This paper presents direct numerical simulations for the flow through regular porous media composed of equal size staggered square cylinders obtained with a compact finite differences immersed boundary method. Different moderate Reynolds numbers are simulated in order to capture the dependence of the pressure drop with the Reynolds number in the Forchheimer regime. The pressure drop predictions agree well with the Hazen-Dupuit-Darcy model; however, when compared to a widely used semi-empirical correlation, the modified Ergun equation, the agreement is poor. A better agreement is found if the particle diameter is taken to be equal to the cylinder diameter. From the intrinsic-averaged pressure calculated along the flow direction, it can be se...
The ghost cell immersed boundary method coupled with a finite difference based Navier-Stokes solver ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
Following the development of an immersed boundary method for the study of flow through porous media ...
Inlet and outlet pressure drop effects can contribute significantly to the total pressure drop in po...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
© 2019 IOP Publishing Ltd. All rights reserved. Optimization of the porous material geometry is caus...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
This study uses novel methods, combining discrete element method (DEM) simulations for packing and c...
The complexity of porous media makes the classical methods used to study hydrocarbon reservoirs inac...
We present numerical simulations of post-Darcy flow in thin porous medium: one consisting of stagger...
Fluid flow data are presnted for beds of uniformly sized spheres consolidated with resin over a poro...
Experimental measurements of the pressure drop across porous metals have been compared with computat...
This chapter demonstrates the potential of the immersed boundary method for the direct numerical sim...
The ghost cell immersed boundary method coupled with a finite difference based Navier-Stokes solver ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
Following the development of an immersed boundary method for the study of flow through porous media ...
Inlet and outlet pressure drop effects can contribute significantly to the total pressure drop in po...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
© 2019 IOP Publishing Ltd. All rights reserved. Optimization of the porous material geometry is caus...
Flow of non-Newtonian fluids through porous media at high Reynolds numbers is often encountered in c...
This study uses novel methods, combining discrete element method (DEM) simulations for packing and c...
The complexity of porous media makes the classical methods used to study hydrocarbon reservoirs inac...
We present numerical simulations of post-Darcy flow in thin porous medium: one consisting of stagger...
Fluid flow data are presnted for beds of uniformly sized spheres consolidated with resin over a poro...
Experimental measurements of the pressure drop across porous metals have been compared with computat...
This chapter demonstrates the potential of the immersed boundary method for the direct numerical sim...
The ghost cell immersed boundary method coupled with a finite difference based Navier-Stokes solver ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...
This paper is centred on a compact finite differences method for the calculation of two-dimensional ...