Passive Seismic Monitoring of Induced Seismicity: Fundamental Principles and Application to Energy Technologies...

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David W. Eaton (University of Calgary)

Passive Seismic Monitoring of Induced Seismicity

Fundamental Principles and Application to Energy Technologies

David W. Eaton (University of Calgary)

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English

Cambridge University Press
26 April 2018

Mining industry; Geophysics; Volcanology & seismology; Environmental monitoring; Mining technology & engineering

The past few decades have witnessed remarkable growth in the application of passive seismic monitoring to address a range of problems in geoscience and engineering, from large-scale tectonic studies to environmental investigations. Passive seismic methods are increasingly being used for surveillance of massive, multi-stage hydraulic fracturing and development of enhanced geothermal systems. The theoretical framework and techniques used in this emerging area draw on various established fields, such as earthquake seismology, exploration geophysics and rock mechanics. Based on university and industry courses developed by the author, this book reviews all the relevant research and technology to provide an introduction to the principles and applications of passive seismic monitoring. It integrates up-to-date case studies and interactive online exercises, making it a comprehensive and accessible resource for advanced students and researchers in geophysics and engineering, as well as industry practitioners.

By: David W. Eaton (University of Calgary)
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Dimensions: Height: 254mm, Width: 192mm, Spine: 22mm
Weight: 1.010kg
ISBN: 9781107145252
ISBN 10: 1107145252
Pages: 360
Publication Date: 26 April 2018
Audience: Professional and scholarly , College/higher education , Undergraduate , Further / Higher Education
Format: Hardback
Publisher's Status: Active

David W. Eaton is a Professor of Geophysics in the University of Calgary's Department of Geoscience where he served as Department Head from 2007 to 2012. He is presently co-director of the Microseismic Industry Consortium, a novel initiative dedicated to the advancement of research, education and technological innovations in microseismic methods and their practical applications for resource development. His current research is focused on microseismic monitoring and induced seismicity, intraplate earthquake swarms, and the lithosphere-asthenosphere boundary beneath continents.

Reviews for Passive Seismic Monitoring of Induced Seismicity: Fundamental Principles and Application to Energy Technologies

Advance praise: 'It is now well established that human activities in the subsurface create induced seismicity. While large events can be extremely problematic from both a seismic hazard and operational safety perspective, smaller induced events, known as microseismic events, can tell us a great deal about changes in the subsurface. Eaton provides a clear and comprehensive description of such seismicity, starting from first principles and then progressively taking the reader through to real examples and case studies. A focus is on seismicity associated with oil and gas exploitation, but the book will also appeal to scientists interested in seismicity in a range of other settings (e.g., geothermal, mining, etc.). Eaton has crafted an excellent seismology text for students and earthquake seismologists in general.' Michael Kendall, University of Bristol Advance praise: 'Passive Seismic Monitoring of Induced Seismicity is a comprehensive textbook covering basic theoretical concepts of seismic and ancillary topics through to practical implementation in industrial settings. The book is an essential reference text on this topical technology.' Shawn Maxwell, Itasca Microseismic and Geomechanical Evaluation Advance praise: 'This comprehensive text is a much-needed and timely overview of topics related to seismic monitoring of induced earthquakes. It not only provides a thorough treatment of how microseismic monitoring is done and the data are analyzed, it provides a valuable overview of how and why injection-induced seismicity occurs.' Mark Zoback, Stanford University