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Characterization, Prediction and Modelling of the Crustal Present-Day In-Situ Stresses
◆JpGU2025 セール開催中!:2025年6月30日(月)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 出版済み 3-5週間でお届けいたします。 Author: R. Goteti/ T. Finkbeiner/ M. O. Ziegler/ C. Massiot (eds.) Publisher: Geological Society ISBN: 9781786206145 Cover: HARDCOVER Date: 2024年07月 DESCRIPTION Geomechanics has a marked impact on the safe and sustainable use of the subsurface. Along with an ongoing demand for hydrocarbon resources there is also a growing emphasis on sustainable subsurface exploitation and development, storage of carbon, hydrogen, energy and (radioactive) waste, as well as sustainable geothermal resource utilization. Such activities are accompanied by an ever-increasing need for higher resolution, fit-for-purpose solutions, workflows and approaches to constrain present-day subsurface stresses and minimize associated uncertainties. Building high fidelity geomechanical-numerical models provides critical input and understanding for diverse engineering designs and construction as well as geoscience applications. Such models greatly contribute towards uncertainty reduction, risk management and risk mitigation during the operational life of a given subsurface development and associated infrastructures (both on and below the surface). This Special Publication contains contributions detailing the latest efforts and perspectives in present-day in-situ stress characterization, prediction and modelling from the borehole to plate-tectonic scale. There is particular emphasis on the uncertainties that are often associated with data and models. TABLE OF CONTENTS Ziegler, M., Finkbeiner, T., Massiot, C. and Goteti, R. The quest for high fidelity, accurate geomechanical models and the research leading to it Lundstern, J.-E. Recent advances in characterizing the crustal stress field and future applications of stress data: perspectives from North America Coblentz, D., van Wijk, J., Carmichael, J., Johnson, C., Delorey, A., Chai, C., Maceira, M. and Richardson, R. M. New approaches to an old problem: addressing spatial gaps in the World Stress Map Ask, M., Pierdominici, S. and Rosberg, J.-E. Image analysis of acoustic data and interpretation of rock stress orientations for geothermal exploration in Gothenburg borehole GE-1, SW Sweden Lundstern, J.-E., Beauce, E. and Teran, O. J. The importance of nodal plane orientation diversity for earthquake focal mechanism stress inversions Baro?, I., Melichar, R., Sokol, L., Rowberry, M., Plan, L. and Stemberk, J. 3D active fault kinematic behaviour reveals rapidly alternating near-surface stress states in the Eastern Alps Musolino, M., King, R., Holford, S. and Hillis, R. Quantifying inaccuracies in vertical stress determination methods in sedimentary basins; a case study of deep coal-bearing strata in the Cooper Basin, Australia Kurison, C. and Woldeamanuel, M. B. Natural fracture density controls productivity in shale Reservoirs Pena Clavijo, S., Dash, A., Baby, G., Alafifi, A. M. and Finkbeiner, T. Modelling principal stress orientations in the Arabian Plate using plate velocities Gradmann, S., Olesen, O., Keiding, M. and Maystrenko, Y. The 3D stress field of Nordland, northern Norway - insights from numerical modelling Gallardo-Giozza, G., Espinoza, D. N. and Torres-Verdin, C. Effects of elastic anisotropic models on the prediction of horizontal stresses and hydraulic fracture geometry
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