Fluid flow and mass transport in geological materials are crucial in diverse Earth science
applications. To fully understand the behavior of geological materials in this context, the …

Multiphase flow in porous media is relevant to amount of engineering processes, such as
hydrocarbon extraction from reservoir rock, water contamination, CO2 geological storage …

Multiphase flow in porous media is strongly influenced by the wettability of the system, which
affects the arrangement of the interfaces of different phases residing in the pores. We …

The generation of renewable electricity is variable, leading to periodic oversupply. Excess
power can be converted to H2 via water electrolysis, but the conversion cost is currently too …

Lattice Boltzmann method (LBM) and pore network model (PNM) are two types of simulation
methods for modelling the fluid flow in porous media at the pore scale. LBM is accurate in …

Spatial data captured with sensors of different resolution would provide a maximum degree
of information if the data were to be merged into a single image representing all scales. We …

Three sets of synthetic images were created from two original datasets. A suite exhibiting
greyscale contrast was produced from an 8.96-μ m voxel size 3D X-ray microscopy image of …

Pore-scale two-phase flow modeling is an important technology to study a rock's relative
permeability behavior. To investigate if these models are predictive, the calculated pore …

Pore systems become very complex in heterogeneous reservoirs such as low-permeability
and tight sandstones for macropores and micropores both exist in such reservoirs. Although …

Carbonate rocks display complex pore textures with heterogeneities that extend over
several length scales. Identifying and capturing their significant pore space properties in a …