Geophysics and the Energy Transition
◆日本地質学会 第131年学術大会 特別割引セール開催中!:2024年10月18日(金)ご注文分まで
※上記表示の販売価格は割引適用後の価格です 未刊 ご予約承ります。 Author: Wilson, Malcolm (Consultant, Geophysics and CCS) / Davis, Tom (Professor Emeritus, Colorado School of Mines Department of Geophysics) / Landro, Martin (Department of Electronic Systems, Norwegian University of Science and Technology, Trondheim, Norway)(Ed Publisher: Elsevier USA ISBN: 9780323959414 Cover: PAPERBACK Date: 2024年10月 DESCRIPTION Geophysics and the Energy Transition involves four sections: What is the Energy Transition and why storage so important; selecting sites for storage; advanced monitoring technology; and moving forward to integrating Carbon Capture and Storage (CCS) within the Energy Transition. Geophysics will also play a role in finding and developing alternatives to fossil fuels such as natural hydrogen and geothermal using much of the knowledge gained from the CO2 storage industry. To provide the public and others with the confidence to move forward with a structured and cost-effective energy transition, this book provides the necessary evidence that we can store CO2 safely and effectively and use this as a significant component of the energy transition.?We can also find and store new energy sources. Geophysics and the Energy Transition is written by experts in the field who have practiced the science and engineering associated with the subsurface for years. CCS is an integral component of the new energy transition but the application of Geophysics in the future will extend well beyond CCS if we are going to transition successfully to a carbon neutral environment. Science, engineering, and technology applications are important for site selection, characterization and monitoring to assure safe storage in the subsurface and energy sustainability in the future.? TABLE OF CONTENTS Section 1: The Energy Transition: 1. Introduction to the Energy Transition 2. Technologies Involved in the Energy Transition 3. Preventing CO2 from Fossil Fuels from Reaching the Atmosphere 4. Subsurface CCS Section 2: Selecting Sites and Ensuring Effective Storage 5. An Engineering Perspective on the Need for Effective Management of Subsurface Carbon Storage 6. Rock Physics for Subsurface CCS Via Laboratory and Field Scale Data 7. The Geochemistry of Geosequestration 8. The Geomechanics of Subsurface CCS 9. Geophysical Technologies for CO2 Monitoring 10. CO2 and Hydrogen Storage: Field Studies Section 3: Site Studies of Advanced Technology and Broad Application of These Technologies 11. Weyburn Field, Williston Basin: Case Study 12. Vacuum Field, Permian Basin: Case Study 13. Northern Lights Project, Norway: CCS in Industrial Transformation 14. Aquistore Project, Canada: Case Study 15. New CCS projects in the Williston Basin, North Dakota, Montana: Case Study Section 4: Moving Forward 16. Expanding CCS opportunities Into Hallow Zones 17. Storage and Monitoring in Volcanic Zones 18. Lessons learned from Sleipner, Algeria, Snovhit, Ketzin, Quest, Decatur, Barendrecht, UK initiatives, Germany Oxyfuel, Kemper Co. Gasification. 19. Evolution of the Knowledge Base and Lessons Learned for Future CCS Subsurface Projects 20. Future Challenges and Opportunities for Geoscientists and Engineers
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