UID:
edocfu_9961493295702883
Umfang:
1 online resource (169 pages)
Ausgabe:
1st ed.
ISBN:
9783031565250
Serie:
Springer Theses Series
Anmerkung:
Intro -- Supervisor's Foreword -- Abstract -- Acknowledgments -- Contents -- List of Figures -- List of Tables -- 1 Introduction -- 1.1 Pore-Pressure in Carbonates -- 1.2 Geomechanics Applied to Carbonate Reservoirs -- 1.3 Pore-Pressure and Stress Perturbation in Carbonate Rocks Near Salt Structures -- 1.4 Dissertation Outline -- 1.5 Applications in the Oil and Gas Industry -- References -- 2 Pore-Pressure for Carbonates -- 2.1 Pore-Pressure Prediction Methods -- 2.2 General Equations -- 2.3 Model One: A Pore-Pressure Equation for Carbonates -- 2.4 Model Two: Pore-Pressure Equation for Depleted Carbonate Reservoirs -- 2.5 Methodology to Apply the New Pore-Pressure Equations -- 2.6 Application Examples -- 2.6.1 Model One Case Study: Well A -- 2.6.2 Model One Case Study: Well B -- 2.6.3 Model Two Case Study: Well C -- 2.7 Conclusions -- References -- 3 Coupled Geomechanics and Fluid Flow in Naturally Fractured Reservoirs -- 3.1 Basic Equations -- 3.1.1 Momentum Balance -- 3.1.2 Mass Conservation -- 3.2 Coupled Geomechanics Dual-Porosity/Dual-Permeability Discrete Fracture Model by Lagrange Multipliers -- 3.2.1 Governing Equations -- 3.2.2 Variational Formulation -- 3.2.3 Discrete Problem -- 3.2.4 Discretization in Time -- 3.3 Code Verification -- 3.3.1 One-Dimensional Terzaghi's Problem -- 3.3.2 Three-Dimensional Cryer's Problem -- 3.3.3 Explicit Fracture Model Versus Discrete Fracture Model -- 3.3.4 A Discrete Fracture Network -- 3.3.5 Lamb's Problem -- 3.4 Model Results -- 3.5 Geomechanics in Carbonate Vuggy Reservoirs -- 3.5.1 Governing Equations -- 3.5.2 Weak Formulation -- 3.5.3 Coupled Geomechanics Single-Continuum DV Model New Results -- 3.6 Conclusions -- References -- 4 Rheology of Salt Rocks -- 4.1 Behavior of Salt Rock -- 4.2 General Governing Equations -- 4.3 Linear Viscoelasticity -- 4.3.1 Standard Linear Solid -- 4.3.2 Maxwell Model.
,
4.3.3 Kelvin-Voigt Model -- 4.4 Non-linear Viscoelasticity -- 4.4.1 Double Mechanism Creep Law (DM) -- 4.4.2 Generalized Norton's Power-Law Model (PL) -- 4.4.3 Multi-mechanism Deformation Model (MD) -- 4.5 Salt Models Comparison -- 4.6 Conclusions -- References -- 5 Coupled Poroelasticity Viscoelasticity Model -- 5.1 General Equations -- 5.2 Proposed Problem for the Dual-Continua/Salt Rheology Coupled Model -- 5.2.1 SLS Model with Poroelasticity Dual-Continua -- 5.2.2 DM Model with Poroelasticity Dual-Continua -- 5.2.3 PL Model with Poroelasticity Dual-Continua -- 5.2.4 MD Model with Poroelasticity Dual-Continua -- 5.3 Application Example -- 5.3.1 Case Study: Well D -- 5.4 Conclusions -- References -- 6 Conclusions -- 6.1 Recommendations -- 6.2 Future Research Work -- About the Author.
Weitere Ausg.:
ISBN 9783031565243
Sprache:
Englisch