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Seismic Exploration of Hydrocarbons in Heterogeneous Reservoirs
New Theories, Methods and Applications
Presents the latest research in wave propagation theory, unconventional hydrocarbon resources, experimental study, multi-component seismic processing and imaging, rock physics modeling and quantitative seismic interpretation in heterogeneous reservoirs
Jing Ba (Author), José M. Carcione (Author), Qizhen Du (Author), Haibo Zhao (Author), Tobias Muller (Author)
9780124201514, Elsevier Science
Hardback, published 26 February 2015
370 pages
22.9 x 15.1 x 2.5 cm, 0.77 kg
"...provides a rich resource of theory, experimental data, thoughtful and reflective methodological considerations, and numerical examples. It is recommended to anyone interested in seismic exploration of the heterogeneous reservoirs." --Pure and Applied Geophysics "... an impressive amount of detail on recent developments in several areas of this now rapidly evolving field of research...a timely and important reference work...will be well received by those doing research in the techniques covered by this volume." --The Leading Edge
Seismic Exploration of Hydrocarbons in Heterogeneous Reservoirs: New Theories, Methods and Applications is based on the field research conducted over the past decade by an authoring team of five of the world’s leading geoscientists. In recent years, the exploration targets of world's oil companies have become more complex. The direct detection of hydrocarbons based on seismic wave data in heterogeneous oil/gas reservoirs has become a hot spot in the research of applied and exploration geophysics. The relevant theories, approaches and applications, which the authors have worked on for years and have established mature technical processes for industrial application, are of significant meaning to the further study and practice of engineers, researchers and students in related area.
1. Introduction. 2. Poro-elasticity theories and experiments for reservoir rocks. 3. Acoustics of partially saturated rocks: Experiments and theories. 4. Fine layering and fractures. Effective anisotropy. 5. Seismic wave models for fractured porous medium and applications. 6. Elastic wave joint imaging for complex reservoirs. 7. Quantitative seismic interpretation. 8. Case studies: Reservoir characterization for lithology, porosity, fluid and fractures.
Subject Areas: Volcanology & seismology [RBC]
