ÍNDICE: Preface. Chapter 1 Overview. 1. Introduction. 2. Synopses of TopicsCovered in Various Chapters. Chapter 2 Transport Properties of Porous Media. 1. Introduction. 2. Permeability of Porous Media Based on the Bundle of Tortuous Leaky Tubes Model. 3. Permeability of Porous Media Undergoing Alteration byScale Deposition. 4. Temperature Effect on Permeability. 5. Effects of Other Factors on Permeability. 6. Exercises. Chapter 3 Macroscopic Transport Equations. 1. Introductiion. 2. Representative Elementary Volume. 4. Mass-Weighted Volume Averaging Rule. 5. Surface-Area Averaging Rules. 6. Applications of Volume and Surface Averaging Rules. 7. Double-decomposition for Turbulent Processesin Porous Media. 8. Tortuosity Effect. 9. Macroscopic Transport Equations by Control Volume Analysis. 10. Generalized Volume-Averaged Transport Equations. 11. Exercises. Chapter 4 Scaling and Correlation of Transport in Porous Media.1. Introduction. 2. Dimensional and Inspectional Analyses Methods. 3. Scaling. 4.Exercises. Chapter 5 Fluid Motion in Porous Media. 1. Introduction. 2. Flow Potential. 3. Modification of Darcys Law for Bulk- vs. Fluid-Volume Average Pressures. 4. Macroscopic Equation of Motion from the Control Volume Approach and Dimensional Analysis. 5. Modification of Darcys Law for the Threshold Pressure Gradient. 6. Convenient Formulations of the Forchheimer Equation. 7. Determination of the Parameters of the Forchheimer Equation. 8. Flow Demarcation Criteria. 9. Entropy Generation in Porous Media. 10. Viscous Dissipation in Porous Media. 11. Generalized Darcys Law of Control Volume Analysis. 12. Equationof Motion for Non-Newtonian Fluids. 13. Exercises. Chapter 6 Gas Transport inTight Porous Media. 1. Introduction. 2. Gas Flow through a Capillary Hydraulic Tube. 3. Relationship between Transports Expressed on Different Bases. 4. The Mean-Free-Path of Molecules: Fixed Vs. Variable Cross-Section Hard Sphere. 5. The Knudsen Number. 6. Flow Regimes and Gas Transport at Isothermal Conditions. 7. Gas Transport at Nonisothermal Conditions. 8. Unified Hagen-Poiseuille-Type Equation for Apparent Gas Permeability. 9. Single-Component Gas Flow. 10.Multi-Component Gas Flow. 11. Effect of Different Flow Regimes Flow Path-Extended Klinkenberg Equation. 12. Effect of Pore-Size Distribution on Gas Flow through Porous Media. 13. Exercises. Chapter 7 Fluid Transport through Porous Media. 1. Introduction. 2. Coupling Single-Phase Mass and Momentum Balance Equations. 3. Cylindrical Leaky-Tank Reservoir Model Including the Non-Darcy Effect. 4. Coupling Two-Phase Mass and Momentum Balance Equations for Immiscible Displacement. 5. Potential Flow Problems in Porous Media. 6. Streamline/Streamtube Formulation and Front Tracking. 7. Exercises. Chapter 8 Parameters of Fluid Transfer in Porous Media. 1. Introduction. 2. Wettability and Wettability Index. 3. Capillary Pressure. 4. Work of Fluid Displacement. 5. Temperature Effecton Wettability Related Properties of Porous Me
- ISBN: 978-0-470-64995-4
- Editorial: John Wiley & Sons
- Encuadernacion: Cartoné
- Páginas: 488
- Fecha Publicación: 12/08/2011
- Nº Volúmenes: 1
- Idioma: Inglés