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Cover Essentials of Reservoir Engineering Foreword Preface Symbols and Units Contents Chapter 1 - Reservoir Rock Properties 1.1 Introduction 1.2 Convetional Core Analysis 1.3 Special Core Analysis (SCAL) 1.4 Rock Radioactivity 1.5 SEM (Scanning Electron Microscope) 1.6 Reservoir Applications Chapter 2 - Reservoir Fluid Properties 2.1 Introduction 2.2 Generalities 2.3 Units and Standard Conditions 2.4 Definitions 2.5 Basic Definitions: Oil FVF, Rs 2.6 Fluid Sampling 2.7 Black-Oil Concept 2.8 PVT Oil Study 2.9 PVT Gas Study 2.10 Analytical Analysis 2.11 Hydrocarbon Property Correlations 2.12 Asphaltenes 2.13 Gas Properties 2.14 Vapor Liquid Equilibrium (VLE) 2.15 Equationod stante (EOS) 2.16 Applications to Reservoir Engineering 2.17 Formation Water 2.18 Hydrates Chapter 3 - Fluid Flow in Reservoirs 3.1 Introduction 3.2 Viscosity 3.3 Darcy's Law 3.4 Radical Steady-state of an Incompressible Fluid Flo 3.5 Radical Pseudo Steady-state Fluid Flow 3.6 Diffusivity Equation 3.7 Solution for Radical Liquid Flow 3.8 Application of the Diffusivity Equation to the Well Flow 3.9 Well Flow in a Grid 3.10 Laminar Flow in Capillary Tubes Poiseuille's Law 3.11 Interference Phenomena Steady-state Small group of wells 3.12 Combined beds 3.13 Non-Darcy Flow 3.14 Superposition Principle Chapter 4 - Multiphase Flow in Reservoirs 4.1 Introduction 4.2 Multiphase Flow at Pore Scale 4.3 Multiphase Flow at Macroscopic Scale (Core, Block) 4.4 Darcy's Law Applied to Multiphase Flow 4.5 Relative Permeability 4.6 Potential 4.7 Fractured Reservoirs 4.8 Laboratory measurements 4.9 Frontal Displacement Theory, Buckley-Leverett equation 4.10 Applications Chapter 5 - Natural Drainage Mechanisms of Hydrocarbon Reservoirs 5.1 Introduction 5.2 Undersaturated Oil Reservoir 5.3 Dissolve Gas Expansion 5.4 Production Forecast 5.5 Natural Drainage Machanism of an Opened Reservoir 5.6 Generalized Material Balance Equation 5.7 Oil Saturation Calculation in the Oil Zone 5.8 Use of the Generalized Volumetric Material Balance Equation 5.9 PVT Properties for Material Balance Equation 5.10 Water Entries 5.11 Gas Reservoir Drainage 5.12 Sammary Chapter 6 - Reservoir Simulation 6.1 Generalities 6.2 Introduction to Reservoir Simulation 6.3 Transmissivity, Permeability, Mobility, Transmissibility 6.4 Matrix of Connection Values 6.5 Finite Difference Equations 6.6 Black Oil Model 6.7 Compositional Model 6.8 Fully Implicit versus IMPES or IMPEC 6.9 Treatment of Wells 6.10 Solver 6.11 Saturation Functions 6.12 Pressure Functions 6.13 Equilibration 6.14 Wells 6.15 Aquifer Modeling 6.16 Timestep Management 6.17 Special Topics 6.18 Conducting a reservoir simulation study 6.19 Concluding Remarks Appendix A Conversion Factors Appendix B Multiples Appendix C Darcy's Law for Gas Appendix D Gas m(p) Property Calculation Appendix E Applied Mathematics Appendix F Density, Pressure Gradient Appendix G Minimum Gas Flow Rate Chart for Liquid Removal Appendix H Thermodynamic Review Appendix I Application of the Ei(x) Funtion Appendix J Exponential Integral Table Appendix K Interference between wells distributed uniformly over a circular ring of radius r Appendix L Well Formulas Appendix M Hurst van Everdingen Water Influx Wd for Values of Dimensionless Time Appendix N Dimensionless Water Influx Wd for Values of Dimensionless Time References Author index Subject index
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