In the geophysics of oil exploration and reservoir studies, the surface seismic method is the most commonly used method to obtain a subsurface model in 2 or 3 dimensions. This method plays an increasingly important role in soil investigations for geotechnical, hydrogeological and site characterization studies regarding seismic hazard issues. The goal of this book is to provide a practical guide, using examples from the field, to the application of seismic methods to surface imaging. After reviewing the current state of knowledge in seismic wave propagation, refraction and reflection seismic methods, the book aims to describe how seismic tomography and fullwave form inversion methods can be used to obtain seismic images of the subsurface. Through various synthetic and field examples, the book highlights the benefit of combining different sets of data: refracted waves with reflected waves, and body waves with surface waves. With field data targeting shallow structures, it shows how more accurate geophysical models can be obtained by using the proposed hybrid methods. Finally, it shows how the integration of seismic data (3D survey and VSP), logging data (acoustic logging) and core measurements, combined with a succession of specific and advanced processing techniques, enables the development of a 3D high resolution geological model in depth. In addition to these examples, the authors provide readers with guidelines to carry out these operations, in terms of acquisition, as well as processing and interpretation. In each chapter, the reader will find theoretical concepts, practical rules and, above all, actual application examples. For this reason, the book can be used as a text to accompany course lectures or continuing education seminars. This book aims to promote the exchange of information among geologists, geophysicists, and engineers in geotechnical fields.
Author(s): Jean-Luc Mari, Manuela Mendes
Publisher: EDP Sciences
Year: 2022
Language: English
Pages: 207
City: Paris
Cover
Contents
Foreword
J.-L. Mari, M. Mendes
Introduction
J.L. Mari, M. Mendes
1.
Wave propagation
J.-L. Mari
1.1 Seismic wave equation
1.2 Seismic methods
1.3 Example of field records
1.4 Wave separation
1.5 Conclusion
References
2.
Refraction surveying
J.-L. Mari
2.1 Refraction surveying: Plus-Minus and GRM methods
2.2 Amplitudes of refracted waves
2.3 Recommendations for refraction surveying
2.4 First example of a seismic refraction application: static corrections
2.5 Second example of a seismic refraction application: Hydrogeology
2.6 Conclusion
References
3.
Seismic Tomography
M. Mendes
3.1 Transmission tomography example: surface seismic field data
3.1.1 Geophysical survey
3.1.2 Tomographic methodology
3.1.3 Data pre-processing
3.1.4 Results and discussion
3.1.5 Conclusions
3.2 Reflection tomography example: cross-hole field data
3.2.1 Seismic survey
3.2.2 Data processing
3.2.3 General interpretation
3.2.4 Conclusions
3.3 Diffraction tomography example: Borehole field data
3.3.1 Vertical seismic profile (VSP) field data
3.3.2 Cross-hole field data
3.4 General conclusion
References
4.
Near-Surface Reflection surveying
J.-L. Mari
4.1 General notes about acquisition and survey design
4.2 Comments on the reflection seismic processing sequence
4.3 Near-surface imaging
4.4 A Hydrogeology example
4.5 Conclusion
References
5.
Full Waveform Inversion
H. Chauris
5.1 Overview
5.2 History
5.3 Formalism
5.4 Applicability and practical aspects
5.5 Examples
5.6 Conclusions
References
6.
Hybrid seismic imaging
M. Mendes, J.L. Mari, M. Hayet
6.1 Refraction-reflection imaging
6.2 Refraction-surface waves imaging
6.3 Conclusion
References
7.
Integrated Seismic Study
Focus on “Cigéo”, the French Geological Repository Project
J.L. Mari and B. Yven
7.1 Geological setting
7.2 Seismic designs and processing sequence
7.3 Depth conversion
7.4 Amplitude quality control
7.5 Q factor
7.6 Mechanical properties
7.7 Hydrogeological Study
7.8 Conclusion
Acknowledgements
References
Synthesis
J.L. Mari, M. Mendes, H. Chauris
Conclusion
J.L. Mari, M. Mendes
