This paper presents the development of a fourth-order finite difference computational aeroacoustics solver. The solver works with a structured multi-block grid domain strategy, and it has been parallelized efficiently by using an interface treatment based on the method of characteristics. More importantly, it extends the characteristic boundary condition developments of previous researchers by introducing a characteristic-based treatment at the multi-block interfaces. In addition, most characteristic methods do not satisfy Pfaff’s condition, which is a requirement for any mathematical relation to be valid. A mathematically-consistent and valid method is used in this work to derive the characteristic interface conditions. Furthermore, a robu...
Un nouvel algorithme de simulation numérique pour l'aeroacoustique, SAFARI (Simulation Aeroacoustiqu...
In this paper, we have combined some spatial derivatives with the optimised time derivative proposed...
Direct numerical simulations and computational aeroacoustics require an accurate finite difference s...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
The optimized high-order Dispersion-Relation-Preserving finite difference scheme is extended so as t...
High-order cell-vertex finite difference schemes applied to multi-block structured grids are used wi...
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...
High-order spatial discretization schemes based on block-structured adaptive mesh refinement (AMR) m...
This paper discusses parallel computing applied to computational aeroacoustics problems. Computer ha...
Aimed at the computational aeroacoustics multi-scale problem of complex configurations discretized w...
Abstract physical boundary condition all points can be eval-uated in parallel. Results indicate a si...
This work documents the development of a three-dimensional high-order prefactored compact finite-dif...
Un nouvel algorithme de simulation numérique pour l'aeroacoustique, SAFARI (Simulation Aeroacoustiqu...
In this paper, we have combined some spatial derivatives with the optimised time derivative proposed...
Direct numerical simulations and computational aeroacoustics require an accurate finite difference s...
This paper presents the development of a fourth-order finite difference computational aeroacoustics ...
A patched grid technique is proposed with the aim of increasing the flexibility and efficiency of hi...
In this work a patched grid technique is proposed with the aim of increasing the flexi-bility and ef...
The optimized high-order Dispersion-Relation-Preserving finite difference scheme is extended so as t...
High-order cell-vertex finite difference schemes applied to multi-block structured grids are used wi...
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...
High-order spatial discretization schemes based on block-structured adaptive mesh refinement (AMR) m...
This paper discusses parallel computing applied to computational aeroacoustics problems. Computer ha...
Aimed at the computational aeroacoustics multi-scale problem of complex configurations discretized w...
Abstract physical boundary condition all points can be eval-uated in parallel. Results indicate a si...
This work documents the development of a three-dimensional high-order prefactored compact finite-dif...
Un nouvel algorithme de simulation numérique pour l'aeroacoustique, SAFARI (Simulation Aeroacoustiqu...
In this paper, we have combined some spatial derivatives with the optimised time derivative proposed...
Direct numerical simulations and computational aeroacoustics require an accurate finite difference s...