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基于岩土介质三维孔隙结构的两相流模型
Translated title of the contribution
:
Two-phase flow model based on 3D pore structure of geomaterials
Peng Wei Zhang
, Li Ming Hu
,
Jay N. Meegoda
, Michael A. Celia
Civil and Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
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Dive into the research topics of 'Two-phase flow model based on 3D pore structure of geomaterials'. Together they form a unique fingerprint.
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Keyphrases
Geomaterials
100%
Two-phase Flow Model
100%
Pore Connectivity
100%
3D Pore Structure
100%
Pore Network Model
60%
Equivalent Pore
60%
Microflow
40%
Residual Saturation
40%
Underground Reservoir
40%
Flow Mechanism
40%
Pore Size Distribution
20%
Pore Geometry
20%
Spatial Correlation
20%
Flow in Porous Media
20%
Coordination number
20%
Micropore
20%
Scaling Method
20%
Flow Simulation
20%
Tortuosity
20%
Shale Gas Exploitation
20%
Shale Matrix
20%
Apparent Permeability
20%
Breakthrough Curve
20%
Permeability Test
20%
Relative Permeability Curve
20%
Preferential Flow
20%
Hydraulic Parameters
20%
Pore Structure Model
20%
Wetting Phase
20%
Complex Pore Structure
20%
Macroparameters
20%
Complex Porous Media
20%
Structure Connectivity
20%
Engineering
Two-Phase Flow
100%
Macroscale
100%
Network Model
100%
Flow Model
100%
Flow Mechanism
66%
Residual Saturation
66%
Underground Reservoirs
66%
Flow Simulation
33%
Pore Geometry
33%
Spatial Correlation
33%
Shale Gas
33%
Flow in Porous Medium
33%
Model Structure
33%
Micropore
33%
Relative Permeability
33%
Breakthrough Curve
33%
Hydraulic Parameter
33%
Material Science
Natural Material
100%
Two Phase Flow
100%
Pore Structure
100%
Hydraulics
25%
Pore Size Distribution
25%
Shale Gas
25%
Flow in Porous Medium
25%
Earth and Planetary Sciences
Natural Material
100%
Two Phase Flow
100%
Tortuosity
25%
Breakthrough Curve
25%
Shale Gas
25%
Preferential Flow
25%
Flow in Porous Medium
25%