A finite volume-based high-order scheme with optimized dispersion and dissipation characteristics in cooperation with the Cartesian cut-cell technique is presented for aeroacoustics computations involving geometric complexities and nonlinearities. The field equation is solved based on an optimized prefactored compact finite volume (OPC-fv) scheme. The cut-cell approach handles the boundary shape by sub-dividing the computational cells in accordance with the local geometric characteristics and facilitates the use of numerical procedures with a desirable level of accuracy. The resulting technique is assessed by several test problems that demonstrate satisfactory performance
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
A set of explicit finite difference schemes with large stencil was optimized to obtain maximum resol...
The numerical simulation of aeroacoustic phenomena requires high-order accurate numerical schemes wi...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76576/1/AIAA-2005-2825-326.pd
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
AbstractThe paper presents a finite volume numerical method universally applicable for solving both ...
High-order cell-vertex finite difference schemes applied to multi-block structured grids are used wi...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
AbstractComputational fluid dynamics (CFD) has become increasingly used in the industry for the simu...
Computational aeroacoustics requires efficient, high-resolution simulation tools. And for smooth pro...
A set of optimised boundary closure schemes is presented for use with compact central finite differe...
The numerical simulation of aeroacoustic phenomena requires high-order accurate numerical schemes wi...
This work documents the development of a three-dimensional high-order prefactored compact finite-dif...
A novel optimized framework for unstructured finite-volume methods is presented, with an emphasis on...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
A set of explicit finite difference schemes with large stencil was optimized to obtain maximum resol...
The numerical simulation of aeroacoustic phenomena requires high-order accurate numerical schemes wi...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76576/1/AIAA-2005-2825-326.pd
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
AbstractThe paper presents a finite volume numerical method universally applicable for solving both ...
High-order cell-vertex finite difference schemes applied to multi-block structured grids are used wi...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
AbstractComputational fluid dynamics (CFD) has become increasingly used in the industry for the simu...
Computational aeroacoustics requires efficient, high-resolution simulation tools. And for smooth pro...
A set of optimised boundary closure schemes is presented for use with compact central finite differe...
The numerical simulation of aeroacoustic phenomena requires high-order accurate numerical schemes wi...
This work documents the development of a three-dimensional high-order prefactored compact finite-dif...
A novel optimized framework for unstructured finite-volume methods is presented, with an emphasis on...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
A set of explicit finite difference schemes with large stencil was optimized to obtain maximum resol...
The numerical simulation of aeroacoustic phenomena requires high-order accurate numerical schemes wi...