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  • Installation
  • Basic Usage
  • Module Reference
  • Examples
  • Issue Tracker
  • Get Help
  • 10 Steps to Learn OpenPNM
    • Numerical Python Primer
    • Generating Networks and Quick Visualization
    • Storage of Network Data and Topology
    • Network Representation, Queries, and Manipulation
    • Assigning Geometric Properties
    • Using Labels and Defining Domains
    • Creating Phases
    • Simulating Single Phase Transport
    • Simulating Invasion
    • Visualization options
  • Applications
    • Predicting absolute permeability
    • Adjusting Pore Size Distributions
    • Predicting dispersion coefficient
    • Finding Effective Diffusivity and Tortuosity of a Network
    • Predicting Formation Factor
    • Calibrating a Network Using Mercury Intrusion Data
    • Predicting Porosity
    • Obtaining Relative Diffusivity Curves
    • Predicting relative permeability
  • Reference
    • Pore-Scale Models
    • Settings Attribute Machinery
    • The Workspace and Projects
    • Managing Clustered Networks
    • Available Matrix Solvers
    • Steady State Transport
    • Explanation of Units
    • Reactive Transport
    • Size Factors and Transport Conductance
    • Transient Transport

Applications#

  • Predicting absolute permeability
  • Adjusting Pore Size Distributions
  • Predicting dispersion coefficient
  • Finding Effective Diffusivity and Tortuosity of a Network
  • Predicting Formation Factor
  • Calibrating a Network Using Mercury Intrusion Data
  • Predicting Porosity
  • Obtaining Relative Diffusivity Curves
  • Predicting relative permeability

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