Ebook: Thermal Nonequilibrium Phenomena in Fluid Mixtures
- Tags: Fluids, Thermodynamics, Engineering Fluid Dynamics, Engineering Thermodynamics Transport Phenomena, Physical Chemistry
- Series: Lecture Notes in Physics 584
- Year: 2002
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Thermodiffusion describes the coupling between a temperature gradient and a resulting mass flux. Traditionally, the focus has been on simple fluids, and it is now extending to more complex systems such as electrolytes, polymers, colloidal dispersions and magnetic fluids. This book widens the scope even further by including applications in ionic solids. Written as a set of tutorial reviews, it will be useful to experts, nonspecialist researchers and postgraduate students alike.
Thermodiffusion describes the coupling between a temperature gradient and a resulting mass flux. Traditionally, the focus has been on simple fluids, and it is now extending to more complex systems such as electrolytes, polymers, colloidal dispersions and magnetic fluids. This book widens the scope even further by including applications in ionic solids. Written as a set of tutorial reviews, it will be useful to experts, nonspecialist researchers and postgraduate students alike.
Thermodiffusion describes the coupling between a temperature gradient and a resulting mass flux. Traditionally, the focus has been on simple fluids, and it is now extending to more complex systems such as electrolytes, polymers, colloidal dispersions and magnetic fluids. This book widens the scope even further by including applications in ionic solids. Written as a set of tutorial reviews, it will be useful to experts, nonspecialist researchers and postgraduate students alike.
Content:
Front Matter....Pages I-XII
Computer Simulations of Thermal Diffusion in Binary Fluid Mixtures....Pages 3-23
Thermodiffusion in the Critical Region....Pages 24-37
On the Theory of the Soret Effect in Colloids....Pages 38-60
Principle of Entropy Maximization for Nonequilibrium Steady States....Pages 61-73
A Comprehensive Theory of the Soret Effect in a Multicomponent Mixture....Pages 74-92
Thermodiffusion and Nonlinear Heat Equation....Pages 93-120
Nonequilibrium Concentration Fluctuations in Binary Liquid Systems Induced by the Soret Effect....Pages 121-145
Thermodiffusion in Ionic Solids —Model Experiments and Theory....Pages 146-183
Hip, Hip, Soret!....Pages 184-185
Measurement of Transport Coefficients by an Optical Grating Technique....Pages 189-210
A Survey of the Thomaes Flow Cell Method for the Soret Coefficient....Pages 211-232
Validity Limits of the FJO Thermogravitational Column Theory....Pages 233-249
Determination of Thermodiffusion Parameters from Thermal Field-Flow Fractionation Retention Data....Pages 250-284
Thermodiffusion of Polymer Solutions in Convectionless Cells....Pages 285-309
Soret Effect and Free Convection: A Way to Measure Soret Coefficients....Pages 313-333
Convective Patterns in Binary Fluid Mixtures with Positive Separation Ratios....Pages 334-354
Convective Instability of Magnetized Ferrofluids: Influence of Magnetophoresis and Soret Effect....Pages 355-371
On the Soret-Driven Thermosolutal Convection in a Vibrational Field of Arbitrary Frequency....Pages 372-388
Thermodiffusion in Porous Media and Its Consequences....Pages 389-427
Soret Effect and Mixed Convection in Porous Media....Pages 428-447
Back Matter....Pages 467-470
Soret Effect in Multicomponent Flow Through Porous Media: Local Study and Upscaling Process....Pages 448-465
Thermodiffusion describes the coupling between a temperature gradient and a resulting mass flux. Traditionally, the focus has been on simple fluids, and it is now extending to more complex systems such as electrolytes, polymers, colloidal dispersions and magnetic fluids. This book widens the scope even further by including applications in ionic solids. Written as a set of tutorial reviews, it will be useful to experts, nonspecialist researchers and postgraduate students alike.
Content:
Front Matter....Pages I-XII
Computer Simulations of Thermal Diffusion in Binary Fluid Mixtures....Pages 3-23
Thermodiffusion in the Critical Region....Pages 24-37
On the Theory of the Soret Effect in Colloids....Pages 38-60
Principle of Entropy Maximization for Nonequilibrium Steady States....Pages 61-73
A Comprehensive Theory of the Soret Effect in a Multicomponent Mixture....Pages 74-92
Thermodiffusion and Nonlinear Heat Equation....Pages 93-120
Nonequilibrium Concentration Fluctuations in Binary Liquid Systems Induced by the Soret Effect....Pages 121-145
Thermodiffusion in Ionic Solids —Model Experiments and Theory....Pages 146-183
Hip, Hip, Soret!....Pages 184-185
Measurement of Transport Coefficients by an Optical Grating Technique....Pages 189-210
A Survey of the Thomaes Flow Cell Method for the Soret Coefficient....Pages 211-232
Validity Limits of the FJO Thermogravitational Column Theory....Pages 233-249
Determination of Thermodiffusion Parameters from Thermal Field-Flow Fractionation Retention Data....Pages 250-284
Thermodiffusion of Polymer Solutions in Convectionless Cells....Pages 285-309
Soret Effect and Free Convection: A Way to Measure Soret Coefficients....Pages 313-333
Convective Patterns in Binary Fluid Mixtures with Positive Separation Ratios....Pages 334-354
Convective Instability of Magnetized Ferrofluids: Influence of Magnetophoresis and Soret Effect....Pages 355-371
On the Soret-Driven Thermosolutal Convection in a Vibrational Field of Arbitrary Frequency....Pages 372-388
Thermodiffusion in Porous Media and Its Consequences....Pages 389-427
Soret Effect and Mixed Convection in Porous Media....Pages 428-447
Back Matter....Pages 467-470
Soret Effect in Multicomponent Flow Through Porous Media: Local Study and Upscaling Process....Pages 448-465
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