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Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
by Soulaine, Cyprien
in Continuum modeling / Deformation / digital rock physics / Earth Sciences / Geophysics / Hydrology / Mathematical Physics / Microtomography / micro‐continuum / Modelling / Physics / pore‐scale / poromechanics / Porosity / porous and fractured media / Porous media / reactive transport modeling / Sciences of the Universe / water
2024
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Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
by Soulaine, Cyprien
in Continuum modeling / Deformation / digital rock physics / Earth Sciences / Geophysics / Hydrology / Mathematical Physics / Microtomography / micro‐continuum / Modelling / Physics / pore‐scale / poromechanics / Porosity / porous and fractured media / Porous media / reactive transport modeling / Sciences of the Universe / water
2024
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Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
by Soulaine, Cyprien
in Continuum modeling / Deformation / digital rock physics / Earth Sciences / Geophysics / Hydrology / Mathematical Physics / Microtomography / micro‐continuum / Modelling / Physics / pore‐scale / poromechanics / Porosity / porous and fractured media / Porous media / reactive transport modeling / Sciences of the Universe / water
2024

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Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media
Journal Article

Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media

Soulaine, Cyprien
2024
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Overview
Micro‐continuum models are versatile and powerful approaches for simulating coupled processes in two‐scale porous systems. Initially oriented for modeling static single‐phase flow in microtomography images with sub‐voxel porosity, the concept has been extended over the years to multi‐phase flow, reactive transport, and poromechanics. This paper introduces an integrated micro‐continuum framework to model coupled processes in porous media. It reviews state‐of‐the‐art models and discusses applications in geosciences including Digital Rock Physics with sub‐voxel porosity, moving fluid‐solid interface at the pore‐scale due to geochemical reactions, fracture‐matrix interactions, and solid deformation. Finally, the paper discusses future developments in micro‐continuum models. Key Points Micro‐continuum models are hybrid‐scale approaches for solving flow and transport in porous media State of the art micro‐continuum models handle full Temperature‐Hydrodynamics‐Mechanics‐Chemistry coupling in unsaturated environments Applications include Digital Rock Physics with sub‐voxel porosity, pore‐scale reactive transport, and poromechanics
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Publisher
John Wiley & Sons, Inc,American Geophysical Union,Wiley
Subject

Continuum modeling

/ Deformation

/ digital rock physics

/ Earth Sciences

/ Geophysics

/ Hydrology

/ Mathematical Physics

/ Microtomography

/ micro‐continuum

/ Modelling

/ Physics

/ pore‐scale

/ poromechanics

/ Porosity

/ porous and fractured media

/ Porous media

/ reactive transport modeling

/ Sciences of the Universe

/ water

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