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This book describes the origin and characteristics of the Earth's thermal field, thermal flow propagation and thermal phenomena of the Earth. It presents common geothermal problems and methodologies, with numerous examples from different regions worldwide.
This book describes origin and characteristics of the Earth's thermal field, thermal flow propagation and some thermal phenomena in the Earth. Description of thermal properties of rocks and methods of thermal field measurements in boreholes, underground, at near-surface conditions enables to understand the principles of temperature field acquisition and geothermal model development. Processing and interpretation of geothermal data are shown on numerous field examples from different regions of the world. The book warps, for instance, such fields as analysis of thermal regime of the Earth's crust, evolution and thermodynamic conditions of the magma-ocean and early Earth atmosphere, thermal properties of permafrost, thermal waters, geysers and mud volcanoes, methods of Curie discontinuity construction, quantitative interpretation of thermal anomalies, examination of some nonlinear effects, and integration of geothermal data with other geophysical methods.
This book is intended for students and researchers in the field of Earth Sciences and Environment studying thermal processes in the Earth and in the subsurface. It will be useful for specialists applying thermal field analysis in petroleum, water and ore geophysics, environmental and ecological studies, archaeological prospection and climate of the past.
Unique presentation of the most frequent geothermal problems and methodologies Application methods are highlighted with numerous examples from different regions worldwide Of particular value to specialists in thermal field analysis, ore geophysics and archaeological prospection Includes supplementary material: sn.pub/extras
Contenu
Introduction.- 1. Thermal Field of the Earth.- 2. Thermal Properties of Rocks and Density of Fluids.- 3. Methods of Thermal Measurements.- 4. Temperature Anomalies Associated with Some Natural Phenomenon.- 5. Thermal Regime of Permafrost Regions.- 6. Investigation of Deep Lithosphere Structures.- 7. Interpretation of Thermal Measurements.- 8. Temperature Investigations in Petroleum Industry.- 9. Temperature Examination in Hydrology.- 10. Near-Structure Temperature Measurements.- 11. Paleoclimate and Present Climate Warming Trends.- 12. Influence of Temperature Changes to Other Fields.- 13. Integration of Thermal Observations with Other Geophysical Methods.