Add to ORKGIn the present paper a numerical prediction method for the acoustic characterization of network elements is developed. The acoustic field inside the tested elements is evaluated solving the linearized Euler equations (LEE), or the acoustic perturbation equations (APE), with a discontinuous Galerkin method (DGM). The pressure field is post-processed with a plane wave decomposition method to obtained left- and right-running plane waves at each element port. To characterize the element either the scattering matrix or the impedance is evaluated. For the solution of the hydrodynamic mean flow field the open source Open-FOAM toolbox is used. The numerical method is applied to evaluate the scattering matrix of a sudden area discontinuity both with...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...
This paper presents a computational technique using the boundary element method for prediction ofrad...
This paper presents an advanced computational method for the prediction of the responses in the freq...
In the present paper a numerical prediction method for the acoustic characterization of network elem...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
Acoustic networks models are ideally suited for the aeroacoustic design of duct systems such as auto...
An impedance problem is fundamental to computing acoustic wave propagation. Here, the focus is on ap...
Linear acoustic network models are commonly used to characterize the acoustic behaviour of flow duct...
AbstractThe response of orifices to incident acoustic waves, which is important for many engineering...
The possibility of applying the finite element method to the modeling of acoustic fields is investig...
New noise regulations for civil aviation restrict the sound level that engines can emit to a great e...
In this paper, numerical results of modeling of acoustic waves propagation are presented. For calcul...
Sound propagation in complex non-uniform mean flows is an important research area for transport, bui...
One dimensional linear acoustic network models are commonly used for the acoustic development of exh...
A propagation model method for extracting the normal incidence impedance of an acoustic material ins...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...
This paper presents a computational technique using the boundary element method for prediction ofrad...
This paper presents an advanced computational method for the prediction of the responses in the freq...
In the present paper a numerical prediction method for the acoustic characterization of network elem...
This paper reports on the development of an accurate and easy-to-use prediction tool for the propaga...
Acoustic networks models are ideally suited for the aeroacoustic design of duct systems such as auto...
An impedance problem is fundamental to computing acoustic wave propagation. Here, the focus is on ap...
Linear acoustic network models are commonly used to characterize the acoustic behaviour of flow duct...
AbstractThe response of orifices to incident acoustic waves, which is important for many engineering...
The possibility of applying the finite element method to the modeling of acoustic fields is investig...
New noise regulations for civil aviation restrict the sound level that engines can emit to a great e...
In this paper, numerical results of modeling of acoustic waves propagation are presented. For calcul...
Sound propagation in complex non-uniform mean flows is an important research area for transport, bui...
One dimensional linear acoustic network models are commonly used for the acoustic development of exh...
A propagation model method for extracting the normal incidence impedance of an acoustic material ins...
This paper deals with the numerical prediction of the aeroacoustic behavior of orifices under grazin...
This paper presents a computational technique using the boundary element method for prediction ofrad...
This paper presents an advanced computational method for the prediction of the responses in the freq...