Geophysics and Geosequestration

doi:10.1017/9781316480724

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Geophysics and Geosequestration

Geophysics and Geosequestration

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Ayani, Mohit and Grana, Dario 2020. Statistical rock physics inversion of elastic and electrical properties for CO2 sequestration studies. Geophysical Journal International, Vol. 223, Issue. 1, p. 707.

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Ringrose, Philip 2020. How to Store CO2 Underground: Insights from early-mover CCS Projects. p. 85.

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Edited by Thomas L. Davis, Colorado School of Mines, Martin Landrø, Norwegian University of Science and Technology, Trondheim, Malcolm Wilson, New World Orange BioFuels

Publisher: Cambridge University Press
Online publication date: April 2019
Print publication year: 2019
Online ISBN: 9781316480724
DOI: https://doi.org/10.1017/9781316480724

Subjects: Earth and Environmental Sciences, Climatology and Climate Change, Solid Earth Geophysics

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Geophysics and Geosequestration
Edited by Thomas L. Davis, Martin Landrø, Malcolm Wilson
Online ISBN: 9781316480724

Book DOI: https://doi.org/10.1017/9781316480724
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Geosequestration involves the deep geological storage of carbon dioxide from major industrial sources, providing a potential solution for reducing the rate of increase of atmospheric concentrations of carbon dioxide and mitigating climate change. This volume provides an overview of the major geophysical techniques and analysis methods for monitoring the movement and predictability of carbon dioxide plumes underground. Comprising chapters from eminent researchers, the book is illustrated with practical examples and case studies of active projects and government initiatives, and discusses their successes and remaining challenges. A key case study from Norway demonstrates how governments and other stake-holders could estimate storage capacity and design storage projects that meet the requirements of regulatory authorities. Presenting reasons for embracing geosequestration, technical best practice for carbon management, and outlooks for the future, this volume provides a key reference for academic researchers, industry practitioners and graduate students looking to gain insight into subsurface carbon management.

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Geophysics and Geosequestration

This book has been cited by the following publications. This list is generated based on data provided by CrossRef.

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Contents

Geophysics and Geosequestration
pp i-ii

Geophysics and Geosequestration - Title page
pp iii-iii

Copyright page
pp iv-iv

Contents
pp v-vi

Contributors
pp vii-viii

Preface
pp ix-x

Acknowledgments
pp xi-xi

Abbreviations
pp xii-xii

Part I - Introduction
pp 1-70

Chapter 1 - Climate Change and the Role of Carbon Capture and Storage in Mitigation
pp 1-10

Chapter 2 - The Role of Geophysics in Carbon Capture and Storage
pp 11-53

Chapter 3 - Goals of CO2 Monitoring
pp 54-70

Part II - Geophysical Techniques
pp 71-194

Chapter 4 - Rock Physics of CO2 Storage Monitoring in Porous Media
pp 71-82

Chapter 5 - Multicomponent Seismic Monitoring
pp 83-92

Chapter 6 - Monitoring the Deformation Associated with the Geological Storage of CO2
pp 93-114

Chapter 7 - Gravity
pp 115-133

Chapter 8 - Estimating Saturation and Density Changes Caused by CO2 Injection at Sleipner
pp 134-153

Appendix A: Using a Simple Q-Model to Calibrate Near versus Far Offset Stacks
pp 151-151

Appendix B: Using Backus Averaging to Estimate Time-Lapse Response of a Multilayered CO2 Storage Site
pp 151-152

Chapter 9 - Electrical and Electromagnetic Methods
pp 154-167

Chapter 10 - Microseismic Imaging of CO2 Injection
pp 168-180

Chapter 11 - Well Logging
pp 181-194

Part III - Case Studies
pp 195-370

Chapter 12 - Offshore Storage of CO2 in Norway
pp 195-208

Chapter 13 - Twenty Years of Monitoring CO2 Injection at Sleipner
pp 209-234

Chapter 14 - Case Studies of the Value of 4D, Multicomponent Seismic Monitoring in CO2 Enhanced Oil Recovery and Geosequestration
pp 235-256

Chapter 15 - Integrated Geophysical Characterization and Monitoring at the Aquistore CO2 Storage Site
pp 257-279

Chapter 16 - Development and Analysis of a Geostatic Model for Shallow CO2 Injection at the Field Research Station, Southern Alberta, Canada
pp 280-296

Chapter 17 - Seismic and Electrical Resistivity Tomography 3D Monitoring at the Ketzin Pilot Storage Site in Germany
pp 297-318

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