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Preface.
Acknowledgments.
Notation.
About the Authors.
1 Introduction.
2 Permeation Modeling.
2.1 Diffusion Membranes.
2.2 Membrane Classification.
3 Introduction to Graphical Techniques in Membrane Seperations.
3.1 A Thought experiment.
3.2 Binary Separations.
3.3 Multicomponent Systems.
4 Properties of Membrane Residue Curve Maps.
4.1 Stationary Points.
4.2 Membrane Vector Field.
4.3 Unidistribution Lines.
4.4 The Effect of a-Values on the Topology of M-RCM’s.
4.5 Properties of an Existing Selective M-RCM.
4.6 Conclusion.
5 Application of Membrane Residue Curve Maps to Batch and Continuous Processes.
5.1 Introduction.
5.2 Review of Previous Chapters.
5.3 Batch Membrane Operation.
5.4 Permeation Time.
5.5 Continuous Membrane Operation.
5.6 Conclusion.
6 Column Profiles for Membrane Column Sections.
6.1 Introduction to Membrane Column Development.
6.2 Generalised Column Sections.
6.3 Theory.
6.4 Column Section Profiles: Operating Condition 1.
6.5 Column Section Profiles: Operating Condition 2.
6.6 Column Section Profiles: Operating Condition 3 and 4.
6.7 Applications and Conclusion.
7 Novel Graphical Design Methods for Complex Membrane Configurations.
7.1 Introduction.
7.2 Column Sections.
7.3 Complex Membrane Configuration Designs: General.
7.4 Complex Membrane Configuration Designs: Operating Condition 1.
7.5 Complex Membrane Configuration Designs: Operating Condition 2.
7.6 Complex Membrane Configurations: Comparison with Complex Distillation Systems.
7.7 Hybrid Distillation-Membrane Design.
7.8 Conclusion.
8 Synthesis and Design of Hybrid Distillation-Membrane Processes.
8.1 Introduction.
8.2 Methanol/Butene/MTBE System.
8.3 Synthesis of a Hybrid Configuration.
8.4 Design of a Hybrid Configuration.
8.5 Conclusion.
9 Concluding Remarks.
9.1 Conclusions.
9.2 Recommendations and Future Work.
9.3 Design Considerations.
9.4 Challenges for Membrane Process Engineering.
References.
Appendix A: MemWorX User Manual.
A.1 System Requirements.
A.2 Installation.
A.3 Layout of MemWorX.
A.4 Appearance of Plots.
A.5 Step-by-Step Guide to Plot Using MemWorX.
A.6 Tutorial Solutions.
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.
E.1 Proof Using Analogous Method to Distillation.
E.2 Proof Using Mass Transfer.
Index.
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Add 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, Membrane Process Design Using Residue Curve Maps to the inventory that you are selling on WonderClubX
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Add 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, Membrane Process Design Using Residue Curve Maps to your collection on WonderClub |