Geological carbon storage : Subsurface seals and caprock integrity

Author(s)

    • Vialle, Stéphanie
    • Ajo-Franklin, Jonathan
    • Carey, J. William

Bibliographic Information

Geological carbon storage : Subsurface seals and caprock integrity

Stéphanie Vialle, Jonathan Ajo-Franklin, J. William Carey, editors

(Geophysical monograph, 238)

Wiley, 2019

Available at  / 1 libraries

Search this Book/Journal

Note

Includes bibliographical references and index

Description and Table of Contents

Description

Geological Carbon Storage Subsurface Seals and Caprock Integrity Seals and caprocks are an essential component of subsurface hydrogeological systems, guiding the movement and entrapment of hydrocarbon and other fluids. Geological Carbon Storage: Subsurface Seals and Caprock Integrity offers a survey of the wealth of recent scientific work on caprock integrity with a focus on the geological controls of permanent and safe carbon dioxide storage, and the commercial deployment of geological carbon storage. Volume highlights include: Low-permeability rock characterization from the pore scale to the core scale Flow and transport properties of low-permeability rocks Fundamentals of fracture generation, self-healing, and permeability Coupled geochemical, transport and geomechanical processes in caprock Analysis of caprock behavior from natural analogues Geochemical and geophysical monitoring techniques of caprock failure and integrity Potential environmental impacts of carbon dioxide migration on groundwater resources Carbon dioxide leakage mitigation and remediation techniques Geological Carbon Storage: Subsurface Seals and Caprock Integrity is an invaluable resource for geoscientists from academic and research institutions with interests in energy and environment-related problems, as well as professionals in the field. Book Review: William R. Green, Patrick Taylor, Sven Treitel, and Moritz Fliedner, (2020), "Reviews," The Leading Edge 39: 214-216 Geological Carbon Storage: Subsurface Seals and Caprock Integrity, edited by Stephanie Vialle, Jonathan Ajo-Franklin, and J. William Carey, ISBN 978-1-119-11864-0, 2018, American Geophysical Union and Wiley, 364 p., US$199.95 (print), US$159.99 (eBook). This volume is a part of the AGU/Wiley Geophysical Monograph Series. The editors assembled an international team of earth scientists who present a comprehensive approach to the major problem of placing unwanted and/or hazardous fluids beneath a cap rock seal to be impounded. The compact and informative preface depicts the nature of cap rocks and the problems that may occur over time or with a change in the formation of the cap rock. I have excerpted a quote from the preface that describes the scope of the volume in a concise and thorough matter. "Caprocks can be defined as a rock that prevents the flow of a given fluid at certain temperature, pressure, and chemical conditions. ... A fundamental understanding of these units and of their evolution over time in the context of subsurface carbon storage is still lacking." This volume describes the scope of current research being conducted on a global scale, with 31 of the 83 authors working outside of the United States. The studies vary but can be generalized as monitoring techniques for cap rock integrity and the consequence of the loss of that integrity. The preface ends by calling out important problems that remain to be answered. These include imaging cap rocks in situ, detecting subsurface leaks before they reach the surface, and remotely examining the state of the cap rock to avert any problems. Chapter 3 describes how newer methods are used to classify shale. These advanced techniques reveal previously unknown microscopic properties that complicate classification. This is an example of the more we know, the more we don't know. A sedimentologic study of the formation of shale (by far the major sedimentary rock and an important rock type) is described in Chapter 4. The authors use diagrammatic examples to illustrate how cap rocks may fail through imperfect seal between the drill and wall rock, capillary action, or a structural defect (fault). Also, the shale pore structures vary in size, and this affects the reservoir. There are descriptions of the pore structure in the Eagle Ford and Marcellus shales and several others. Pore structures are analyzed using state-of-the-art ultra-small-angle X-ray or neutron scattering. They determine that the overall porosity decreases nonlinearly with time. There are examples of cap rock performance under an array of diagnostic laboratory analyses and geologic field examples (e.g., Marcellus Formation). The importance of the sequestration of CO2 and other contaminants highlights the significance of this volume. The previous and following chapters illuminate the life history of the lithologic reservoir seal. I would like to call out Chapter 14 in which the authors illustrate the various mechanisms by which a seal can fail and Chapter 15 in which the authors address the general problems of the effect of CO2 sequestration on the environment. They establish a field test, consisting of a trailer and large tank of fluids with numerous monitoring instruments to replicate the effect of a controlled release of CO2-saturated water into a shallow aquifer. This chapter's extensive list of references will be of interest to petroleum engineers, rock mechanics, and environmentalists. The authors of this volume present a broad view of the underground storage of CO2. Nuclear waste and hydrocarbons are also considered for underground storage. There are laboratory, field, and in situ studies covering nearly all aspects of this problem. I cannot remember a study in which so many different earth science resources were applied to a single problem. The span of subjects varies from traditional geochemical analysis with the standard and latest methods in infrared and X-ray techniques, chemical and petroleum engineering, sedimentary mineralogy, hydrology, and geomechanical studies. This volume is essential to anyone working in this field as it brings several disciplines together to produce a comprehensive study of carbon sequestration. While the volume is well illustrated, there is a lack of color figures. Each chapter should have at least two color figures, or there should be several pages of color figures bound in the center of the volume. Many of the figures would be more meaningful if they had been rendered in color. Also, the acronyms are defined in the individual chapters, but it would be helpful to have a list of acronyms after the extensive index. I recommend this monograph to all earth scientists but especially petroleum engineers, structural geologists, mineralogists, and environmental scientists. Since these chapters cover a broad range of studies, it would be best if the reader has a broad background. - Patrick Taylor Davidsonville, Maryland

Table of Contents

Contributors vii Preface xi Part I: Caprock Characterization 1. Microstructural, Geomechanical, and Petrophysical Characterization of Shale Caprocks 3 David N. Dewhurst, Claudio Delle Piane, Lionel Esteban, Joel Sarout, Matthew Josh,Marina Pervukhina, and M. Ben Clennell 2. Transport in Tight Rocks 31 Marc Fleury and Etienne Brosse 3. Pore-to-Core Characterization of Shale Multiphysics 45 Thomas Dewers, Jason Heath, Hongkyu Yoon, Mathew Ingraham, Joseph Grigg, Peter Mozley, Enrico Quintana, and Zuleima Karpyn 4. Analysis of the Pore Structures of Shale Using Neutron and X-Ray Small Angle Scattering 71 Lawrence M. Anovitz and David R. Cole Part II: Fracture Generation, Permeability, and Geochemical Reactions in Damaged Shale 5. Fracture Initiation, Propagation, and Permeability Evolution 121 Russell L. Detwiler and Joseph P. Morris 6. Effect of Fracture Density on Effective Permeability of Matrix-Fracture System in Shale Formations 137 Li Chen, Jeffrey De'Haven Hyman, Zhou Lei, Ting Min, Qinjun Kang, Esteban Rougier, and Hari Viswanathan 7. Gas-Water-Mineral Reactivity in Caprocks: Measurements, Estimates, and Observations 147 Julie K. Pearce and Grant K.W. Dawson 8. Fluid-Rock Interactions in Clay-Rich Seals: Impact on Transport and Mechanical Properties 167 Elin Skurtveit, Rohaldin Miri, and Helge Hellevang 9. Coupled Processes in a Fractured Reactive System: A Dolomite Dissolution Study with Relevance to GCS Caprock Integrity 187 Jonathan Ajo-Franklin, Marco Voltolini, Sergi Molins, and Li Yang 10. Leakage Processes in Damaged Shale: In Situ Measurements of Permeability, CO2 Sorption Behavior, and Acoustic Properties J. William Carey, Ronny Pini, Manika Prasad, Luke P. Frash, and Sanyog Kumar 207 Part III: Monitoring Caprock Failure 11. In-Zone and Above-Zone Pressure Monitoring Methods for CO2 Geologic Storage 227 Seyyed A. Hosseini, Mahmood Shakiba, Alexander Sun, and Susan Hovorka 12. Monitoring and Modeling Caprock Integrity at the In Salah Carbon Dioxide Storage Site, Algeria 243 Donald W. Vasco, Robert C. Bissell, Bahman Bohloli, Thomas M. Daley, Alessandro Ferretti, William Foxall, Bettina P. Goertz-Allmann, Valeri Korneev, Joseph P. Morris, Volker Oye, Abe Ramirez, Antonio Pio Rinaldi, Alessio Rucci, Jonny Rutqvist, Josh White, and Rui Zhang 13. Evaluation of Perfluorocarbons (PFCs) as Tracers for CO2 Containment and Migration Monitoring 271 Matthew Myers and Cameron White Part IV: Environmental Impacts and Remediation Techniques 14. Migration and Leakage of CO2 from Deep Geological Storage Sites 285 Andreas Busch and Niko Kampman 15. A Review of Studies Examining the Potential for Groundwater Contamination from CO2 Sequestration 305 Charuleka Varadharajan, Ruth M. Tinnacher, Robert C. Trautz, Liange Zheng, Baptiste Dafflon, Yuxin Wu, Matthew T. Reagan, Jens T. Birkholzer, and J. William Carey 16. Review of CO2 Leakage Mitigation and Remediation Technologies 327 Cesar A. Castaneda-Herrera, Geoffrey W. Stevens, and Ralf R. Haese Index 339

by "Nielsen BookData"

Related Books: 1-1 of 1

Details

  • NCID
    BB28012550
  • ISBN
    • 9781119118640
  • Country Code
    us
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Hoboken, N.J.
  • Pages/Volumes
    xii, 352 p.
  • Size
    29 cm
  • Parent Bibliography ID
Page Top