05477nam 2200649Ia 450 991014413550332120230105174355.01-281-75203-797866117520330-470-38080-20-470-38079-9(CKB)1000000000539655(EBL)353346(OCoLC)646762029(SSID)ssj0000149543(PQKBManifestationID)11159687(PQKBTitleCode)TC0000149543(PQKBWorkID)10257315(PQKB)10752331(MiAaPQ)EBC353346(Au-PeEL)EBL353346(CaPaEBR)ebr10250340(CaONFJC)MIL175203(EXLCZ)99100000000053965520080215d2008 uy 0engur|n|---|||||txtccrEssentials of multiphase flow and transport in porous media[electronic resource] /George F. Pinder, William G. GrayHoboken, N.J. Wileyc20081 online resource (273 p.)Description based upon print version of record.0-470-31762-0 Includes bibliographical references and index.ESSENTIALS OF MULTIPHASE FLOW AND TRANSPORT IN POROUS MEDIA; CONTENTS; Preface; Acknowledgments; 1 Setting the Stage; 1.1 Introduction; 1.2 Phases and Porous Media; 1.3 Grain and Pore Size Distributions; 1.4 The Concept of Saturation; 1.5 The Concept of Pressure; 1.6 Surface Tension Considerations; 1.7 Concept of Concentration; 1.8 Summary; 1.9 Exercises; Bibliography; 2 Mass Conservation Equations; 2.1 Introduction; 2.2 Microscale Mass Conservation; 2.3 Integral Forms of Mass Conservation; 2.4 Integral Theorems; 2.4.1 Divergence Theorem; 2.4.2 Transport Theorem2.5 Point Forms of Mass Conservation2.6 The Macroscale Perspective; 2.6.1 The Representative Elementary Volume; 2.6.2 Global and Local Coordinate Systems; 2.6.3 Macroscopic Variables; 2.6.4 Definitions of Macroscale Quantities; 2.6.5 Summary of Macroscale Quantities; 2.7 The Averaging Theorems; 2.7.1 Spatial Averaging Theorem; 2.7.2 Temporal Averaging Theorem; 2.8 Macroscale Mass Conservation; 2.8.1 Macroscale Point Forms; 2.8.2 Integral Forms; 2.9 Applications; 2.9.1 Integral Analysis; 2.9.2 Point Analysis; 2.10 Summary; 2.11 Exercises; Bibliography; 3 Flow Equations; 3.1 Introduction3.2 Darcy's Experiments3.3 Fluid Properties; 3.4 Equations of State for Fluids; 3.4.1 Mass Fraction; 3.4.2 Mass Density and Pressure; 3.4.3 Fluid Viscosity; 3.5 Hydraulic Potential; 3.5.1 Hydrostatic Force and Hydraulic Head; 3.5.2 Derivatives of Hydraulic Head; 3.6 Single-Phase Fluid Flow; 3.6.1 Darcy's Law; 3.6.2 Hydraulic Conductivity and Permeability; 3.6.3 Derivation of Groundwater Flow Equation; 3.6.4 Recapitulation of the Derivation; 3.6.5 Initial and Boundary Conditions; 3.6.6 Two-Dimensional Flow; 3.7 Two-Phase Immiscible Flow; 3.7.1 Derivation of Flow Equations3.7.2 Observations on the p(c)-s(w) Relationship3.7.3 Formulas for the p(c)-s(w) Relationship; 3.7.4 Observations of the k(α)(rel)-s(w) Relationship; 3.7.5 Formulas for the k(α)(rel)-s(w) Relation; 3.7.6 Special Cases of Multiphase Flow; 3.8 The Buckley-Leverett Analysis; 3.8.1 Fractional Flow; 3.8.2 Derivation of the Buckley-Leverett Equation; 3.8.3 Solution of the Buckley-Leverett Equation; 3.9 Summary; 3.10 Exercises; Bibliography; 4 Mass Transport Equations; 4.1 Introduction; 4.2 Velocity in the Species Transport Equations; 4.2.1 Direct Approach; 4.2.2 Rigorous Approach4.2.3 Distribution Approach4.2.4 Summary; 4.3 Closure Relations for the Dispersion Vector; 4.4 Chemical Reaction Rates; 4.5 Interphase Transfer Terms; 4.5.1 Kinetic Formulation; 4.5.2 Equilibrium Formulation; 4.5.3 Summary: Kinetic vs. Equilibrium Formulations; 4.6 Initial and Boundary Conditions; 4.7 Conclusion; 4.8 Exercises; Bibliography; 5 Simulation; 5.1 1-D Simulation of Air-Water Flow; 5.1.1 Drainage in a Homogeneous Soil; 5.1.2 Drainage in a Heterogeneous Soil; 5.1.3 Imbibition in Homogeneous Soil; 5.2 1-D Simulation of DNAPL-Water Flow5.2.1 Primary DNAPL Imbibition in Homogeneous SoilLearn the fundamental concepts that underlie the physics of multiphase flow and transport in porous media with the information in Essentials of Multiphase Flow in Porous Media, which demonstrates the mathematical-physical ways to express and address multiphase flow problems. Find a logical, step-by-step introduction to everything from the simple concepts to the advanced equations useful for addressing real-world problems like infiltration, groundwater contamination, and movement of non-aqueous phase liquids. Discover and apply the governing equations for application to these and other pPorous materialsFluid dynamicsMathematical modelsMultiphase flowMathematical modelsPorous materialsFluid dynamicsMathematical models.Multiphase flowMathematical models.624.1/513Pinder George Francis1942-21006Gray William G(William Guerin),1948-447822MiAaPQMiAaPQMiAaPQBOOK9910144135503321Essentials of multiphase flow and transport in porous media2280667UNINA