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Mathematical Models and Design Methods in Solid-Liquid Separation

  • Book
  • © 1985

Overview

Editors:
  1. A. Rushton

    1. Department of Chemical Engineering, UMIST, Manchester, UK

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Part of the book series: NATO Science Series E: (NSSE, volume 88)

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Table of contents (15 chapters)

  1. Front Matter

    Pages I-VIII
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  2. Preface

    • A. Rushton
    Pages 1-2

  3. Recent Advances in Compressible Cake Filtration Theory

    • Frank M. Tiller, Joseph R. Crump
    Pages 3-24

  4. Flow Through Porous Media and Fluid-Particle Hydrodynamics

    • Lloyd A. Spielman
    Pages 25-47

  5. Filtration Theory: Formation and Structure of Compressible Filter Cakes

    • Richard J. Wakeman
    Pages 48-82

  6. Blocking Filtration. Application to Non-Newtonian Fluids

    • Jacques Hermia
    Pages 83-89

  7. Deep Bed Filters

    • K. J. Ives
    Pages 90-149

  8. Use of BDST Analysis Techniques for the Design of Filtration Systems Using Coarse Media and Dual Media Filters in Series

    • E. Robert Baumann, Charles S. Oulman
    Pages 150-169

  9. Pretreatment Processes

    • A. S. Ward
    Pages 170-206

  10. Hydrodynamic Aspects of Flocculation

    • Lloyd A. Spielman
    Pages 207-232

  11. Precoat Filtration Equations for Flat And Cylindrical Septa

    • Roger V. Stephenson, E. Robert Baumann
    Pages 233-256

  12. Centrifugal Separation

    • Christian Alt
    Pages 257-285

  13. Dewatering of Filter Cakes: Vacuum and Pressure Dewatering

    • Richard J. Wakeman
    Pages 286-309

  14. Filter Cake Washing

    • Jacques Hermia
    Pages 310-332

  15. Filter Media: Woven amp; Non-Woven Cloths for Liquids

    • A. Rushton
    Pages 333-355

  16. Dewatering by Compression

    • D. Leclerc, S. Rebouillat
    Pages 356-391

  17. Back Matter

    Pages 393-399
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Keywords

About this book

The separation of finely-divided solids from liquids constitutes an important stage in many industrial processes. Separation of mixtures ranging from highly concentrated slurries to slightly turbid liquids must be effected in circumstances where the solids, liquid or both phases may have value. Separations may be achieved by use of a membrane or filter medium which, positioned in the path of a flowing suspension, will allow passage of the fluid whilst retaining solids on the surface or within the medium. Alternatively the two phases may be separated by sedimentation processes involving gravitational or centrifugal force. In either mode, separation difficulties are sometimes experienced with the result that solid-liquid separation is often a bottleneck in commercial plants. Operational difficulties and plant failures are associated with the random nature of the particles being separated; variations in size, shape, states of aggregation, compressibility, etc. , produce a wide range of problems. Plugging of the filter medium or the collapse of the solids under applied stress lead to slow flowrates of liquid. The colloidal nature of some precipitates makes separation by settling virtually impossible without the use of chemical agents to enhance the size of basic units and to reduce repulsive surface forces. Unit operations such as filtration, comminution, etc. , involve a seemingly bewildering array of machines which makes plant selection a difficult step and reflects the uncer­ tainties attaching to operations involving the solid )hase. Many types of pressure, vacuum and centrifugal filter are available.

Editors and Affiliations

  • Department of Chemical Engineering, UMIST, Manchester, UK

    A. Rushton

Bibliographic Information

  • Book Title: Mathematical Models and Design Methods in Solid-Liquid Separation

  • Editors: A. Rushton

  • Series Title: NATO Science Series E:

  • DOI: https://doi.org/10.1007/978-94-009-5091-7

  • Publisher: Springer Dordrecht

  • eBook Packages: Springer Book Archive

  • Copyright Information: Martinus Nijhoff Publishers, Dordrecht 1985

  • Hardcover ISBN: 978-90-247-3140-4Published: 31 March 1985

  • Softcover ISBN: 978-94-010-8751-3Published: 03 November 2011

  • eBook ISBN: 978-94-009-5091-7Published: 06 December 2012

  • Series ISSN: 0168-132X

  • Edition Number: 1

  • Number of Pages: VIII, 399

  • Topics: Industrial Chemistry/Chemical Engineering, Mechanical Engineering

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