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Dynamic effects in capillary pressure relationships for two-phase flow in porous media: Insights from bundle-of-tubes models and their implications
Michael Anthony Celia
, Helge K. Dahle
, S. Majid Hassanizadeh
Civil & Environmental Engineering
High Meadows Environmental Institute
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Dynamic effects in capillary pressure relationships for two-phase flow in porous media: Insights from bundle-of-tubes models and their implications'. Together they form a unique fingerprint.
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Keyphrases
Bundle-of-tubes Model
100%
Two-phase Flow in Porous Media
100%
Capillary Saturation
66%
Large-scale Impact
33%
Overall System
33%
Dynamic Capillary Pressure
33%
Two-phase Flow Measurement
33%
Non-wetting Fluid
33%
Static Condition
33%
Parallel Tubes
33%
Static Relationships
33%
Displacement Process
33%
Simple Bundle
33%
Earth and Planetary Sciences
Two Phase Flow
100%
Capillary Pressure
100%
Flow in Porous Medium
100%
Scale Effect
40%
Pore Scale
20%
Pore Space
20%
Multiphase Flow
20%
Material Science
Flow in Porous Medium
100%
Two Phase Flow
100%
Fluid-Fluid Interface
50%
Engineering
Dynamic Effect
100%
Dynamic Condition
33%
Non-Wetting
33%
Static Condition
33%
Additional Term
33%