Applied Hydro-Aeromechanics in Oil and Gas Drilling


Book Description

An all-in-one reference combining hydrodynamic theory with drilling applications for the design, planning, and optimization of drilling operations Hydromechanical processes underlie the majority of technology operations in drilling and present a crucial concern as the pace and depth of drilling increasesin today's energy-hungry world. Applied Hydro-aeromechanics in Oil and Gas Drilling offers a unique resource for properly modeling and understanding the hydro-dynamic forces affecting a drilling site. Combining hydrodynamic theory with specific drilling applications, this coverage provides readers with a comprehensive reference for designing, planning, and optimizing drilling operations. Featuring the latest technologies and developments affecting the field, Applied Hydro-aeromechanics in Oil and Gas Drilling covers topics including: The physics of hydro-aeromechanical phenomena in drilling processes Calculation methods for understanding and designing circulation systems for the washing, blasting, and cementing of wells Problems of interaction between wells and reservoirs Problems with the fluid, gas, and liquid-gas mixture flows necessary in designing and building of wells Presenting an unmatched combination of theory, modeling issues, and concrete, illustrative examples, Applied Hydro-aeromechanics in Oil and Gas Drilling bringstogether formerly widespread technical information to offer a systematic and methodical guide. It is an essential reference for both students and researchers studying fluid mechanics, as well as engineers and other professionals working in the oil and gas industry.




Nanocolloids for Petroleum Engineering


Book Description

Nanocolloids for Petroleum Engineering Enables readers to understand nanocolloids in upstream operations in the oil industry from an applied and theoretical point of view Nanocolloids for Petroleum Engineering brings together the background, latest advances, and practical and theoretical information about nanocolloids for petroleum engineering in one comprehensive volume. The text is structured in such a way to allow readers to easily distinguish key points and quickly gain the expertise they need to become more effective in their respective disciplines. For practical purposes and to aid in seamless reader comprehension, experiences of service companies, general guidance, and problem solving exercises are included throughout the text. The highly qualified authors specifically present the subject as petroleum experts and use a niche industry point of view, which means petroleum, reservoir, and drilling engineers will be able to quickly understand and digest the information contained within. Sample topics covered in the work include: A brief introduction to and classification of colloid systems, describing the main properties of nanocolloids crucial for practical application in petroleum engineering Nanocolloids application in reservoir engineering and development, illustrating reservoir conditions necessary for nanocolloids formation Nanocolloid applications in production operations, including the mechanism of nanoscale dispersion phase impact on physical properties of conventional substances utilized in upstream processes Nanocolloid application in Enhanced Oil Recovery (EOR) and the impact of nanoparticles on conventional displacement agents Nanocolloids for Petroleum Engineering serves as a comprehensive reference work and standalone guide for petroleum engineers who are interested in gaining knowledge surrounding nanocolloids and harnessing that knowledge to aid in solving a wide variety of conventional challenges in the field.







Introduction to Petroleum Engineering


Book Description

Presents key concepts and terminology for a multidisciplinary range of topics in petroleum engineering Places oil and gas production in the global energy context Introduces all of the key concepts that are needed to understand oil and gas production from exploration through abandonment Reviews fundamental terminology and concepts from geology, geophysics, petrophysics, drilling, production and reservoir engineering Includes many worked practical examples within each chapter and exercises at the end of each chapter highlight and reinforce material in the chapter Includes a solutions manual for academic adopters




Books in Print


Book Description










Hydrothermal Properties of Materials


Book Description

Hydrothermal Properties of Materials: Experimental Data on Aqueous Phase Equilibria and Solution Properties at Elevated Temperatures and Pressures is designed for any scientists and engineer who deals with hydrothermal investigations and technologies. The book is organized into eight chapters, each dealing with a key physical property of behavior of solutions, so that a reader can obtain information on: hydrothermal experimental methods; available experimental data and the main features of properties behavior in a wide range of temperatures and pressures; and possible ways of experimental data processing for obtaining the derivative properties.