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Separation of Multiphase, Multicomponent Systems; Contents; Preface; List of Symbols; I Technological Fundamentals of Preparation of Natural Hydrocarbons for Transportation; Introduction; 1 Technological Schemes of Complex Oil, Gas and Condensate Processing Plants; 2 Construction of Typical Apparatuses; 2.1 Separators, Dividers, and Settlers; 2.2 Absorbers; 2.3 Cooling Devices; 3 Basic Processes of Separation of Multi-phase, Multi-component Hydrocarbon Mixtures; References; II Physical and Chemical Bases of Technological Processes; 4 The Transfer Phenomena; 4.1 Phenomenological Models
4.2 Momentum Transfer4.3 Thermal Conduction and Heat Transfer; 4.4 Diffusion and Mass Transfer; 4.5 Electro-Conductivity and Charge Transfer; 5 Conservation Laws and Equations of State; 5.1 Isothermal Processes; 5.2 Non-isothermal Processes; 5.3 Multi-Component Mixtures; 5.4 Multi-Phase Mixtures; 5.5 Charged Mixtures; 5.6 The Criteria of Similarity; 5.7 The State Equations; 5.7.1 The State Equation for an Ideal Gas and an Ideal Gas Mixture; 5.7.2 The State Equation for a Real Gas and a Real Gas Mixture; 5.7.3 Methods of Calculation of Liquid-Vapor Equilibrium
5.8 Balance of Entropy - The Onsager Reciprocal RelationsReferences; III Solutions; 6 Solutions Containing Non-charged Components; 6.1 Diffusion and Kinetics of Chemical Reactions; 6.2 Convective Diffusion; 6.3 Flow in a Channel with a Reacting Wall; 6.4 Reverse Osmosis; 6.5 Diffusion Toward a Particle Moving in a Solution; 6.6 Distribution of Matter Introduced Into a Fluid Flow; 6.7 Diffusion Flux in a Natural Convection; 6.8 Dynamics of the Bubble in a Solution; 6.9 Evaporation of a Multi-component Drop Into an Inert Gas; 6.10 Chromatography
6.11 The Capillary Model of a Low-permeable Porous Medium7 Solutions of Electrolytes; 7.1 Electrolytic Cell; 7.2 Electrodialysis; 7.3 Electric Double Layer; 7.4 Electrokinetic Phenomena; 7.5 Electroosmosis; References; IV Suspensions and Colloid Systems; 8 Suspensions Containung Non-charged Particles; 8.1 Microhydrodynamics of Particles; 8.2 Brownian Motion; 8.3 Viscosity of Diluted Suspensions; 8.4 Separation in the Gravitatonial Field; 8.5 Separation in the Field of Centrifugal Forces; 9 Suspensions Containing Charged Particles; 9.1 Electric Charge of Particles; 9.2 Electrophoresis
9.3 The Motion of a Drop in an Electric Field9.4 Sedimentation Potential; 10 Stability of Suspensions, Coagulation of Particles, and Deposition of Particles on Obstacles; 10.1 Stability of Colloid Systems; 10.2 Brownian, Gradient (Shear) and Turbulent Coagulation; 10.2.1 Brownian Coagulation; 10.2.2 Gradient (Shear) Coagulation; 10.2.3 Turbulent Coagulation; 10.3 Particles' Deposition on the Obstacles; 10.3.1 Brownian Diffusion; 10.3.2 Particles' Collisions with an Obstacle; 10.4 The Capture of Particles Due to Surface and Hydrodynamic Forces
10.5 Inertial Deposition of Particles on the Obstacles
This highly detailed reference represents an elaborate development of the theory of processing oil and natural gas and its application in the field -- indispensable for graduate engineering students and professionals alike. The renowned expert author, a professor at Moscow State University, has ample experience in both lecturing and publishing, albeit in the Russian language. This book is thus the first to provide a translation compiling his extensive knowledge, much of which remained unpublished due to security restrictions in the former Soviet Union.Based upon and compiled from Professor