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A Darcy-Brinkman-Biot Approach to Modeling the Hydrology and Mechanics of Porous Media Containing Macropores and Deformable Microporous Regions
Francisco J. Carrillo,
Ian C. Bourg
Civil & Environmental Engineering
Chemical & Biological Engineering
High Meadows Environmental Institute
Princeton Institute for Computational Science and Engineering
Princeton Materials Institute
Research output
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Contribution to journal
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Article
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peer-review
41
Scopus citations
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Dive into the research topics of 'A Darcy-Brinkman-Biot Approach to Modeling the Hydrology and Mechanics of Porous Media Containing Macropores and Deformable Microporous Regions'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Macropore
100%
Sedimentary Rock
66%
Biofilm
33%
Fluid Flow
33%
Porewater
33%
Clay Swelling
33%
Navier-Stokes Equation
33%
Energy Technology
33%
Water Salinity
33%
Poroelasticity
33%
Water Technology
33%
Keyphrases
Darcy-Brinkman
100%
Soft Porous Material
33%
Hydrogel Membrane
33%
Parametric Relations
33%
Digital Rock Physics
33%
Clay Volume
33%
Pore Water Salinity
33%
Coupled System of Equations
33%
Chemo-mechanical Properties
33%
Material Science
Sedimentary Rock
100%
Volume Fraction
50%
Fluid Flow
50%
Hydrogel
50%
Biofilms
50%
Poroelasticity
50%
Engineering
Water Technology
33%
Biomedical Engineering
33%