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020 | _z9780128221952 | ||
020 | _z012822195X | ||
020 |
_a9780128221969 _q(e-book) |
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020 | _a0128221968 | ||
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_a(OCoLC)1289926242 _z(OCoLC)1289811245 |
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_aOPELS _beng _erda _epn _cOPELS _dUKAHL _dOCLCO |
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049 | _aMAIN | ||
050 | 4 | _aTN870.5 | |
082 | 0 | 4 |
_a553.28 _223 _bBAI |
100 | 1 |
_aFjaer, Erling, _eauthor. |
|
245 | 1 | 0 | _aPetroleum related rock mechanics. |
250 |
_aThird edition / _bErling Fjær, R.M. Holt, A.M. Raaen, P. Horsrud. |
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260 |
_aCambridge : _bElsevier, _c2021. |
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300 |
_a1 online resource (1 volume) : _billustrations (black and white, and color). |
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490 | 1 |
_aDevelopments in petroleum science ; _vvolume 72. |
|
500 | _aPrevious edition: published as by Erling Fjær, R.M. Holt, P. Horsrud, A.M. Raaen & R. Risnes. 2008. | ||
505 | _aCover image Title page Table of Contents Copyright Biography Foreword to the 1992 edition Preface to the third edition Preface to the second edition Preface to the 1992 edition Chapter 1: Elasticity Abstract 1.1. Stress 1.2. Strain 1.3. Elastic moduli 1.4. Strain energy 1.5. Thermoelasticity 1.6. Poroelasticity 1.7. Anisotropy 1.8. Nonlinear elasticity 1.9. Time-dependent effects 1.10. Further reading References Chapter 2: Failure mechanics Abstract 2.1. Basic concepts 2.2. Tensile failure 2.3. Shear failure 2.4. Compaction failure 2.5. Failure criteria in three dimensions 2.6. Fluid effects 2.7. Presentation and interpretation of data from failure tests 2.8. Beyond the yield point 2.9. Failure of anisotropic and fractured rocks 2.10. Stress history effects References Chapter 3: Geological aspects of petroleum related rock mechanics Abstract 3.1. Underground stresses 3.2. Pore pressure 3.3. Sedimentological aspects 3.4. Mechanical properties of sedimentary rocks References Chapter 4: Stresses around boreholes. Borehole failure criteria Abstract 4.1. Stresses and strains in cylindrical coordinates 4.2. Stresses in a hollow cylinder 4.3. Elastic stresses around circular wells—the general solution 4.4. Poroelastic time-dependent effects 4.5. Borehole failure criteria 4.6. Elliptical borehole 4.7. Borehole in an anisotropic formation 4.8. Beyond failure initiation 4.9. Cased borehole 4.10. Spherical coordinates References Chapter 5: Elastic wave propagation in rocks Abstract 5.1. The wave equation 5.2. P- and S-waves 5.3. Elastic waves in porous materials 5.4. Attenuation 5.5. Anisotropy 5.6. Rock mechanics and rock acoustics 5.7. Reflections and refractions 5.8. Borehole acoustics 5.9. Seismics 5.10. Acoustic emission References Chapter 6: Rock models Abstract 6.1. Layered media 6.2. Models involving porosity only 6.3. Grain pack models 6.4. Models for cracks and other inclusions 6.5. Multicomponent models 6.6. Fractured rocks 6.7. Finite element analysis References Chapter 7: Mechanical properties and stress data from laboratory analysis Abstract 7.1. Core samples for rock mechanical laboratory analysis 7.2. Laboratory equipment 7.3. Laboratory tests for rock mechanical property determination 7.4. Laboratory tests for stress determination 7.5. Index tests and other characterisation tests References Chapter 8: Mechanical properties and in situ stresses from field data Abstract 8.1. Estimation of elastic parameters 8.2. Estimation of strength parameters 8.3. Estimation of in situ stresses References Chapter 9: Stability during and after drilling Abstract 9.1. Unstable boreholes: symptoms, reasons and consequences 9.2. Rock mechanics analysis of borehole stability 9.3. Time-delayed borehole failure 9.4. Interaction between shale and drilling fluid 9.5. Borehole stability analysis for well design: incorporating effects of nonlinear elasticity, plasticity and rock anisotropy 9.6. Use of pressure gradients 9.7. Beyond simple stability analysis 9.8. Stability issues in different lithologies 9.9. Drilling in depleted reservoirs 9.10. Shale as a barrier References Chapter 10: Solids production Abstract 10.1. Operational aspects of solids production 10.2. Sand 10.3. Chalk References Chapter 11: Mechanics of hydraulic fracturing Abstract 11.1. Conditions for tensile failure 11.2. Fracture initiation and formation breakdown 11.3. Fracture orientation, growth and confinement 11.4. Fracture size and shape 11.5. Fracture closure 11.6. Thermal effects on hydraulic fracturing 11.7. Fracturing in unconventional reservoirs 11.8. Microseismic monitoring of fracturing References Chapter 12: Reservoir geomechanics Abstract 12.1. Compaction and subsidence 12.2. Modelling of reservoir compaction 12.3. From compaction to subsidence 12.4. Geomechanical effects on reservoir performance 12.5. Well problems and reservoir geomechanics 12.6. Some field cases: subsidence and induced seismicity References Appendix A: Rock properties Abstract References Appendix B: SI metric conversion factors Abstract Appendix C: Mathematical background Abstract C.1. Introduction C.2. Matrices C.3. Vectors and coordinate transforms C.4. Tensors and coordinate transforms C.5. Eigenvalues, eigenvectors and diagonalisation C.6. Rotation of the coordinate system: the Euler angles C.7. Examples C.8. Matrix invariants C.9. Some trigonometric formulas C.10. The Voigt notation spelled out C.11. Elastic stability C.12. The Einstein summing convention and other notation conventions References Appendix D: Some relevant formulas Abstract D.1. Elasticity D.2. Elastic wave propagation in rocks D.3. Rock models D.4. Solids production D.5. Subsidence D.6. Permeability of tubes D.7. Vector operators in cylindrical coordinates References Appendix E: Abbreviations Appendix F: List of symbols Index | ||
506 | _aAccess restricted to subscribing institutions. | ||
520 | _aEngineers and geologists in the petroleum industry will find Petroleum Related Rock Mechanics, Third Edition, to be a powerful resource in providing a basis for rock mechanical knowledge, which can greatly assist in the understanding of field behavior, design of test programs, and the design of field operations. Not only does this text provide specific applications of rock mechanics used within the petroleum industry, it has a strong focus on basics like drilling, production, and reservoir engineering. Assessment of rock mechanical parameters is covered in depth, as is acoustic wave propagation in rocks, with possible link to 4D seismic as well as log interpretation. Petroleum Related Rock Mechanics, Third Edition, is updated to include new topics such as formation barriers around cased wells, finite element analysis, multicomponent models, acoustic emissions and elliptical holes. It also includes updated and expanded coverage of shale reservoirs, hydraulic fracturing, and carbon capture and sequestration. | ||
650 | 0 |
_aPetroleum _xGeology. |
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650 | 0 | _aRock mechanics. | |
700 | 1 |
_aHolt, R. M., _eauthor. |
|
700 | 1 |
_aRaaen, A. M., _eauthor. |
|
700 | 1 |
_aHorsrud, P., _eauthor. |
|
700 | 1 |
_aFjaer, Erling. _tPetroleum related rock mechanics. _sSecond edition. |
|
830 | 0 |
_aDevelopments in petroleum science ; _v72. |
|
856 | 4 | 0 |
_uhttps://ezproxy.lib.gla.ac.uk/login?url=https://www.sciencedirect.com/science/bookseries/03767361/72 _zConnect to e-book |
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