Transmissibility Upscaling on Unstructured Grids for Highly Heterogeneous Reservoirs

Abstract: One critical point of modeling of flow in porous media is the capacity to consider parameters that are highly variable in space. It is then very challenging to simulate numerically fluid flow on such heterogeneous porous media. The continuous increase in computing power makes it possible to integrate smaller and smaller heterogeneities into geological models of up to tens of millions of cells. On such meshes, despite computer performance, multi-phase flow equations cannot be solved in an acceptable time for hy… Show more

“…Guérillot and Bruyelle [29] proposed a new approach to upscale transmissibility values. The aim of this procedure is to calculate average reservoir properties from parameters that are highly variable in space (high-resolution geological cells).…”

Modeling of Flow and Transport in Saturated and Unsaturated Porous Media

“…Guérillot and Bruyelle [29] proposed a new approach to upscale transmissibility values. The aim of this procedure is to calculate average reservoir properties from parameters that are highly variable in space (high-resolution geological cells).…”

Modeling of Flow and Transport in Saturated and Unsaturated Porous Media

Machine learning of dual porosity model closures from discrete fracture simulations

Surface subsidence and uplift resulting from well interventions modeled with coupled analytical solutions: Application to Groningen gas extraction (Netherlands) and CO2-EOR in the Kelly-Snyder oil field (West Texas)