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17.A.3. Countercurrent Flow Spreadsheet and VBA Program
Chapter 18 Introduction to Adsorption, Chromatography, and Ion Exchange
18.1. Sorbents and Sorption Equilibrium
18.1.1. Definitions
18.1.2. Sorbent Types
18.1.3. Adsorption Equilibrium Behavior
Example 18-1. Adsorption equilibrium
18.2. Solute Movement Analysis for Linear Systems: Basics and Applications to Chromatography
18.2.1. Movement of Solute in a Column
18.2.2. Solute Movement Theory for Linear Isotherms
18.2.3. Application of Linear Solute Movement Theory to Purge Cycles and Elution
Chromatography
Example 18-2. Linear solute movement analysis of elution chromatography
18.3. Solute Movement Analysis for Linear Systems: Thermal and Pressure Swing Adsorption and
Simulated Moving Beds
18.3.1. Temperature Swing Adsorption
Example 18-3. Thermal regeneration with linear isotherm
18.3.2. Pressure Swing Adsorption
Example 18-4. PSA system
18.3.3. Simulated Moving Beds (SMB)
Example 18-5. SMB system
18.4. Nonlinear Solute Movement Analysis
18.4.1. Diffuse Waves
Example 18-6. Diffuse wave
18.4.2. Shock Waves
Example 18-7. Self-sharpening shock wave
18.5. Ion Exchange
18.5.1. Ion Exchange Equilibrium
18.5.2. Movement of Ions
Example 18-8. Ion movement for divalent-monovalent exchange
18.6. Mass and Energy Transfer in Packed Beds
18.6.1. Mass Transfer and Diffusion
18.6.2. Column Mass Balances
18.6.3. Lumped Parameter Mass Transfer
18.6.4. Energy Balances and Heat Transfer
18.6.5. Derivation of Solute Movement Theory
18.6.6. Detailed Simulators
18.7. Mass Transfer Solutions for Linear Systems
18.7.1. Lapidus and Amundson Solution for Local Equilibrium with Dispersion
18.7.2. Superposition in Linear Systems
