar++ (www.nektar.info) is coupled wi...
A recently developed computational framework for jet noise is used to compute the noise generated by...
In this paper, we use Large Eddy Simulations (LES) in combination with the Ffowcs Williams - Hawking...
A recently developed computational framework for jet noise predictions is presented. The framework ...
This work deals with the application of a high-order discontinuous Galerkin (DG) method to predict t...
Airframe noise is generated through turbulence passing by the edges of (rigid) bodies. Considering ...
The calculation of noise generated by a jet of viscous compressible gas flowing out from a conical n...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...
A promising way to predict airframe noise is the numerical solution of the Acoustic Perturbation Equ...
A flexible hybrid approach is investigated for computing far-field jet noise. Compressible large edd...
This thesis deals with the computation and the investigation of the noise radiated by a rocket-like ...
Computational aeroacoustics deals with the computation of noise generated arodynamically. In order t...
Turbulent jet large-eddy simulations (LES) are performed at Mach 0.9 and Reynolds number of 106. For...
During a space launch, the noise from hot supersonic jets, generated by rocket engines at liftoff an...
AbstractThis paper describes a methodology for the direct calculation of noise from realistic nozzle...