Fluid Flow in Fractured Rocks (Hardcover, 1st)

· 제목 : Fluid Flow in Fractured Rocks (Hardcover, 1st) 
· 분류 : 외국도서 > 과학/수학/생태 > 과학 > 지구과학 > 지질학
· ISBN : 9781119248019
· 쪽수 : 288쪽
· 출판일 : 2023-12-26

Preface

 

Chapter 1:        Genesis and Morphology of Fractures in Rock

1.1 What are Fractures, and Why are they Important?

1.2 Formation of Fractures in Rock

1.3 Morphology of Single Fractures

1.4 Morphology of Fracture Networks

 

Chapter 2:        Fluid Flow in a Single Fracture

2.1 Introduction

2.2 The Navier-Stokes Equations and the Cubic Law

2.3 The Stokes Equations

2.4 The Reynolds Lubrication Equation

2.5 Effect of Contact Area

2.6 Accuracy of the Lubrication Model

2.7 Fracture in a Permeable Matrix

2.8 Fracture filled with Porous or Granular Material

 

Chapter 3:        Effect of Stress on Fracture Transmissivity

3.1 Introduction

3.2 The Effect of Normal Stress on Fracture Deformation

3.3 Models for the Normal Stiffness of Rock Fractures

3.4 “Row of Elliptical Voids” Model for Fracture Transmissivity

3.5 Relation between Transmissivity and Mean Aperture during Normal Compression

3.6. Effect of Shear Deformation on Fracture Transmissivity

 

Chapter 4:        Fluid Flow through Fractures at Moderate to High Reynolds Numbers

4.1 Introduction

4.2 Approximate Analytical Solution for a Sinusoidal Fracture Aperture

4.3 Weak Inertia Regime and Forchheimer Regime

4.4 Verification of the Weak Inertia and Forchheimer Regimes

4.5 Experimental Data on Fluid Flow at Moderate to High Reynolds Numbers

4.6 Flow of Compressible Gases through Fractures

 

Chapter 5:        Thermo-Hydro-Chemical-Mechanical Effects on Fracture Transmissivity

5.1 Introduction

5.2 Fracture Contact

5.3 Pressure Dissolution

5.4 Diffusion Rates

5.5 Solute Precipitation

5.6 Aperture Changes

5.7 Relationship between Aperture, Contact Fraction, and Transmissivity

5.8 Numerical Simulations of Pressure Solution 5

5.9 Lehner-Leroy Model for Pressure Dissolution

5.10 Bernabé-Evans Model for Pressure Dissolution

5.11 Dissolution and Precipitation in Open and Closed Systems

 

Chapter 6:        Solute Transport in a Single Fracture

6.1 Introduction

6.2 Advection-Diffusion Equation

6.3 Taylor-Aris Problem in a Uniform Channel

6.4 Influence of Fracture Morphology on Solute Transport

6.5 Non-Fickian Transport in Rock Fractures

6.6 Influence of Adsorption, Matrix Diffusion, and Radioactive Decay

 

Chapter 7:        Analytical Models for the Permeability of a Fractured Rock Mass

7.1. Introduction

7.2. Snow’s Model of Planar Fractures of Infinite Extent in an Impermeable Matrix

7.3. Upper and Lower Bounds on the Effective Permeability

7.4. Spheroidal Inclusion Model of a Fractured Rock Mass

7.5. Effective Permeability in the Regime  

7.6. Effective Permeability in the Regime  

7.7. Semi-empirical Model of Mourzenko et al.

 

Chapter 8:        Fluid Flow in Geologically Realistic Fracture Networks

8.1 Introduction

8.2 Stochastically Generated Fracture Networks

8.3 Geomechanically Generated Fracture Networks

8.4 Intersections and Connectivity in Fracture Networks

8.5 Fracture Apertures in Discrete Fracture Networks

8.6 Numerical Computation of Fractured Rock Mass Permeability

8.7 Effect of Fracture Density on Equivalent Permeability

8.8 Effect of in situ Stresses on Equivalent Permeability

8.9 Channels and Preferential Flow Pathways

 

Chapter 9:        Dual-Porosity Models for Fractured-Porous Rocks

9.1 Introduction

9.2 Pressure Diffusion Equation for the Fractured Continuum

9.3 Fracture/Matrix Fluid Interaction Term

9.4 Equation for the Evolution of the Mean Pressure in the Matrix Blocks

9.5 Warren-Root Solution for Flow to a Well in a Dual-Porosity Medium   

9.6 Fully-Transient model for Matrix-to-Fracture Flow

9.7 Nonlinear Matrix-Fracture Transfer Model

9.8 Multi-phase Flow, Gravity Effects, and other Extensions

 

Chapter 10:      Matrix Block Shape Factors

10.1 Introduction

10.2 Approaches to Choosing the Shape Factor

10.3 Some Specific Results and General Theorems

10.4 Upper and Lower Bounds on the Shape Factor

10.5 Methodology for Numerical Calculation of the Shape Factor

10.6 Scaling Laws for Irregularly-Shaped Matrix Blocks

10.7 Shape Factor under Constant-flux Boundary Conditions

10.8 Constant-flux Shape Factor for a Brick-like Matrix Block

 

Chapter 11:      Solute Transport in Fractured Rock Masses

11.1 Introduction

11.2 Advection-Dispersion and Solute Transport Equations

11.3 Numerical Solution of the Advection-Dispersion and Solute Transport Equations

11.4 Non-Fickian Transport

11.5 Channel Models

11.6 Particle Tracking Methods

11.7 Continuous Time Random Walk Approach

11.8 Effects of Matrix Permeability

11.9 Effects of In Situ Stresses

 

Chapter 12:      Two-Phase Flow in Fractured Rocks

12.1. Introduction

12.2. Basic Concepts of Two-Phase Flow

12.3. Pruess-Tsang Model of Two-Phase Flow in a Single Fracture

12.4. Other Models and Observations of Two-Phase Flow in a Single Fracture

12.5. Dual-Porosity and Dual-Permeability Models for Two-Phase Flow

12.6. Discrete-Fracture Network Models for Two-Phase Flow in Fractured Rock Masses

 

List of Symbols

Index