Principles of ion exchange technology /
"The Principles of Ion Exchange Technology covers the fundamental properties of ion exchange resins and the chemical engineering principles of plant design to aid process and equipment evaluation, choice and design. This text is composed of 12 chapters and begins with a discussion of the equili...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Oxford [England] ; Boston :
Butterworth Heinemann,
1991.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Principles of Ion Exchange Technology; Copyright Page; Table of Contents; Acknowledgement; Trade names of ion exchange resins mentioned; Foreword; Nomenclature; Chapter 1. Introduction; Chapter 2. Equilibria; 2.1 Introduction; 2.2 Binary equilibria; 2.3 Exchange of ions of equal valence; 2.4 Exchange of univalent and divalent ions; 2.5 Anion exchange resins; 2.6 Empirical equilibrium relationships; 2.7 Multi-component equilibria; Chapter 3. Kinetics of ion exchange in solution; 3.1 Rate equations for mass transfer in solution
- 3.2 Calculation of diffusion coefficients and mass transfer coefficients3.3 Ion exchange with neutralization or chelating reaction in solution; Chapter 4. Kinetics of ion exchange in resin beads; 4.1 Diffusion in resin matrix; 4.2 Other rate expressions; 4.3 Pore diffusion; 4.4 Ion exchange with chemical reaction in the resin; 4.5 Shrinking core model; 4.6 General comment; Chapter 5. Axial mixing and flow abnormalities; 5.1 Packed beds; 5.2 Stirred tanks; 5.3 Fluidized beds; Chapter 6. Design equations; 6.1 Introduction; 6.2 Continuity equations; 6.3 Rate equations
- 6.4 Equilibrium relationships6.5 Simplifying assumptions; Chapter 7. Calculation of the performance of fixed beds; 7.1 Introduction; 7.2 Initial and boundary conditions; 7.3 Normalization of equations; 7.4 Constant pattern and proportionate pattern behaviour; 7.5 Bed capacities; 7.6 Fixed packed bed breakthrough curves; 7.7 Fixed fluidized bed breakthrough curves; 7.8 Breakthrough curves for a series of stirred tanks; 7.9 Elution processes; 7.10 Cyclic operation of fixed beds; 7.11 Parametric pumping; Chapter 8. Batch processes; 8.1 Introduction
- 8.2 Liquid film diffusion for isotopic binary exchange8.3 Liquid film diffusion for non-isotopic binary exchange; 8.4 Resin diffusion controlled isotopic binary exchange; 8.5 Comparison of half-times; 8.6 Resin diffusion controlled non-isotopic binary exchange; 8.7 Mixed kinetics of binary exchange; 8.8 Shrinking core model; 8.9 Neutralization processes; 8.10 Multi-component ion exchange; Chapter 9. Continuous countercurrent plant design; 9.1 Introduction; 9.2 Differential equipment: liquid film diffusion rate control
- no axial mixing
- 9.3 Differential equipment: liquid film diffusion rate control
- axial mixing9.4 Differential equipment: resin diffusion rate control
- noaxial mixing; 9.5 Differential equipment: resin diffusion rate control
- noaxial mixing, approximate solutions; 9.6 Differential equipment: mixed kinetics
- no axial mixing; 9.7 Differential equipment: mixed kinetics
- liquid axial mixing; 9.8 Stage equipment: liquid film diffusion rate control
- no interstage backflows; 9.9 Stage equipment: liquid film diffusion rate control
- wellmixedresin, axially dispersed liquid flow