Geological carbon storage : subsurface seals and caprock integrity /
Clasificación: | Libro Electrónico |
---|---|
Otros Autores: | , , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
[United States] :
John Wiley and Sons, Inc. : American Geophysical Union,
[2018]
|
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; TITLE PAGE; COPYRIGHT PAGE; CONTENTS; CONTRIBUTORS; PREFACE; PART I CAPROCK CHARACTERIZATION; CHAPTER 1 MICROSTRUCTURAL, GEOMECHANICAL, AND PETROPHYSICAL CHARACTERIZATION OF SHALE CAPROCKS; 1.1. INTRODUCTION; 1.2. SHALE PRESERVATION; 1.3. MINERALOGY AND MICROSTRUCTURE; 1.4. GEOMECHANICAL PROPERTIES; 1.5. POROSITY AND PERMEABILITY; 1.6. DIELECTRIC METHODS; 1.7. DISCUSSION; 1.8. SUMMARY; ACKNOWLEDGMENTS; REFERENCES; CHAPTER 2 TRANSPORT IN TIGHT ROCKS; 2.1. INTRODUCTION; 2.2. POROSITY AND DIFFUSION PROPERTIES; 2.3. PERMEABILITY; 2.4. ENTRY PRESSURE AND TWO-PHASE PROPERTIES.
- 2.5. CONCLUSIONREFERENCES; CHAPTER 3 PORE-TO-CORE CHARACTERIZATION OF SHALE MULTIPHYSICS; 3.1. INTRODUCTION; 3.2. BACKGROUND; 3.3. OPTICAL, EPIFLUORESCENCE, AND LASER CONFOCAL MICROSCOPY; 3.4. X-RAY COMPUTED TOMOGRAPHY: IMAGING MULTIPHYSICS IN SITU; 3.5. ELECTRON BEAM METHODS; 3.6. NEUTRON SCATTERING METHODS; 3.7. MECHANICAL PROPERTIES OF REPRESENTATIVE VOLUME ELEMENTS; 3.8. PUTTING IT BACK TOGETHER: UPSCALING TO CORE SCALE; 3.9. CONCLUSIONS AND FUTURE DIRECTIONS; ACKNOWLEDGMENTS; REFERENCES; CHAPTER 4 ANALYSIS OF THE PORE STRUCTURES OF SHALE USING NEUTRON AND X-RAY SMALL ANGLE SCATTERING.
- 4.1. INTRODUCTION4.2. SHALE CHARACTERISTICS RELEVANT TO SEAL INTEGRITY; 4.3. SCATTERING METHODS FOR ANALYSIS OF PORE STRUCTURES; 4.4. PUBLISHED WORK; 4.5. OM POROSITY EVOLUTION DUE TO SHALE REACTIONS; 4.6. SUMMARY AND OUTLOOK; ACKNOWLEDGMENTS; REFERENCES; PART II FRACTURE GENERATION, PERMEABILITY, AND GEOCHEMICAL REACTIONS IN DAMAGED SHALE; CHAPTER 5 FRACTURE INITIATION, PROPAGATION, AND PERMEABILITY EVOLUTION; 5.1. INTRODUCTION; 5.2. CONTAINMENT OF FLUID-DRIVEN FRACTURES; 5.3. REACTIVATION OF EXISTING FRACTURES AND FAULTS; 5.4. FRACTURE PERMEABILITY AND LEAKAGE; 5.5. DISCUSSION.
- 5.6. CONCLUDING REMARKSACKNOWLEDGMENTS; REFERENCES; CHAPTER 6 EFFECT OF FRACTURE DENSITY ON EFFECTIVE PERMEABILITY OF MATRIX-FRACTURE SYSTEM IN SHALE FORMATIONS; 6.1. INTRODUCTION; 6.2. NUMERICAL METHOD; 6.3. RESULTS AND DISCUSSIONS; 6.4. CONCLUSION; ACKNOWLEDGMENT; REFERENCES; CHAPTER 7 GAS-WATER-MINERAL REACTIVITY IN CAPROCKS: MEASUREMENTS, ESTIMATES, AND OBSERVATIONS; 7.1. INTRODUCTION; 7.2. GEOCHEMICAL REACTIVITY; 7.3. SUMMARY AND CONCLUSIONS; 7.4. FUTURE DIRECTIONS AND RECOMMENDATIONS; ACKNOWLEDGMENTS; REFERENCES.
- CHAPTER 8 FLUID-ROCK INTERACTIONS IN CLAY-RICH SEALS: IMPACT ON TRANSPORT AND MECHANICAL PROPERTIES8.1. INTRODUCTION; 8.2. TRANSPORT OF CO2 AND CO2-SATURATED WATER; 8.3. SEAL REACTIONS AND IMPLICATIONS FOR FLOW AND DEFORMATION; 8.4. EXAMPLES FROM SEALING UNITS IN THE NORTH SEA; 8.5. CONCLUDING REMARKS AND FUTURE DIRECTIONS; ACKNOWLEDGMENTS; REFERENCES; CHAPTER 9 COUPLED PROCESSES IN A FRACTURED REACTIVE SYSTEM: A DOLOMITE DISSOLUTION STUDY WITH RELEVANCE TO GCS CAPROCK INTEGRITY; 9.1. INTRODUCTION; 9.2. PRIOR EXPERIMENTS; 9.3. MODELS FOR COUPLED PROCESSES IN FRACTURES.