Computational microfluidics for geosciences is the third leg of the scientific strategy that
includes microfluidic experiments and high-resolution imaging for deciphering coupled …

Micro‐continuum models are versatile and powerful approaches for simulating coupled
processes in two‐scale porous systems. Initially oriented for modeling static single‐phase …

In many practical geochemical systems that are at the center of providing indispensable
energy, resources and service to our society,(bio) geochemical reactions are coupled with …

Multiphase flow in low permeability porous media is involved in numerous energy and
environmental applications. However, a complete description of this process is challenging …

Traditional approaches for transport in porous media rely on empirical hydrodynamic/
transport parameters to quantify the interfacial exchange terms between fluid and solid …

It is a challenging task to predict and analyse the transient flow physics in unconventional
complex geological formations such as coal seams. This is due to the multi-scale multi …

The relative permeability of porous and fractured media is an important concept for various
technological applications including hydrocarbon recovery, CO 2 sequestration, hydrogen …

Porous materials, such as carbonate rocks, frequently have pore sizes which span many
orders of magnitude. This is a challenge for models that rely on an image of the pore space …

Many subsurface porous media such as soils, carbonate rocks, and mudstones possess
multiscale porous structures that play an important role in regulating fluid flow and transport …

Accurately estimating the petrophysical properties of heterogeneous carbonate rocks across
various scales poses significant challenges, particularly within the context of water and …