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Membrane process design using residue curve maps

Design and Synthesis of Membrane Separation Processes provides a novel method of design and synthesis for membrane separation. While the main focus of the book is given to gas separation and pervaporation membranes, the theory has been developed in such a way that it is general and valid for any typ...

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Bibliographic Details
Corporate Authors: Wiley InterScience (Online service)
Group Author: Peters, Mark, 1981-
Published:
Literature type: Electronic eBook
Language: English
Subjects:
Membrane separation.
Diffusion.
Pervaporation.
Gas separation membranes.
SCIENCE > Industrial & Technical. > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Electronic books.
Online Access: http://onlinelibrary.wiley.com/book/10.1002/9780470910030
Summary: Design and Synthesis of Membrane Separation Processes provides a novel method of design and synthesis for membrane separation. While the main focus of the book is given to gas separation and pervaporation membranes, the theory has been developed in such a way that it is general and valid for any type of membrane.€€ €. The method, which uses a graphical technique, allows one to calculate and visualize the change in composition of the retentate (non-permeate) phase. This graphical approach is based on Membrane Residue Curve Maps. One of the strengths of this approach is that it is.
Carrier Form: 1 online resource (xxi, 220 p., 16 p. of col. plates) : ill.
Bibliography: Includes bibliographical references and index.
ISBN: 9780470910030 (electronic bk.)
0470910038 (electronic bk.)
9780470910023 (e-book)
047091002X (e-book)
0470922834
9780470922835
Index Number: TP248
CLC: TQ028.8
Contents: Frontmatter -- Color Plates -- Introduction -- Permeation Modeling -- Introduction to Graphical Techniques in Membrane Separations -- Properties of Membrane Residue Curve Maps -- Application of Membrane Residue Curve Maps to Batch and Continuous Processes -- Column Profiles for Membrane Column Sections -- Novel Graphical Design Methods for Complex Membrane Configurations -- Synthesis and Design of Hybrid Distillation₆Membrane Processes -- Concluding Remarks -- References -- Appendix A: MemWorX User Manual -- Appendix B: Flux Model for Pervap 1137 Membrane -- Appendix C: Proof of Equation for Determining Permeation Time in a Batch Process -- Appendix D: Proof of Equation for Determining Permeation Area in a Continuous Process -- Appendix E: Proof of the Difference Point Equation -- Index.

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