Creation of a dual-porosity and dual-depth micromodel for the study of multiphase flow in complex porous media.

@article{Yun2017CreationOA,
  title={Creation of a dual-porosity and dual-depth micromodel for the study of multiphase flow in complex porous media.},
  author={Wonjin Yun and Cynthia M. Ross and Sophie Roman and Anthony R. Kovscek},
  journal={Lab on a chip},
  year={2017},
  volume={17 8},
  pages={
          1462-1474
        }
}
Silicon-based microfluidic devices, so-called micromodels in this application, are particularly useful laboratory tools for the direct visualization of fluid flow revealing pore-scale mechanisms controlling flow and transport phenomena in natural porous media. Current microfluidic devices with uniform etched depths, however, are limited when representing complex geometries such as the multiple-scale pore sizes common in carbonate rocks. In this study, we successfully developed optimized… 
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References

SHOWING 1-10 OF 33 REFERENCES
Creation of a dual-porosity micromodel for pore-level visualization of multiphase flow
Improved Glass Micromodel Methods for Studies of Flow and Transport in Fractured Porous Media
TLDR
The improved micromodel method provides a unique tool for exploring some of the previously unrecognized flow and transport processes in fractured porous media and is directed at providing microscale explanations to some currently unresolved flow and Transport issues important in predicting the larger-scale flow processes.
Site‐Selective In Situ Grown Calcium Carbonate Micromodels with Tunable Geometry, Porosity, and Wettability
Micromodels with simplified porous microfluidic systems are widely used to mimic the underground oil-reservoir environment for multiphase flow studies, enhanced oil recovery, and reservoir network
A 2.5-D glass micromodel for investigation of multi-phase flow in porous media.
TLDR
The 2.5-D micromodel can better represent the 3-D features of multi-phase flow in real porous media, as demonstrated in this paper with three different examples.
A Review of Micromodels and Their Use in Two-Phase Flow Studies
TLDR
Micromodels have been applied to the study of two-phase displacement processes, measurements of fluid–fluid interfacial area and phase saturation, measured of relative permeability, and theStudy of enhanced oil recovery.
Microvisual investigation of polymer retention on the homogeneous pore network of a micromodel
A micromodel investigation of two‐phase matrix‐fracture transfer mechanisms
[1] Micromodels employing a two-dimensional representation of pore space were used to observe directly (via microscope) water imbibition into a matrix and matrix-fracture interactions between wetting
Particle velocimetry analysis of immiscible two-phase flow in micromodels
The Impact of Sub-Resolution Porosity of X-ray Microtomography Images on the Permeability
There is growing interest in using advanced imaging techniques to describe the complex pore-space of natural rocks at resolutions that allow for quantitative assessment of the flow and transport
A pore-level scenario for the development of mixed-wettability in oil reservoirs
Understanding the role of thin films in porous media is vital if wettability is to be elucidated at the pore level. The type and thickness of films coating pore walls determines reservoir wettability
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