[HTML][HTML] Review of foam stability in porous media: The effect of coarsening
Foam stability in porous media is crucial to industrial applications such as enhanced oil
recovery (EOR) and CO 2 geological sequestration. Though many studies of foam stability in …
recovery (EOR) and CO 2 geological sequestration. Though many studies of foam stability in …
Computational microfluidics for geosciences
Computational microfluidics for geosciences is the third leg of the scientific strategy that
includes microfluidic experiments and high-resolution imaging for deciphering coupled …
includes microfluidic experiments and high-resolution imaging for deciphering coupled …
Complex wettability behavior triggering mechanism on imbibition: A model construction and comparative study based on analysis at multiple scales
Q Liu, J Li, B Liang, J Liu, W Sun, J He, Y Lei - Energy, 2023 - Elsevier
Imbibition oil recovery improves the recovery rate of low-permeability fractured reservoirs in
petroleum fields. However, there is a lack of research on complex wettability and …
petroleum fields. However, there is a lack of research on complex wettability and …
Minimal surfaces in porous media: Pore-scale imaging of multiphase flow in an altered-wettability Bentheimer sandstone
High-resolution x-ray imaging was used in combination with differential pressure
measurements to measure relative permeability and capillary pressure simultaneously …
measurements to measure relative permeability and capillary pressure simultaneously …
Pore‐scale observations of hydrogen trap** and migration in porous rock: Demonstrating the effect of Ostwald ripening
We use high‐resolution three‐dimensional X‐ray imaging to study hydrogen injection and
withdrawal in the pore space of Bentheimer sandstone. The results are compared with a …
withdrawal in the pore space of Bentheimer sandstone. The results are compared with a …
Pore-scale imaging and modelling of reactive flow in evolving porous media: Tracking the dynamics of the fluid–rock interface
Fluid–mineral and fluid–rock interfaces are key parameters controlling the reactivity and fate
of fluids in reservoir rocks and aquifers. The interface dynamics through space and time …
of fluids in reservoir rocks and aquifers. The interface dynamics through space and time …
Imaging and measurement of pore‐scale interfacial curvature to determine capillary pressure simultaneously with relative permeability
There are a number of challenges associated with the determination of relative permeability
and capillary pressure. It is difficult to measure both parameters simultaneously on the same …
and capillary pressure. It is difficult to measure both parameters simultaneously on the same …
Representative elementary volumes, hysteresis, and heterogeneity in multiphase flow from the pore to continuum scale
Representative elementary volumes (REVs) and heterogeneity are key concepts in
continuum multiphase flow, yet their manifestation from the pore‐scale and associated …
continuum multiphase flow, yet their manifestation from the pore‐scale and associated …
Pore geometry control of apparent wetting in porous media
Wettability, or preferential affinity of a fluid to a solid substrate in the presence of another
fluid, plays a critical role in the statics and dynamics of fluid-fluid displacement in porous …
fluid, plays a critical role in the statics and dynamics of fluid-fluid displacement in porous …
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 …