[HTML][HTML] An overview of the status and challenges of CO2 storage in minerals and geological formations
Since the Industrial Revolution, anthropogenic carbon dioxide (CO2) emissions have grown
exponentially, accumulating in the atmosphere and leading to global warming. According to …
exponentially, accumulating in the atmosphere and leading to global warming. According to …
A comprehensive review of pore scale modeling methodologies for multiphase flow in porous media
Multiphase flow in porous media is relevant to amount of engineering processes, such as
hydrocarbon extraction from reservoir rock, water contamination, CO2 geological storage …
hydrocarbon extraction from reservoir rock, water contamination, CO2 geological storage …
Digital rock physics, chemistry, and biology: challenges and prospects of pore-scale modelling approach
Conventional and unconventional hydrocarbon rocks have complicated pore structures with
heterogeneities distributed over various length scales (from nanometre to centimetre or even …
heterogeneities distributed over various length scales (from nanometre to centimetre or even …
A perspective on applied geochemistry in porous media: Reactive transport modeling of geochemical dynamics and the interplay with flow phenomena and physical …
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 …
energy, resources and service to our society,(bio) geochemical reactions are coupled with …
[HTML][HTML] A thermodynamically consistent characterization of wettability in porous media using high-resolution imaging
Conservation of energy is used to derive a thermodynamically-consistent contact angle, θ t,
when fluid phase 1 displaces phase 2 in a porous medium. Assuming no change in …
when fluid phase 1 displaces phase 2 in a porous medium. Assuming no change in …
Simulation of quasi-static drainage displacement in porous media on pore-scale: Coupling lattice Boltzmann method and pore network model
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 …
methods for modelling the fluid flow in porous media at the pore scale. LBM is accurate in …
Striving to translate shale physics across ten orders of magnitude: What have we learned?
Shales will play an important role in the successful transition of energy from fossil-based
resources to renewables in the coming decades. Aside from being a significant source of …
resources to renewables in the coming decades. Aside from being a significant source of …
Validation of model predictions of pore-scale fluid distributions during two-phase flow
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 …
permeability behavior. To investigate if these models are predictive, the calculated pore …
Improving watershed-based pore-network extraction method using maximum inscribed ball pore-body positioning
Pore-scale modeling is a rapidly evolving area of research because modeling multiphase
flow directly on 3D pore geometries is of utmost importance in wide variety of research …
flow directly on 3D pore geometries is of utmost importance in wide variety of research …
Pore network modeling of thin water film and its influence on relative permeability curves in tight formations
The thin water film stabilized by disjoining pressure is non-negligible in tight formations
which results in significant difference in multiphase flow behavior compared with that in …
which results in significant difference in multiphase flow behavior compared with that in …