Liquid-solid separators /

Liquid-solid separators /

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Bibliographic Details
Author / Creator:Duroudier, Jean-Paul, author.
Imprint:London : ISTE Press, 2016.
Description:1 online resource.
Language:English
Series:Industrial Equipment for Chemical Engineering Set
Industrial equipment for chemical engineering set.
Subject:
Separation (Technology)
Separation (Technology)
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11270147
Hidden Bibliographic Details
ISBN:9781785481826
1785481827
9780081017821
0081017820
Notes:Includes bibliographical references and index.
Print version record.
Summary:Liquid-Solid Separators, part of the Industrial Equipment for Chemical Engineering set, presents detailed information on the filtration parameters that are used to calculate and measure the properties of filters that separate a divided solid from a liquid. Well-known equations are used to describe the passing of a solution through a membrane, deducing the expression of membrane rejection for solutes. Biological membranes are used as examples, and their ionic flows and involvement in reactions within the membrane are discussed. The author also provides information on the methods needed for understanding the equipment used in applied thermodynamics in the hope of encouraging students and engineers to self build the programs they need. Chapters are complemented with appendices that provide additional information and associated references.
Target Audience:Specialized.
Other form:Print version: Duroudier, Jean-Paul. Liquid-solid separators. 1785481827 9781785481826
Table of Contents:
  • Front Cover ; Dedication ; Liquid-Solid Separators; Copyright ; Contents; Preface; 1 Filtration of Liquids and Gases Screening of Divided Solids; 1.1. General considerations; 1.2. Liquid filters; 1.3. Centrifugal spin-drying (liquid-solid suspensions); 1.4. Deep-bed filtration of liquids; 1.5. Filtration of gases; 1.6. Evacuation of the liquid by compression; 1.7. Screening; 2 Theory of Membrane Filtration; 2.1. Introduction; 2.2. Single solute and electrically inert membrane; 2.3. The membrane and the solutes are electrically charged ; 2.4. Electrohydraulic values; 2.5. Fouling of membranes.
  • 3 Theory of Dialysis-Biological Membranes
  • Electrodialysis3.1. Introduction; 3.2. Electrically neutral solutes; 3.3. Electrically charged membrane: conventions; 3.4. Ionic concentrations inside and outside the membrane; 3.5. Internal potential and concentrations; 3.6. Assisted permeation; 3.7. Permeation by the tunnel effect; 3.8. Hemodialysis; 3.9. Electrodialysis; 4 Fractionation of Dispersions by Natural Decantation (by Gravity); 4.1. Decantation rate; 4.2. Decanters in the chemical industry; 4.3. Decanters in ore extraction.
  • 5 Destabilization of Sols (Colloidal Dispersions), Coagulation and Flocculation5.1. Colloidal dispersions: the double layer; 5.2. Adsorption in the double layer; 5.3. Interaction between two particles; 5.4. Practice of destabilization; 5.5. Destabilizing adjuvants; 6 Flotation: Froth Columns; 6.1. Flotation; 6.2. Froth columns ; 7 Expulsion of a Liquid by Pressing; 7.1. Mechanism for pressing inorganic DSs; 7.2. Pressing of plant matter; 7.3. Equipment used for pressing plants; APPENDICES; Appendix 1 Numerical Integration 4th-order Runge-Kutta Method; Appendix 2 The CGS Electromagnetic System.
  • A2.1. Potential in the international system (SI) and in the CGS EM systemA2.2. Other units in SI and CGSEM; Appendix 3 Characteristics of Screening Surfaces; Appendix 4 Definition and Aperture of Sieve Cloths; Bibliography; Index; Back Cover.

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