Front Cover; Related titles; Pervaporation, Vapour Permeation and Membrane Distillation; Copyright; Contents; List of contributors; Woodhead Publishing Series in Energy; Preface; Part One --; Pervaporation; 1 --; Fundamentals of pervaporation; 1.1 Introduction; 1.2 Fundamentals of mass and heat transfer in pervaporation; 1.3 Process and technological matters in pervaporation; 1.4 Concluding remarks and future trends; References; 1. Appendix: notation and abbreviations; 2 --; Pervaporation membranes: preparation, characterization, and application; 2.1 Introduction 2.2 Pervaporation (PV) membrane materials2.3 Characterization of pervaporation membranes; 2.4 Membrane module configurations for pervaporation; 2.5 Membranes for pervaporation applications; 2.6 Future trends and conclusions; References; 2. Appendix: notation and abbreviations; 3 --; Integrated systems involving pervaporation and applications; 3.1 Introduction to integrated systems involving pervaporation; 3.2 Applications of integrated systems involving pervaporation; 3.3 Conclusions and future trends; 3.4 Sources of further information and advice; References; 3. Appendix: abbreviations 4 --; Pervaporation modeling: state of the art and future trends4.1 Introduction; 4.2 Fundamentals of pervaporation modeling; 4.3 Applications to improve the efficiency of pervaporation; 4.4 Conclusions; 4.5 Future trends; 4.6 Sources of further information and advice; References; 4. Appendix: notation; 5 --; Next-generation pervaporation membranes: recent trends, challenges and perspectives; 5.1 Introduction; 5.2 Modified ceramic membranes; 5.3 Mixed matrix membranes; 5.4 Bio-inspired membranes and membrane synthesis approaches; 5.5 Supported liquid (SL) membranes 5.6 Final remarks and future trends5.7 Sources of further information; References; 5. Appendix: abbreviations; Part Two --; Vapour permeation; 6 --; Membranes for vapour permeation: preparation and characterization; 6.1 Introduction; 6.2 Polymer membranes; 6.3 Zeolite membranes; 6.4 Mixed matrix membranes; 6.5 Future directions; References; 6. Appendix: abbreviations; 7 --; Integrated systems involving membrane vapor permeation and applications; 7.1 Introduction; 7.2 Integrated systems involving membrane vapor separation; 7.3 Applications of membrane vapor separation 7.4 Conclusion and sources of further information and advice7.5 Future trends in development of membrane vapor separation; References; 7. Appendix: notation and abbreviations; 8 --; Vapour permeation modelling; 8.1 Introduction; 8.2 Fundamentals of vapour permeation modelling into dense polymeric membranes; 8.3 Diffusion modelling; 8.4 Solubility modelling; 8.5 Vapour permeation in mixed matrix membranes and heterogeneous systems; 8.6 Future trends; 8.7 Conclusions; References; 8. Appendix: notation and abbreviations; 9 --; New generation vapour permeation membranes; 9.1 Introduction
Vapour permeation and membrane distillation are two emerging membrane technologies for the production of vapour as permeate, which, in addition to well-established pervaporation technology, are of increasing interest to academia and industry. As efficient separation and concentration processes, they have high potential for use in the energy, water, chemical, food and pharmaceutical sectors. Part One begins by covering the fundamentals, preparation and characterization of pervaporation, before going on to outline the associated systems and applications. State of the art uses, future trends.
Membrane separation.
Membranes (Technology)
Pervaporation.
TP248
.
25
.
M46
E358
9999
edited by Angelo Basile, Alberto Figoli and Mohamed Khayet.