The theory of the Earth's climate evolution based on universal chemical-physical laws of matter-energy transformation is presented in the book. It shows how the process of Earth's core separation has led to formation and evolution of the hydrosphere and atmosphere. Having analyzed the processes of heat transfer in the atmosphere, the writers developed the adiabatic theory of the greenhouse effect, which was applied for analysis of climatic changes on the Earth. The influence of changes in climate on formation of mineral deposits and development of life on Earth was considered and presented based on modeling of typical climatic regimes. It shows that the anthropogenic effect on the Earth's global temperature is negligible in comparison with the effect of global forces of nature. * Presents the theory of Earth's evolution based on the laws of chemical-density differentiation of the origin of the Earth* Discusses the adiabatic theory of the greenhouse effect with quantitative estimates of the natural and anthropogenic influences on Earth's climates* Describes the quantitative description of the evolution of the Earth's climate throughout geologic history and prediction of the future of the Earth's climate* Investigates the global forces of nature driving the Earth's climate
Written by three of the world’s most renowned petroleum and environmental engineers, Probability in Petroleum and Environmental Engineering is the first book to offer the practicing engineer and engineering student new cutting-edge techniques for prediction and forecasting in petroleum engineering and environmental management. The authors combine a rigorous, yet easy-to-understand, approach to probability and how it is applied to petroleum and environmental engineering to solve multiple problems that engineers or geologists face every day.
The theory of the Earth's climate evolution based on universal chemical-physical laws of matter-energy transformation is presented in the book. It shows how the process of Earth's core separation has led to formation and evolution of the hydrosphere and atmosphere. Having analyzed the processes of heat transfer in the atmosphere, the writers developed the adiabatic theory of the greenhouse effect, which was applied for analysis of climatic changes on the Earth. The influence of changes in climate on formation of mineral deposits and development of life on Earth was considered and presented based on modeling of typical climatic regimes. It shows that the anthropogenic effect on the Earth's global temperature is negligible in comparison with the effect of global forces of nature. * Presents the theory of Earth's evolution based on the laws of chemical-density differentiation of the origin of the Earth* Discusses the adiabatic theory of the greenhouse effect with quantitative estimates of the natural and anthropogenic influences on Earth's climates* Describes the quantitative description of the evolution of the Earth's climate throughout geologic history and prediction of the future of the Earth's climate* Investigates the global forces of nature driving the Earth's climate
This breakthrough new book may help save countless lives and avoid enormous losses. It presents a methodology for using gas migration to predict earthquakes and explosive gas buildup. Using rigorous scientific investigation and documented worldwide case histories, this remarkable book presents compelling evidence showing that changes in gas rates, composition, and migration accompany the tectronic events preceding earthquakes and their associated seismic events, such as volcanoes and tsunamis. Because these gas parameters are detectable and measurable, they provide an early warning of seismic activity.Gas Migration is the first book to accumulate, analyze and apply the interdisciplinary knowledge on gas migration and detail its connection to tectronic, seismic, and geologic phenomena. It combines geological, geochemical, geophysical, seismological, and petroleum engineering insights to demonstrate how gas migration and its associated phenomena can be used in earthquake and environmental geohazard identification and prediction. Topics include-· Tectonics and Earthquakes· Gas Migration at Plate Boundaries· Surface Soil-Gas Surveys· Faults and Petroleum Reservoirs· Earthquake Precursors· Whispering Gases· Paths and Mechanics of Gas Migration· Subsidence, Gas Migration, and Seismic Activity· And much moreWith this information, environmental specialists, civil engineers, petroleum geologists, seismologists, and urban planners now have a new and powerful conceptual basis and tool for understanding and perhaps even predicting gas explosions and earthquakes.
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