This paper is centred on a compact finite differences method for the calculation of two-dimensional viscous flows through complex geometries. The immersed boundaries are set through body forces that allow for the imposition of boundary conditions that coincide with the computational grid. Two different flow configurations are simulated. First, the flow past a cylinder with square cross-section inside a plane channel is calculated. The computed average drag coefficient and Strouhal number are compared to data available in the literature. The agreement between the results is good. The second flow configuration analyzed is the flow through a porous matrix composed of equal size staggered square cylinders. Flow visualization results are shown. ...
The use of CFD-DEM method to accurately simulate gas-solid flows in complex geometries is challengin...
We report on simulations of an unsteady three dimensional viscoelastic fluid flow through a model po...
A new numerical approach is presented in this work to simulate incompressible flows. The present app...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
A compact finite differences method is used to calculate two-dimensional viscous flows through compl...
We present a compact finite differences method for the calculation of two-dimensional viscous flows ...
The ghost cell immersed boundary method coupled with a finite difference based Navier-Stokes solver ...
This chapter demonstrates the potential of the immersed boundary method for the direct numerical sim...
This paper presents a two-dimensional numerical simulation of flows around different bluff bodies, a...
This contribution reports on an ongoing study of incompressible viscous fluid flow in two dimensiona...
A second-order accurate and highly efficient Immersed Boundary Method (IBM) is presented for simulat...
This paper presents direct numerical simulations for the flow through regular porous media composed ...
Following the development of an immersed boundary method for the study of flow through porous media ...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
The use of CFD-DEM method to accurately simulate gas-solid flows in complex geometries is challengin...
We report on simulations of an unsteady three dimensional viscoelastic fluid flow through a model po...
A new numerical approach is presented in this work to simulate incompressible flows. The present app...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
A compact finite differences method is used to calculate two-dimensional viscous flows through compl...
We present a compact finite differences method for the calculation of two-dimensional viscous flows ...
The ghost cell immersed boundary method coupled with a finite difference based Navier-Stokes solver ...
This chapter demonstrates the potential of the immersed boundary method for the direct numerical sim...
This paper presents a two-dimensional numerical simulation of flows around different bluff bodies, a...
This contribution reports on an ongoing study of incompressible viscous fluid flow in two dimensiona...
A second-order accurate and highly efficient Immersed Boundary Method (IBM) is presented for simulat...
This paper presents direct numerical simulations for the flow through regular porous media composed ...
Following the development of an immersed boundary method for the study of flow through porous media ...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
This article presents a two-dimensional steady viscous flow simulation past circular and square cyli...
The use of CFD-DEM method to accurately simulate gas-solid flows in complex geometries is challengin...
We report on simulations of an unsteady three dimensional viscoelastic fluid flow through a model po...
A new numerical approach is presented in this work to simulate incompressible flows. The present app...