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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.
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.
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