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Enhancing Immiscible Fluid Displacement in Porous Media by Capillary Pressure Discontinuities
C. A. Chung
, Hung Yu Lin
機械工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
8
引文 斯高帕斯(Scopus)
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指紋
研究計畫
(1)
指紋
深入研究「Enhancing Immiscible Fluid Displacement in Porous Media by Capillary Pressure Discontinuities」主題。共同形成了獨特的指紋。
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Keyphrases
Porous Media
100%
Capillary Pressure
100%
Pressure Discontinuity
100%
Immiscible Fluid Displacement
100%
Fluid Displacement
66%
Pressure Drop
33%
Large Pore
33%
Industrial Application
33%
Region Feature
33%
Small Pore
33%
Viscous Fingering
33%
Biological Filtration
33%
Linear Regression
16%
Viscosity
16%
Pore Region
16%
Injection Well
16%
Fuel Cell
16%
Relative Location
16%
Glass Beads
16%
Capillary
16%
Suitable Method
16%
Upstream Region
16%
Experimental Apparatus
16%
Video Camera
16%
Fluid Transport
16%
Fingering
16%
Linear Cell
16%
Silicone Oil
16%
Carbon Capture
16%
Mobility Ratio
16%
Ramified
16%
Heterogeneous Porous Media
16%
Fingered Flow
16%
Residual Saturation
16%
Media Interface
16%
Gas Reservoir
16%
Production Well
16%
Relative Length
16%
Displacement Front
16%
Viscous Pressure
16%
Enhanced Oil Recovery
16%
Finger Blood Flow
16%
Packing System
16%
Oil Reservoir Management
16%
Optimal Displacement
16%
Two Parallel Plates
16%
Engineering
Fluid Displacement
100%
Pressure Drop
33%
Industrial Applications
33%
Viscous Fingering
33%
Biofiltration
33%
Displaced Fluid
33%
Time History
16%
Fluid Viscosity
16%
Mm Diameter
16%
Video Camera
16%
Relative Location
16%
Silicone Oil
16%
Carbon Capture
16%
Smallest Feature
16%
Residual Saturation
16%
Reservoir Management
16%
Gas Reservoir
16%
Oil Reservoir
16%
Enhanced Oil Recovery
16%
Mobility Ratio
16%
Parallel Plate
16%
Glass Bead
16%
Fuel Cell
16%
Earth and Planetary Sciences
Immiscible Fluid
100%
Capillarity
100%
Biofiltration
33%
Experimental Study
16%
Parallel Plate
16%
Reservoir Management
16%
Experimental Apparatus
16%
Enhanced Oil Recovery
16%
Carbon Capture and Storage
16%