Summary and Info
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.Content: Chapter 1 Main Results and Development Lines in Hydro?Aeromechanics of Drilling Processes (pages 1–3): Chapter 2 Basic Problems of Hydro?Aeromechanics in Drilling Processes (pages 4–7): Chapter 3 Multiphase Media in Drilling Processes (pages 8–15): Chapter 4 Hydro?Aeromechanic Equations of Drilling Processes (pages 16–46): Chapter 5 Hydrostatics of Single?Phase Fluids and Two?Phase Mixtures in Gravity Field (pages 47–66): Chapter 6 Stationary Flow of Fluids in Elements of the Well Circulation System (pages 67–148): Chapter 7 Equilibrium and Motion of Rigid Particles in Fluid, Gas, and Gas–Liquid Mixture (pages 149–194): Chapter 8 Stationary Flow of Gas and Gas?Cutting Mixture in Elements of Well Circulation System (pages 195–208): Chapter 9 Stationary Flows of Gas–Liquid Mixtures in a Well (pages 209–239): Chapter 10 Nonstationary Flows of Single?Phase Fluids in a Well (pages 240–288): Chapter 11 Flows of Formation Fluids and Rock Solids (pages 289–314): Chapter 12 Nonstationary Flows of Gas–Liquid Mixtures in Well?Formation System (pages 315–338): Chapter 13 Nonstationary Flows of Fluid Mixtures in Well?Formation System: Calculation of Fluid–Gas Blowout Killing (pages 339–346): Chapter 14 Distribution of Concentration and Pressure in Displacement of Newtonian and Viscous?Plastic Fluids from Circular Pipes and Annular Channels: Hydraulic Calculation of Cementation Regime (pages 347–400): Chapter 15 Sedimentation of Rigid Phase in Drilling Fluid after Deadlock of Mixing (pages 401–407): Chapter 16 Experimental Determination of Rheological Characteristics (pages 408–423):
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