The General Theory of Sorption Dynamics and Chromatography

Inhaltsverzeichnis

• I. Dynamics of Sorption and Its Practical Significance.
• 1. Dynamics of Sorption as a Heterogeneous Process.
• 2. On the History of the Practical Applications of the Phenomenon of Sorption Dynamics. Sorption Technology and Chromatography.
• 3. Problems of Terminology and Classification in the Theory of the Dynamics of Sorption and Chromatography.
• 4. History of the Development of the Theory of Dynamics of Sorption and Chromatography.
• II. General Formulation of the Problem of the Dynamics of Sorption and Methods of Its Solution.
• 1. Formulation of the Problem.
• 2. Equations of the Material Balance.
• 3. Equations of the Kinetics and Statics of Sorption.
• 4. Equations of Hydrodynamics.
• 5. Initial and Boundary Conditions.
• 6. Simplification of the System of Equations of Sorption Dynamics.
• 7. Methods of Solving the Problems of Sorption Dynamics.
• 8. Statistical Method.
• III. Theory of the Frontal Dynamics of Sorption of One Substance.
• 1. Initial Equations.
• 2. Equilibrium Sorption Dynamics in the Absence of Longitudinal Effects (D* =0).
• 3. Equilibrium Sorption Dynamics under the Action of Longitudinal Effects (D* ? 0).
• 4. Nonequilibrium Sorption Dynamics in the Absence of Longitudinal Effects (D* = 0).
• 5. Nonequilibrium Sorption Dynamics under the Action of Longitudinal Effects (D* ? 0).
• IV. Theory of Frontal Chromatography.
• 1. Equilibrium Sorption Dynamics of a Mixture of Substances in the Absence of Longitudinal Effects (D* = 0).
• 2. The Frontal Chromatogram.
• 3. Equilibrium Sorption Dynamics of a Mixture of Substances under the Action of Longitudinal Effects (D* ? 0).
• 4. Nonequilibrium Sorption Dynamics of a Mixture of Substances.
• V. Theory of Elution Chromatography.
• 1. Elution Sorption Dynamics of One Substance.
• 2. Elution Sorption Dynamics of a Mixtureof Substances.
• VI. Theory of Displacement Chromatography.
• 1. Equilibrium Displacement Sorption Dynamics in the Absence of Longitudinal Effects (D* = 0).
• 2. Displacement Sorption Dynamics under the Action of Longitudinal and Kinetic Effects.
• Literature Cited.