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Inorganic Polymeric and Composite Membranes
 
 

Inorganic Polymeric and Composite Membranes, 1st Edition

Structure, Function and Other Correlations

 
Inorganic Polymeric and Composite Membranes, 1st Edition,S. Ted Oyama,Susan Stagg-Williams,ISBN9780444537287
 
 
 

Oyama   &   Stagg-Williams   

Elsevier

9780444537287

9780444537294

394

229 X 152

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Key Features

  • Unified by fundamental general correlations theme
  • Many graphical examples
  • Covers all major membrane types
  • Description

    Inorganic, Polymeric and Composite Membranes:   Structure-Function and Other Correlations covers the latest technical advances in topics such as structure-function relationships for polymeric, inorganic, and composite membranes.  Leading scientists provide in depth reviews and disseminate cutting-edge research results  on correlations but also discuss new materials, characterization, modelling, computational simulation, process concepts, and spectroscopy.

    Readership

    Researchers, scientists, engineers and practitioners working in membrane materials and separation. The level of the book is suitable for advanced undergraduate and graduate students.

    S. Ted Oyama

    Affiliations and Expertise

    Fred W. Bull Professor of Chemical Engineering, Virginia Tech, Blacksburg, USA

    Information about this author is currently not available.

    Inorganic Polymeric and Composite Membranes, 1st Edition

    Dedication

    Contributors

    Preface

    Chapter 1 Correlations

    Introduction

    Scientific laws and correlations

    Important properties in membrane science

    Examples of correlations in the membrane separation field

    Summary

    Chapter 2 Review of Silica Membranes for Hydrogen Separation Prepared by Chemical Vapor Deposition

    Introduction

    Silica Membranes Supported on Vycor Glass

    Silica Membranes Supported on Alumina

    Conclusions

    Chapter 3 Amorphous Silica Membranes for H2 Separation Prepared by Chemical Vapor Deposition on Hollow Fiber Supports

    Introduction

    Experimental

    Results and discussion

    Conclusions

    Chapter 4 Ab Initio Studies of Silica-Based Membranes

    Introduction

    Previous theoretical studies on dense silica-based membranes

    Method of calculation

    Results and discussion

    Conclusions

    Chapter 5 Review of CO2/CH4 Separation Membranes

    Introduction

    Discussion

    Overall results

    Conclusions

    Chapter 6 Gas Permeation Properties of Helium, Hydrogen, and Polar Molecules Through Microporous Silica Membranes at High Temperatures

    Introduction

    Experimental

    Results and discussion

    Conclusions

    Chapter 7 Correlation Between Pyrolysis Atmosphere and Carbon Molecular Sieve Membrane Performance Properties

    Introduction

    Theory and background

    Experimental

    Results and discussion

    Conclusion

    Chapter 8 Review on Prospects for Energy Saving in Distillation Process with Microporous Membranes

    Introduction

    Potential of membrane separation technology for large-scale reduction in energy consumption

    Why zeolite membranes are promising

    Synthesis technique of zeolite membranes

    De-watering technology using zeolite membranes

    Concluding remarks

    Chapter 9 Xylene Separation Performance of Composition-Gradient MFI Zeolite Membranes

    Introduction

    Experimental

    Results and discussion

    Conclusions

    Chapter 10 Membrane Extraction for Biofuel Production

    Introduction

    Material and methods

    Results

    Conclusions

    Chapter 11 A Review of Mixed Ionic and Electronic Conducting Ceramic Membranes as Oxygen Sources for High-Temperature Reactors

    Introduction

    General attributes of oxygen-conducting MIEC ceramic materials

    Common oxygen-MIEC membrane materials

    MIEC membranes for synthesis gas production

    Conclusions

    Chapter 12 Critical Factors Affecting Oxygen Permeation Through Dual-phase Membranes

    Introduction

    Design of dual-phase membranes with high stability and permeability

    Experimental investigation of dual-phase membranes

    Conclusions

    Chapter 13 High Temperature Gas Separations Using High Performance Polymers

    Introduction

    Experimental

    Results and discussion

    Conclusions

    Chapter 14 Using First-principles Models to Advance Development of Metal Membranes for High Temperature Hydrogen Purification

    Introduction

    DFT-based modeling of crystalline metal membranes

    Amorphous metal membranes

    Conclusion

    Chapter 15 High Performance Ultrafiltration Membranes

    Introduction

    Pore geometry effects

    Electrostatic interactions

    Concentration polarization effects

    Conclusions

    Index

     
     
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