£64.99
£64.99
In situ stress is vital for hydrocarbon exploration. This book presents methods for predicting its distribution in complex reservoirs, providing a basis for well placement, fracturing design, and development plans, combining the latest research with practical applications.
In situ stress has been proven to be of great significance for hydrocarbon exploration and development, especially for deep hydrocarbon reservoirs, unconventional hydrocarbon reservoirs, and reservoirs with particularly complex geological structures, which have become a frontier topic in the world and a major topic in the petroleum industry. The clear distribution of the in-situ stress field can provide an important basis for well displacement, the design of fracturing transformation and production increase and the development plan of the oilfield.
This book introduces a set of methods for predicting the comprehensive distribution of in situ stress in deep fault block reservoirs and expounds in detail the geological and geomechanical modeling methods, the main controlling factors of rock mechanical parameters and the distribution of the in-situ stress field, as well as the application of relevant research in the prediction of natural fractures in reservoirs, hydraulic fracturing prediction and engineering parameter design.
This book not only summarizes the latest research results on the theoretical understanding and analysis methods of in situ stress in the world but also carries out detailed applied research in full combination with the actual situation of the oilfield. It can be used as an important text for higher education students and professionals in academia, research, and industry.
For millennia, Indigenous Australians have engineered the landscape with sophisticated knowledge. This book recognizes their ingenuity, grounded in sustainability and respect, and presents a much-needed challenge to a Western engineering worldview.
Climate change is one of the greatest challenges threatening Earth. Using a multidisciplinary approach, this textbook combines the scientific principles of climate change with the Water-Energy-Food-Health (WEFH) Nexus to help develop long-term strategies for the future.
This book deepens the theoretical understanding of mesoscale dynamics with new research results. By integrating theory with practice, it introduces forecast methods for rainstorms and other disastrous weathers. For operational forecasters, researchers, and students.
This book focuses on the physical processes in the World Ocean which regulate natural climate variability. It analyses Atlantic and Indo-Pacific signals and assesses the ocean’s role in the recent hiatus of global warming and the probability of abrupt climate change.
Good EIA reports are crucial for sustainable decision-making, but guidelines on quality are lacking. This book, based on a review of over 150 reports, bridges that gap. It describes the features of a good quality EIA report, with case studies to help professionals prepare them.
This book travels back in time to describe the utilization of materials both familiar and arcane. It explores their practical history in mining, metallurgy and crafts, with evidence from archaeology and geology, portraying the advances that led to modern materials science.
This book proposes a model of the global carbon cycle linking the Earth’s crust and the biosphere. It shows how periodic carbon dioxide injections from colliding tectonic plates control photosynthesis, explaining mass extinctions, “explosions of life,” and oil distribution.
To understand the universe, we must look not to space, but to what is hidden under our feet. Regularities in Earth’s seismicity, revealed by new seismic parameters, lead to a theory of entropy seismology with applications in earthquake prediction and even modern physics.
This book reviews physical oceanography, from its history to its future challenges. It relates the physics of the ocean to topical issues like climate change and ocean forecasting, helping you understand how the ocean fits into the complex system of the global environment.
Geological and seismic activity alters hydrogen and methane flows from the ground, changing the air’s electrical characteristics. This book uses field observations to illustrate how atmospheric-electrical monitoring can be used to solve problems in geophysics.
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