In the context of pore-scale simulations, we develop a parallel flow solver designed for the simulation of flow in complex geometries. It is based on adaptive Cartesian grids in combination with the Peano space-filling curve and a low-order FEM discretization. The results confirm good scalability. For the generation of complex geometries, a highly modular software package is introduced. We deliver a powerful set of tools and methods ready for simulation of flows through porous media and promising to be used in other fields as well.     «

In the context of pore-scale simulations, we develop a parallel flow solver designed for the simulation of flow in complex geometries. It is based on adaptive Cartesian grids in combination with the Peano space-filling curve and a low-order FEM discretization. The results confirm good scalability. For the generation of complex geometries, a highly modular software package is introduced. We deliver a powerful set of tools and methods ready for simulation of flows through porous media and promis...     »