Aadnoy B.S. Petroleum rock mechanics: drilling operations and well design / B.S.Aadnøy, R.Looyeh. - Oxford: Elsevier/GPP, 2011. - xxvi, 350 p.: ill. - Bibliogr.: p.319-322. - Ind.: p.343-350. - Пер. загл.: Геомеханика с приложением к проблемам нефтяных пластов: бурение и проектирование скважин. - ISBN 978-0-12-385546-6  Место хранения:   02 | Отделение ГПНТБ СО РАН | Новосибирск

Оглавление / Contents

Preface ...................................................... xiii Acknowledgements ............................................... xv About the Authors ............................................ xvii List of Symbols ............................................... xxi PART ONE - FUNDAMENTALS OF SOLID MECHANICS 1 Stress/Strain Definitions and Components ..................... 3 1.1 General Concept ......................................... 3 1.2 Definition of Stress .................................... 4 1.3 Stress Components ....................................... 5 1.4 Definition of Strain .................................... 7 1.5 Strain Components ....................................... 8 Example ..................................................... 10 Problems .................................................... 10 2 Stress and Strain Transformation ............................ 13 2.1 Introduction ........................................... 13 2.2 Transformation Principles .............................. 13 2.3 Two-Dimensional Stress Transformation .................. 15 2.4 Stress Transformation in Space ......................... 18 2.5 Tensor of Stress Components ............................ 21 2.6 Strain Transformation in Space ......................... 22 Example ..................................................... 23 Problems .................................................... 24 3 Principal and Deviatoric Stresses and Strains ............... 27 3.1 Introduction ........................................... 27 3.2 Principal Stresses ..................................... 27 3.3 Average and Deviatoric Stresses ........................ 29 3.4 General Interpretation of Principal Stresses ........... 30 3.5 Two-Dimensional Stress Analysis ........................ 32 3.6 Properties of Strain ................................... 35 Examples .................................................... 36 Problems .................................................... 38 4 Theory of Elasticity ........................................ 41 4.1 Introduction ........................................... 41 4.2 Materials Behavior ..................................... 41 4.3 Hooke's Law ............................................ 43 4.4 Hooke's Law in Shear ................................... 43 4.5 Analysis of Structures ................................. 44 4.6 Theory of Inelasticity ................................. 45 4.7 Constitutive Relation for Rocks ........................ 45 Example ..................................................... 48 Problems .................................................... 49 5 Failure Criteria ............................................ 53 5.1 Introduction ........................................... 53 5.2 Failure Criteria for Rock Materials .................... 53 5.3 The Von-Mises Failure Criterion ........................ 54 5.4 Mohr-Coulomb Failure Criterion ......................... 54 5.5 The Griffith Failure Criterion ......................... 57 5.6 Hoek-Brown Failure Criterion ........................... 57 5.7 Druker-Prager Failure Criterion ........................ 58 5.8 Mogi-Coulomb Failure Criterion ......................... 58 Example ..................................................... 60 Problems .................................................... 61 PART TWO - PETROLEUM ROCK MECHANICS 6 Introduction to Petroleum Rock Mechanics .................... 65 6.1 Introduction ........................................... 65 6.2 Definition and Classification of Rocks ................. 65 6.3 Petroleum Rock Mechanics ............................... 67 6.4 Why Study Stress in Rocks? ............................. 72 6.5 Units of Measurement ................................... 74 Example ..................................................... 76 Problems .................................................... 76 7 Porous Rocks and Effective Stresses ......................... 77 7.1 Introduction ........................................... 77 7.2 Anisotropy and Inhomogeneity ........................... 77 7.3 Anisotropic Rocks, Transversal Isotropy ................ 79 7.3.1 Anisotropic rock properties ..................... 79 7.3.2 Properties of sedimentary rocks ................. 82 7.3.3 Effects of anisotropic rock properties .......... 84 7.3.4 Horizontal wellbore in laminated sedimentary rocks ........................................... 85 7.3.1 Porous Rock ..................................... 95 7.5 Formation Pore Pressure ................................ 97 7.6 Effective Stress ....................................... 97 7.7 Formation Porosity and Permeability ................... 100 Example .................................................... 104 Problems ................................................... 104 8 In-situ Stress ............................................. 107 8.1 Introduction .......................................... 107 8.2 Definitions ........................................... 108 8.3 ln-situ Principal Stresses ............................ 108 8.4 Measurement and Estimation of In-Situ Stresses ........ 109 8.5 Probabilistic Analysis of Stress Data ................. 114 8.6 Bounds on ln-situ Stresses ............................ 114 8.6.1 Problem statement .............................. 115 8.6.2 The in-situ stresses ........................... 116 8.6.3 Bounds on the in-situ stresses ................. 117 8.6.4 Application of the model ....................... 118 8.7 Stress Directions from Fracture Traces ................ 120 8.7.1 Traces from fractures .......................... 120 8.7.2 Interpretation of fracture traces .............. 122 Examples ................................................... 123 Problems ................................................... 126 9 Rock Strength and Rock Failure ............................. 131 9.1 Introduction .......................................... 131 9.2 Strength of Rock Material ............................. 131 9.3 Empirical Correlations ................................ 132 9.4 Formation Fracture Gradient ........................... 134 9.4.1 Direct method .................................. 135 9.4.2 Indirect method ................................ 137 9.5 Laboratory Testing of Intact Rocks .................... 139 9.6 Rock Tensile Strength ................................. 142 9.7 Rock Shear Strength ................................... 144 9.7.1 Triaxial test method ........................... 144 9.7.2 Failure criteria ............................... 146 Examples ................................................... 147 Problems ................................................... 148 10 Stresses Around a Wellbore ................................. 151 10.1 Introduction .......................................... 151 10.2 State of Stresses Around a Wellbore ................... 151 10.3 Properties of Rock Formation Around a Wellbore ........ 153 10.4 Equations Governing Stress Analysis ................... 154 10.4.1 Equations of equilibrium ....................... 154 10.4.2 Equation of compatibility ...................... 155 10.4.3 Constitutive relations ......................... 156 10.4.4 Boundary conditions ............................ 158 10.5 Analysis of Stresses Around a Wellbore ................ 158 10.5.1 Definition of the problem ...................... 158 10.5.2 General assumptions ............................ 159 10.5.3 Analysis methodology ........................... 159 10.5.4 Stress transformation .......................... 160 10.6 Isotropic Solution .................................... 162 10.6.1 Governing Equations ............................ 162 10.6.2 Boundary Conditions ............................ 163 10.7 Anisotropic Solution .................................. 164 10.7.1 Governing Equations ............................ 164 10.7.2 Boundary Conditions ............................ 165 Examples ................................................... 169 Problems ................................................... 170 11 Wellbore Instability Analysis .............................. 173 11.1 Introduction .......................................... 173 11.2 Analysis Procedure .................................... 174 11.3 Wellbore Fracturing Pressure .......................... 177 11.4 Wellbore Collapse Pressure ............................ 180 11.5 Instability Analysis of Multi-lateral Boreholes ....... 183 11.6 Instability Analysis of Adjacent Boreholes ............ 191 11.7 Instability Analysis of Underbalanced Drilling ........ 196 11.8 Shallow Fracturing .................................... 200 11.8.1 Depth-normalized shallow fracture data ......... 200 11.8.2 Estimation of shallow fracture gradient for a semi-sub and a jack-up rig ................... 203 11.9 General Fracturing Model .............................. 203 11.9.1 Introduction ................................... 203 11.9.2 Development of the model ....................... 204 11.9.3 Field cases .................................... 209 11.10 Compaction Analysis for High-Pressure High- Temperature Reservoirs ............................... 210 11.11 Breakthrough of a Relief Well into a Blowing Well .... 216 11.11.1 Fracturing at a distance ...................... 217 11.11.2 Collapse when communicating ................... 217 11.11.3 Information from a drillability analysis ...... 220 11.12 Fracture Model for Load History and Temperature ...... 223 11.12.1 The effect of Poisson's ratio ................. 224 11.12.2 The effect of temperature ..................... 225 11.12.3 Initial conditions and history matching ....... 225 11.12.4 Application of the new model .................. 228 11.13 Effects of Flow Induced Stresses ..................... 229 11.14 Sand Production Modeling ............................. 233 11.14.1 Sand production during reservoir depletion .... 234 11.14.2 Sand Production in Elliptical Wellbores ....... 239 Examples ................................................... 245 Problems ................................................... 254 12 Wellbore Instability Analysis Using Inversion Technique .... 257 12.1 Introduction .......................................... 257 12.2 Definitions ........................................... 257 12.3 The Inversion Technique ............................... 257 12.4 Geological Aspects .................................... 260 12.4.1 First scenario - isotropic stress state ........ 260 12.4.2 Second scenario - anisotropic stress state ..... 261 12.5 Analysis Constraints .................................. 261 12.6 Inversion from Fracture Data and Image Logs ........... 263 Examples ................................................... 264 Problems ................................................... 273 13 Wellbore Instability Analysis Using Quantitative Risk Assessment ................................................. 275 13.1 Introduction .......................................... 275 13.2 Deterministic Analysis Versus Probabilistic Assessment ............................................ 275 13.3 Why Probabilistic Assessment? ......................... 276 13.4 Quantitative Risk Assessment (QRA) .................... 277 13.4.1 The QRA process ................................ 277 13.4.2 Key physical parameters ........................ 279 13.4.3 Limit state function ........................... 281 13.4.4 Probability failure function ................... 282 13.4.5 Sensitivity analysis ........................... 283 13.5 Quantitative Risk Assessment of Underbalanced Drilling .............................................. 284 Example .................................................... 288 Problems ................................................... 294 14 The Effect of Mud Lossess on Wellbore Stability ............ 297 14.1 Introduction .......................................... 297 14.2 Mud Losses During Drilling ............................ 297 14.2.1 Experimental work .............................. 297 14.2.2 The fracturing models .......................... 300 14.2.3 Description of the fracturing process .......... 301 14.2.4 Properties of the mud cake ..................... 303 14.2.5 Shallow well field case ........................ 304 14.2.6 Recommended mud recipes ........................ 305 14.3 Interpretation of the Leak-off Tests .................. 306 14.3.1 Experiments with continuous pumping ............ 307 14.3.2 What happens at the fracture failure ........... 309 14.3.3 Leak-off test interpretation ................... 310 14.3.4 Irreversibility of the fracturing process ...... 313 14.3.5 Summary of the key findings .................... 314 14.4 Future Development for Wellbore Stability ............. 314 Examples ................................................... 315 Problems ................................................... 316 References ................................................. 319 Appendix A - Mechanical Properties of Rocks ................... 323 Appendix В - The Poisson's Ratio Effect ....................... 327 Appendix С - Model for the Stress Bridge ...................... 331 Appendix D - Glossary of Terms ................................ 335 Index ......................................................... 343