
Coagulation and Flocculation: Theory and Applications
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Table of contents:Thermodynamics of adsorption from solution, H.-H. Kohler; surface charge and surface potential, H.-H. Kohler; coagulation kinetics, H. Sonntag; adsorption of ions and surfactants, Luuk K. Koopal; modelling polymer adsorption, steric stabilization, and flocculation, Gerard J. Fleer and Jan M.H.M. Scheutjens; structure formation in disperse systems, Klaus Strenge; flotation as a heterocoagulation process - possibilities of calculating the probability of flotation, Hans Joachim Schulze;This volume details the thermodynamics and kinetics of the adsorption of surfactants and polym...
Table of contents:
Thermodynamics of adsorption from solution, H.-H. Kohler; surface charge and surface potential, H.-H. Kohler; coagulation kinetics, H. Sonntag; adsorption of ions and surfactants, Luuk K. Koopal; modelling polymer adsorption, steric stabilization, and flocculation, Gerard J. Fleer and Jan M.H.M. Scheutjens; structure formation in disperse systems, Klaus Strenge; flotation as a heterocoagulation process - possibilities of calculating the probability of flotation, Hans Joachim Schulze;
This volume details the thermodynamics and kinetics of the adsorption of surfactants and polymers on solids, as well as coagulation and flocculation mechanisms - demonstrating the applicability of the newest theoretical approaches on practical systems.;Written by over 15 international experts in the field, Coagulation and Flocculation: treats the Gouy-Chapman theory of an isolated planar charged surface and the DLVO theory describing the interaction between two identical charged surfaces; shows which energies are responsible for structure formation, what types of structure can be built in diluted and concentrated systems and how such structures can be studied and characterized; describes the interplay between interface and hydrodynamic forces and derives equations for calculating their individual probabilities; examines the use of microscopy, photography, individual particle sensors, sedimentation and light scattering to measure aggregate size distributions; and discusses methods for forming ceramics and the effects of improvements in powder packing and the stabilization of powder suspensions on processing steps.
Thermodynamics of adsorption from solution, H.-H. Kohler; surface charge and surface potential, H.-H. Kohler; coagulation kinetics, H. Sonntag; adsorption of ions and surfactants, Luuk K. Koopal; modelling polymer adsorption, steric stabilization, and flocculation, Gerard J. Fleer and Jan M.H.M. Scheutjens; structure formation in disperse systems, Klaus Strenge; flotation as a heterocoagulation process - possibilities of calculating the probability of flotation, Hans Joachim Schulze;
This volume details the thermodynamics and kinetics of the adsorption of surfactants and polymers on solids, as well as coagulation and flocculation mechanisms - demonstrating the applicability of the newest theoretical approaches on practical systems.;Written by over 15 international experts in the field, Coagulation and Flocculation: treats the Gouy-Chapman theory of an isolated planar charged surface and the DLVO theory describing the interaction between two identical charged surfaces; shows which energies are responsible for structure formation, what types of structure can be built in diluted and concentrated systems and how such structures can be studied and characterized; describes the interplay between interface and hydrodynamic forces and derives equations for calculating their individual probabilities; examines the use of microscopy, photography, individual particle sensors, sedimentation and light scattering to measure aggregate size distributions; and discusses methods for forming ceramics and the effects of improvements in powder packing and the stabilization of powder suspensions on processing steps.