EDP Sciences 1775411868 20260405 fre

laboutique.edpsciences.fr-002901 03 01 01 002901 03 9782759837526 15 9782759837526 10 EA 10 10 01 02 PROfil Les ouvrages de la collection « PROfil » ont pour vocation la transmission des savoirs professionnels dans différentes disciplines. Ils sont rédigés par des experts reconnus dans leurs domaines et contribuent à la formation et l'information des professionnels. 01 01 Geophysics in geothermal exploration A review 1 A01 01 A2352 Jean-Luc Mari Mari, Jean-Luc Jean-Luc Mari <p>Jean-Luc Mari est un géophysicien qui a mené une brillante carrière en géosciences appliquées. Diplômé de l’Institut de Physique du Globe de Strasbourg et de l’IFP School (Géosciences Pétrolières, spécialisation Géophysique, 1978), il a rejoint IFP Energies Nouvelles en 1979 en tant qu’ingénieur de recherche au sein du département de Géophysique. Il a dirigé et participé à des projets de recherche majeurs en imagerie sismique haute résolution, en surveillance des réservoirs et en développement d’outils de forage, en collaboration avec des partenaires industriels tels que GDF-Suez, CGG, Total et ELF Aquitaine.</p> <p>Jean-Luc Mari is a geophysicist with a distinguished career in applied geosciences. A graduate of the Institut de Physique du Globe de Strasbourg and IFP School (Petroleum Geosciences, major in Geophysics, 1978), he joined IFP Energies Nouvelles in 1979 as a research engineer in the Geophysics Department. He led and contributed to key research projects in high-resolution seismic imaging, reservoir monitoring, and borehole tool development, in collaboration with industrial partners such as GDF-Suez, CGG, Total, and ELF Aquitaine.</p> 2 A01 01 A2353 Geoffroy Paixach Paixach, Geoffroy Geoffroy Paixach <p>Geoffroy Paixach est géophysicien et diplômé de l'IFP School de Paris. Il a débuté sa carrière chez un opérateur pétrolier et gazier au Centre de recherche en géosciences de Londres, se concentrant sur la préservation de l'amplitude des traitements sismiques.</p><p>Au fil des ans, Geoffroy a occupé divers postes dans la caractérisation des réservoirs pour Beicip-Franlab, une filiale d'IFPEN. Geoffroy a travaillé dans le secteur de la microscopie électronique à balayage (CSEM) marine et dans le secteur sismique multi-clients, développant des programmes d'acquisition sismique offshore dans plusieurs pays.</p><p>Il a cofondé et dirigé une start-up spécialisée dans la simulation en temps réel pour la modélisation des bassins à Houston.</p><p>En 2025, il est devenu PDG de CFG Geothermal, une société de conseil et d'ingénierie en ressources géothermiques.</p><div><br></div> <p>Geoffroy Paixach is a geophysicist with a degree from the IFP School, Paris. He began his career with an Oil and Gas operator at the Geoscience Research Center in London, focusing on seismic processing amplitude preservation. Over the years, Geoffroy has held various positions in reservoir characterization for Beicip-Franlab, a subsidiary of IFPEN. Geoffroy worked in the Marine CSEM industry and the seismic multi-client industry, developing offshore seismic acquisition programs in multiple countries.</p><p>He co-founded and managed a startup specializing in real-time simulation for basin modeling in Houston.</p><p>In 2025, he became the Chief Executive Officer of CFG Geothermal, a geothermal resource consulting and engineering services firm.</p> 01 eng 08 298 03 01 24 Izibook:Subject Sciences de la Terre 24 Izibook:Subject Physique Générale 24 Izibook:SubjectAndCategoryAndTags |Sciences de la Terre| 24 Izibook:SubjectAndCategoryAndTags |Physique Générale| 20 subsurface characterization studies;surface seismic methods;electrical-electromagnetic methods 2D subsurface models;3D subsurface models;soil investigations;hydrogeological studies;site characterization;wind farms;oil industry;gas industry;Carbon Capture and Storage;CCS;geophysical methods;geothermal exploration;resource exploration;de-risking of drilling projects;geothermal assets;geothermal energy systems;active-passive seismic methods;Multiphysics approach;subsurface properties 10 2011 SCI055000 29 CLIL3058 01 530 05 06 06 03 00 <p>In subsurface characterization studies, surface seismic and electrical-electromagnetic methods are among the most widely used methods for creating 2D and 3D subsurface models. These methods play a growing role in soil investigations for hydrogeological studies, site characterization for wind farms, and the oil and gas industry, particularly in Carbon Capture and Storage (CCS).</p><p>The goal of this book is to provide a practical guide on how to apply geophysical methods in geothermal exploration, illustrated with real-world field examples. These methods support resource exploration, the de-risking of drilling projects, and the ongoing monitoring of geothermal assets.</p><p>The book begins with an introduction to geothermal energy systems. It then delves into geophysical methods, presenting the current state of knowledge and illustrating how electrical-electromagnetic and active-passive seismic methods can be combined into a Multiphysics approach for geothermal exploration.</p><p>Each method has unique strengths and limitations, responding to specific subsurface properties and operating at different scales, depths, and spatial resolutions. Therefore, selecting the most cost-effective and appropriate methods for a given geothermal prospect requires an integrated approach to optimize exploration success while minimizing risks.</p><p>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.</p><p>Each chapter includes brief theoretical concepts, mainly practical guidelines and, most importantly, real-world application examples. For this reason, the book can be used as a companion text for course lectures and continuing education seminars.</p><p>This book aims to promote the exchange of information among geologists, geophysicists, and engineers involved in the field of geothermal energy.</p><div><br></div> <p>In subsurface characterization studies, surface seismic and electrical-electromagnetic methods are among the most widely used methods for creating 2D and 3D subsurface models. These methods play a growing role in soil investigations for hydrogeological studies, site characterization for wind farms, and the oil and gas industry, particularly in Carbon Capture and Storage (CCS).</p><p>The goal of this book is to provide a practical guide on how to apply geophysical methods in geothermal exploration, illustrated with real-world field examples. These methods support resource exploration, the de-risking of drilling projects, and the ongoing monitoring of geothermal assets.</p><p>The book begins with an introduction to geothermal energy systems. It then delves into geophysical methods, presenting the current state of knowledge and illustrating how electrical-electromagnetic and active-passive seismic methods can be combined into a Multiphysics approach for geothermal exploration.</p><p>Each method has unique strengths and limitations, responding to specific subsurface properties and operating at different scales, depths, and spatial resolutions. Therefore, selecting the most cost-effective and appropriate methods for a given geothermal prospect requires an integrated approach to optimize exploration success while minimizing risks.</p><p>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.</p><p>Each chapter includes brief theoretical concepts, mainly practical guidelines and, most importantly, real-world application examples. For this reason, the book can be used as a companion text for course lectures and continuing education seminars.</p><p>This book aims to promote the exchange of information among geologists, geophysicists, and engineers involved in the field of geothermal energy.</p> 02 00 <p>The goal of this book is to provide a practical guide on how to apply geophysical methods in geothermal exploration, illustrated with real-world field examples. These methods support resource exploration, the de-risking of drilling projects, and the ongoing monitoring of geothermal assets.</p> 04 00 <p>p. 11 Prefaces</p><p>p. 13 Foreword&nbsp; J.-L. Mari and G. Paixach</p><p>p. 15 The authors</p><p>p.25 Introduction J.L. Mari and G. Paixach</p><p>p.31 Chapter 1 • Overview of the different geothermal systems: role of geophysics in exploration and production G. Paixach, H. Traineau, F. Bugarel, E. Lasne and C. Maïlhol</p><p>p. 51 Chapter 2 • Surface geophysical methods J.-L. Mari and G. Paixach</p><p>p. 115 Chapter 3 • Borehole geophysical methods J.L. Mari</p><p>p. 145 Chapter 4 • Towards a revisited geothermal conceptual model in the Upper Rhine Graben A. Genter, C. Baujard, C. Glaas and V. Maurer</p><p>p. 165 Chapter 5 • DEEP ERT/IP for geothermal exploration and de-risking A. Rosselli, C. Truffert, F. Barsuglia, F. Fischanger, A. Coletti, G. Morelli and S. Del Ghianda</p><p>p. 181 Chapter 6 • The use of passive seismic methods for Geothermal exploration and monitoring T. Kremer, J. M. Ars, T. Gaubert-Bastide, K. Khazraj and C. Voisin</p><p>p. 223 Chapter 7 • Seismic inversion and characterization applied to geothermal energy R. Baillet, T. Chrest, T. Defreminville and E. Masse</p><p>p. 241 Chapter 8 • Seismic anisotropy applied to geothermal prospection R. Baillet, N. Desgoutte, V.Thomas and J. Caudroit</p><p>p. 257 Chapter 9 • Defining high enthalpy geothermal drilling target with multi-physics integrated exploration program. Mayotte’s Petite-Terre Island case study A. Stopin, C. Dezayes and T. Farlotti</p><p>p. 275 Chapter 10 • Feasibility of monitoring cold fronts of geothermal doublets using 4D active electromagnetic techniques – a field trial in the Dogger play in the Paris Basin F. Dubois, A. Stopin, F. Bretaudeau and P. Wawrzyniak</p><p>p. 291 Synthesis G. Paixach and J.L. Mari</p><p>p. 297 Conclusion J.L. Mari and G. Paixach</p> 21 00 06 01 https://laboutique.edpsciences.fr/produit/1488/9782759837526/geophysics-in-geothermal-exploration 01 00 03 02 https://laboutique.edpsciences.fr/system/product_pictures/data/009/983/385/original/9782759837526-AGAP4_vignette.jpg 17 14 20250522T105423+0200 01 P1 EDP Sciences 01 01 P1 EDP Sciences 17 avenue du Hoggar - PA de Courtaboeuf - 91944 Les Ulis cedex A http://publications.edpsciences.org/ 04 11 00 20250526 01 00 20250526 19 00 20250526 2026 06 3052868830012 01 WORLD WORLD 08 EDP Sciences 04 01 00 20250526 03 01 D1 EDP Sciences 31 04 05 01 02 1 00 01 EUR