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E-raamat: Electrolytes: Supramolecular Interactions and Non-Equilibrium Phenomena in Concentrated Solutions

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  • Ilmumisaeg: 24-Nov-2014
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781482249392
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Electrolytes: Supramolecular Interactions and Non-Equilibrium Phenomena in Concentrated SolutionsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 24-Nov-2014
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781482249392
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Electrolyte solutions play a key role in traditional chemical industry processes as well as other sciences such as hydrometallurgy, geochemistry, and crystal chemistry. Knowledge of electrolyte solutions is also key in oil and gas exploration and production, as well as many other environmental engineering endeavors. Until recently, a gap existed between the electrolyte solution theory dedicated to diluted solutions, and the theory, practice, and technology involving concentrated solutions.Electrolytes: Supramolecular Interactions and Non-Equilibrium Phenomena in Concentrated Solutions addresses concentrated electrolyte solutions and the theory of structure formation, super and supramolecular interactions, and other physical processes with these solutions—now feasible due to new precision measurement techniques and experimental data that have become available. The first part of the book covers the electrolyte solution in its stationary state—electrostatic, and various ion-dipole, dipole-dipole, and mutual repulsion interactions. The second part covers the electrolyte solution in its nonstationary status, in the case of forced movement between two plates—electrical conductivity, viscosity, and diffusion. This theoretical framework allows for the determination of activity coefficients of concentrated electrolyte solutions, which play a key role in many aspects of electrochemistry and for developing novel advanced processes in inorganic chemical plants.
List of Tables
ix
Preface xi
Author xvii
SECTION I Supramolecular Interactions
Chapter 1 Historic Introduction
3(20)
1.1 Early Views on the Process of Ion Solvation in Electrolyte Solutions
3(3)
1.2 Evolution of Solvation Concepts and Structural State of Electrolyte Solutions
6(17)
References
16(7)
Chapter 2 Supramolecular Designing of a Host
23(32)
2.1 Stages of Formation of Approaches to the Concept of Long-Range Supermolecular Forces
23(2)
2.2 Principles of Supramolecular-Thermodynamic Approach
25(1)
2.3 Quantum Statistics of Supermolecular Interactions
26(7)
2.4 Supramolecular Host--Guest Structure Distribution Function
33(2)
2.5 Rate of Distribution Function Change in Time
35(3)
2.5.1 Equations of Motion
37(1)
2.6 Supramolecular Interactions Potential
38(8)
2.6.1 Maxwell's Equations
38(8)
2.7 Solving the Equation for Potential in the Absence of External Fields
46(9)
References
51(4)
Chapter 3 Thermodynamics of Supermolecular and Supramolecular Interactions
55(80)
3.1 Supermolecular--Thermodynamic Interactions of Activity Coefficients
55(4)
3.2 Guest Activity Function
59(4)
3.3 Minimum Interaction Distance of Electrostatic Forces among Ions in the Host Solution
63(1)
3.4 Distance between Ions in the Host Solution
64(17)
3.5 Dielectric Permittivity of Host--Guest Solution
81(54)
References
131(4)
Chapter 4 Supermolecular Interactions
135(68)
4.1 van der Waals Components of Attraction Potential
135(3)
4.1.1 Perturbation Operator
136(1)
4.1.2 Interaction of Two Dipoles
137(1)
4.2 Perturbation Method
138(1)
4.3 Interaction Energy in the First Approximation of the Perturbation Method
139(8)
4.3.1 Interaction of Two Molecular Dipoles
139(2)
4.3.2 Averaging over Orientations
141(1)
4.3.3 Other Expansion Terms of Interaction Energy as a Series in Powers R-1
142(2)
4.3.4 Polarization (Induction) Interdipole Interactions
144(2)
4.3.5 Dispersion (London) Interactions
146(1)
4.4 Evaluation of the Energy of van der Waals Interactions in Structure Formation of the Guest--Host Solution
147(3)
4.5 Ion--Dipole Interactions in the First Approximation of the Perturbation Theory
150(5)
4.6 Weak Chemical Interactions in the Host Solution
155(6)
4.7 Short-Range Repulsion in the Host Solution
161(10)
4.7.1 Other Model Potentials
162(1)
4.7.1.1 Hard Sphere
163(1)
4.7.1.2 Point Center of Repulsion
164(1)
4.7.1.3 Rectangular-Well Potential
164(1)
4.7.1.4 Model of Triangular-Well Potential
165(1)
4.7.1.5 Sutherland Model
165(2)
4.7.1.6 Buckingham Potential
167(1)
4.7.1.7 Kihara Spherical Model (Spherical Core Model)
168(3)
4.8 Adjustment of Potential of Supramolecular Interactions
171(6)
4.9 Thermodynamics of Water Activity Interaction
177(26)
References
197(6)
SECTION II Non-Equilibrium Phenomena
Chapter 5 Electrical Conductivity
203(68)
5.1 Historic Preamble
203(4)
5.2 Theories of Electrical Conductivity
207(8)
5.3 General Continuity Equation for Electrolyte Solutions in Perturbed State
215(4)
5.4 Electrical Conductivity: General Theory of Supermolecular Forces
219(2)
5.5 Relaxation Force
221(6)
5.6 Electrophoretic Retardation
227(2)
5.7 Electrical Conductivity of Electrolytes at Weak Electric Fields and Low Frequencies
229(16)
5.8 Results and Their Discussion
245(26)
References
267(4)
Chapter 6 Viscosity
271(38)
6.1 Semiempirical Approaches to Viscosity Determination
271(4)
6.1.1 Multicomponent Solutions
274(1)
6.2 Viscosity Theory
275(3)
6.3 General Theory of Viscosity
278(6)
6.4 Solution Viscosity Coefficient (General Solving)
284(2)
6.5 Solution Viscosity Coefficient (Final Solving)
286(23)
References
306(3)
Chapter 7 Diffusion Coefficient
309(28)
7.1 Introduction
309(1)
7.2 About Diffusion Theories
309(7)
7.3 Diffusion Flows
316(2)
7.4 General Theory of Supermolecular Forces in Diffusion Flows
318(3)
7.5 Diffusion Coefficient (Final Solution)
321(16)
References
331(6)
Conclusion 337(4)
Index 341
Georgiy Aseyev is department head at the Kharkov State Academy of Culture in Kharkov, Ukraine. He is also a professor and at the International Informatization Academy, which is associated with the UN. He obtained a doctorate in engineering sciences from the Kharkov Scientific-Research and Design Institute of Inorganic Chemistry. His research areas of interest include theoretical chemistry, nanotechnology, supramolecular interactions in concentrated electrolyte solutions, and artificial intelligence. Dr. Aseyev has written hundreds of magazine articles and dozens of monographs and books.
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