Description
Book SynopsisWave propagation is central to all areas of petroleum engineering, e.g.
Table of ContentsPreface xxi
Acknowledgements xxiii
1 Overview and Fundamental Ideas 1
1.1 The Classical Wave Equation 2
1.2 Fundamental Representation 7
1.3 Separation of Variables and Eigenfunction Expansions 8
1.4 Standing Versus Propagating Waves 16
1.5 Laplace Transforms 20
1.6 Fourier Transforms 26
1.7 External Forces Versus Boundary Conditions 30
1.8 Point Force and Dipole Wave Excitation 42
1.9 First-Order Partial Differential Equations 46
1.10 References 49
2 Kinematic Wave Theory 50
2.1 Whitham's Theory in Nondissipative Media 51
2.2 Simple Attenuation Modeling 57
2.3 KWT in Homogeneous Dissipative Media 60
2.4 High-Order Kinematic Wave Th eory 64
2.5 Effect of Low-Order Nonuniformities 70
2.6 Three-Dimensional Kinematic Wave Theory 76
2.7 References 80
3 Examples from Classical Mechanics 82
3.1 Example 3-1. Lateral Vibration of Simple Beams 82
3.2 Example 3-2. Acoustic Waves in Waveguides 85
3.3 Example 3-3. Gravity-Capillary Waves in Deep Water 96
3.4 Example 3-4. Fluid-Solid Interaction – Waves on Elastic Membranes 100
3.5 Example 3-5. Problems in Hydrodynamic Stability 104
3.6 References 106
4 Drillstring Vibrations: Classic Ideas and Modern Approaches 109
4.1 Typical Downhole Vibration Environment 110
4.2 Axial Vibrations 123
4.3 Lateral Bending Vibrations 184
4.4 Torsional and Whirling Vibrations 216
4.5 Coupled Axial, Torsional and Lateral Vibrations 227
4.6 References 248
5 Mud Acoustics in Modern Drilling 257
5.1 Governing Lagrangian Equations 258
5.2 Governing Eulerian Equations 267
5.3 Transient Finite Diff erencing Modeling 272
5.4 Swab-Surge Modeling 275
5.5 MWD Mud Pulse Telemetry 278
5.6 Recent MWD Developments 294
5.7 References 303
6 Geophysical Ray Tracing 306
6.1 Classical Wave Modeling – Eikonal Methods and Ray Tracing 307
6.2 Fermat’s Principal of Least Time (via Calculus of Variations) 310
6.3 Fermat’s Principle Revisited Via Kinematic Wave Th eory 312
6.4 Modeling Wave Dissipation 313
6.5 Ray Tracing Over Large Space-Time Scales 317
6.6 Subtle High-Order Eff ects 320
6.7 Travel-Time Modeling 324
6.8 References 329
7 Wave and Current Interaction in the Ocean 331
7.1 Wave Kinematics and Energy Summary 331
7.2 Sources of Hydrodynamic Loading 334
7.3 Instabilities Due to Heterogeneity 334
7.4 References 337
8 Borehole Electromagnetics - Diffusive and Propagation Transients 338
8.1 Induction and Propagation Resistivity 339
8.2 Conductive Mud Eff ects in Wireline and MWD Logging 344
8.3 Longitudinal Magnetic Fields 346
8.4 Apparent Anisotropic Resistivities for Electromagnetic Logging Tools in Horizontal Wells 349
8.5 Borehole Eff ects – Invasion and Eccentricity 356
8.6 References 357
9 Reservoir Engineering – Steady, Diff usive and Propagation Models 358
9.1 Buckley-Leverett Multiphase Flow 358
9.2 References 366
10 Borehole Acoustics - New Approaches to Old Problems 367
10.1 Stoneley Waves in Permeable Wells - Background 368
10.2 Stoneley Wave Kinematics and Dynamics 372
10.3 Eff ects of Borehole Eccentricity 384
10.4 References 391
Cumulative References 394
Index 410
About the Author 419
