E-Book, Englisch, 480 Seiten
Principles and Applications
E-Book, Englisch, 480 Seiten
Reihe: Woodhead Publishing Series in Energy
ISBN: 978-1-78242-256-3
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Angelo Basile, a Chemical Engineer, is a senior Researcher at the ITM-CNR, University of Calabria, where he is responsible for research related to both the ultra-pure hydrogen production and CO2 capture using Pd-based Membrane Reactors. Angelo Basile's h-index is 53, with 387 document results with a total of 8,910 citations in 5,034 documents (www.scopus.com - 24 May 2023). He has more than 170 scientific papers in peer-to-peer journals and 252 papers in international congresses; and is a reviewer for 165 int. journals, an editor/author of more than 50 scientific books and 120 chapters on international books on membrane science and technology; 6 Italian patents, 2 European patents and 5 worldwide patents. He is referee of 104 international scientific journals and Member of the Editorial Board of 22 of them. Basile is also Editor associate of the Int. J. Hydrogen Energy and Editor-in-chief of the Int. J. Membrane Science & Technol. and Editor-in-chief of Membrane Processes (Applications), a section of the Intl J. Membranes. Basile also prepared 42 special issues on membrane science and technology for many international journals (IJHE, Chem Eng. J., Cat. Today, etc.). He participated to and was/is responsible of many national and international projects on membrane reactors and membrane science. Basile served as Director of the ITM-CNR during the period Dec. 2008 - May 2009. In the last years, he was tutor of 30 Thesis for master and Ph.D. students at the Chemical Engineering Department of the University of Calabria (Italy). From 2014, Basile is Full Professor of Chemical Engineering Processes.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Related titles;3
3;Pervaporation, Vapour Permeation and Membrane Distillation;4
4;Copyright;5
5;Contents;6
6;List of contributors;12
7;Woodhead Publishing Series in Energy;14
8;Preface;18
9;Part One - Pervaporation;22
9.1;1 - Fundamentals of pervaporation;24
9.1.1;1.1 Introduction;24
9.1.2;1.2 Fundamentals of mass and heat transfer in pervaporation;24
9.1.3;1.3 Process and technological matters in pervaporation;30
9.1.4;1.4 Concluding remarks and future trends;35
9.1.5;References;36
9.1.6;1. Appendix: notation and abbreviations;38
9.2;2 - Pervaporation membranes: preparation, characterization, and application;40
9.2.1;2.1 Introduction;40
9.2.2;2.2 Pervaporation (PV) membrane materials;41
9.2.3;2.3 Characterization of pervaporation membranes;54
9.2.4;2.4 Membrane module configurations for pervaporation;57
9.2.5;2.5 Membranes for pervaporation applications;59
9.2.6;2.6 Future trends and conclusions;74
9.2.7;References;75
9.2.8;2. Appendix: notation and abbreviations;82
9.3;3 - Integrated systems involving pervaporation and applications;86
9.3.1;3.1 Introduction to integrated systems involving pervaporation;86
9.3.2;3.2 Applications of integrated systems involving pervaporation;88
9.3.3;3.3 Conclusions and future trends;100
9.3.4;3.4 Sources of further information and advice;101
9.3.5;References;102
9.3.6;3. Appendix: abbreviations;106
9.4;4 - Pervaporation modeling: state of the art and future trends;108
9.4.1;4.1 Introduction;108
9.4.2;4.2 Fundamentals of pervaporation modeling;109
9.4.3;4.3 Applications to improve the efficiency of pervaporation;121
9.4.4;4.4 Conclusions;122
9.4.5;4.5 Future trends;122
9.4.6;4.6 Sources of further information and advice;124
9.4.7;References;124
9.4.8;4. Appendix: notation;126
9.5;5 - Next-generation pervaporation membranes: recent trends, challenges and perspectives;128
9.5.1;5.1 Introduction;128
9.5.2;5.2 Modified ceramic membranes;130
9.5.3;5.3 Mixed matrix membranes;137
9.5.4;5.4 Bio-inspired membranes and membrane synthesis approaches;143
9.5.5;5.5 Supported liquid (SL) membranes;148
9.5.6;5.6 Final remarks and future trends;151
9.5.7;5.7 Sources of further information;152
9.5.8;References;152
9.5.9;5. Appendix: abbreviations;161
10;Part Two - Vapour permeation;164
10.1;6 - Membranes for vapour permeation: preparation and characterization;166
10.1.1;6.1 Introduction;166
10.1.2;6.2 Polymer membranes;167
10.1.3;6.3 Zeolite membranes;173
10.1.4;6.4 Mixed matrix membranes;182
10.1.5;6.5 Future directions;187
10.1.6;References;188
10.1.7;6. Appendix: abbreviations;195
10.2;7 - Integrated systems involving membrane vapor permeation and applications;198
10.2.1;7.1 Introduction;198
10.2.2;7.2 Integrated systems involving membrane vapor separation;201
10.2.3;7.3 Applications of membrane vapor separation;213
10.2.4;7.4 Conclusion and sources of further information and advice;217
10.2.5;7.5 Future trends in development of membrane vapor separation;218
10.2.6;References;219
10.2.7;7. Appendix: notation and abbreviations;222
10.3;8 - Vapour permeation modelling;224
10.3.1;8.1 Introduction;224
10.3.2;8.2 Fundamentals of vapour permeation modelling into dense polymeric membranes;225
10.3.3;8.3 Diffusion modelling;227
10.3.4;8.4 Solubility modelling;240
10.3.5;8.5 Vapour permeation in mixed matrix membranes and heterogeneous systems;252
10.3.6;8.6 Future trends;254
10.3.7;8.7 Conclusions;258
10.3.8;References;258
10.3.9;8. Appendix: notation and abbreviations;264
10.4;9 - New generation vapour permeation membranes;268
10.4.1;9.1 Introduction;268
10.4.2;9.2 Current limitations of vapour permeation (VP);274
10.4.3;9.3 Emerging VP membrane materials;279
10.4.4;9.4 Emerging membrane module configurations;283
10.4.5;9.5 Emerging applications for VP;283
10.4.6;9.6 Conclusions and future trends;287
10.4.7;9.7 Sources of further information;288
10.4.8;Acknowledgements;288
10.4.9;References;288
10.4.10;9. Appendix: notation and abbreviations;294
11;Part Three - Membrane distillation;296
11.1;10 - Fundamentals of membrane distillation;298
11.1.1;10.1 Introduction: nonisothermal membrane processes;298
11.1.2;10.2 Key characteristics of membrane distillation;301
11.1.3;10.3 Types of membranes and membrane module configurations for membrane distillation;305
11.1.4;10.4 Membrane distillation theory;310
11.1.5;10.5 Typical application of membrane distillation technology;329
11.1.6;10.6 Conclusions;330
11.1.7;10.7 Future trends and sources of further information and advice;330
11.1.8;Acknowledgments;332
11.1.9;References;332
11.1.10;10. Appendix: abbreviations;337
11.2;11 - Membranes used in membrane distillation: preparation and characterization;338
11.2.1;11.1 Introduction;338
11.2.2;11.2 Materials for membrane distillation (MD) membranes;340
11.2.3;11.3 Design and fabrication of MD membranes;348
11.2.4;11.4 Characterization of MD membranes;359
11.2.5;11.5 MD membrane modules and testing of MD membranes;362
11.2.6;11.6 Conclusions and future trends;365
11.2.7;11.7 Sources of further information and advice;370
11.2.8;Acknowledgments;370
11.2.9;References;371
11.2.10;11. Appendix: abbreviations;378
11.3;12 - Integrated systems involving membrane distillation and applications;382
11.3.1;12.1 Introduction;382
11.3.2;12.2 Applications of membrane distillation in desalination;383
11.3.3;12.3 Other applications of membrane distillation;390
11.3.4;12.4 Integrated systems involving membrane distillation;396
11.3.5;12.5 Conclusions and future trends;398
11.3.6;12.6 Sources of further information;399
11.3.7;References;399
11.3.8;12. Appendix: abbreviations;404
11.4;13 - Modelling of pore wetting in membrane distillation compared with pervaporation;406
11.4.1;13.1 Introduction;406
11.4.2;13.2 Fundamentals of membrane distillation (MD) modelling and improvement;409
11.4.3;13.3 Review of experimental works on MD membrane pore wetting;411
11.4.4;13.4 Development of a theoretical model for pore wetting in vacuum MD;420
11.4.5;13.5 Conclusions and future directions;430
11.4.6;References;431
11.4.7;13. Appendix: notation and abbreviations;433
11.5;14 - Next generation membranes for membrane distillation and future prospects;436
11.5.1;14.1 Introduction;436
11.5.2;14.2 Materials for membrane distillation;437
11.5.3;14.3 Emerging module configurations for membrane distillation;456
11.5.4;14.4 Conclusions and future trends;459
11.5.5;References;460
11.5.6;14. Appendix: notation and abbreviations;467
12;Index;470
Woodhead Publishing Series in Energy
1 Generating power at high efficiency: Combined cycle technology for sustainable energy production
Eric Jeffs 2 Advanced separation techniques for nuclear fuel reprocessing and radioactive waste treatment
Edited by Kenneth L. Nash and Gregg J. Lumetta 3 Bioalcohol production: Biochemical conversion of lignocellulosic biomass
Edited by Keith W. Waldron 4 Understanding and mitigating ageing in nuclear power plants: Materials and operational aspects of plant life management (PLiM)
Edited by Philip G. Tipping 5 Advanced power plant materials, design and technology
Edited by Dermot Roddy 6 Stand-alone and hybrid wind energy systems: Technology, energy storage and applications
Edited by John K. Kaldellis 7 Biodiesel science and technology: From soil to oil
Jan C. J. Bart, Natale Palmeri and Stefano Cavallaro 8 Developments and innovation in carbon dioxide (CO2) capture and storage technology Volume 1: Carbon dioxide (CO2) capture, transport and industrial applications
Edited by M. Mercedes Maroto-Valer 9 Geological repository systems for safe disposal of spent nuclear fuels and radioactive waste
Edited by Joonhong Ahn and Michael J. Apted 10 Wind energy systems: Optimising design and construction for safe and reliable operation
Edited by John D. Sørensen and Jens N. Sørensen 11 Solid oxide fuel cell technology: Principles, performance and operations
Kevin Huang and John Bannister Goodenough 12 Handbook of advanced radioactive waste conditioning technologies
Edited by Michael I. Ojovan 13 Membranes for clean and renewable power applications
Edited by Annarosa Gugliuzza and Angelo Basile 14 Materials for energy efficiency and thermal comfort in buildings
Edited by Matthew R. Hall 15 Handbook of biofuels production: Processes and technologies
Edited by Rafael Luque, Juan Campelo and James Clark 16 Developments and innovation in carbon dioxide (CO2) capture and storage technology Volume 2: Carbon dioxide (CO2) storage and utilisation
Edited by M. Mercedes Maroto-Valer 17 Oxy-fuel combustion for power generation and carbon dioxide (CO2) capture
Edited by Ligang Zheng 18 Small and micro combined heat and power (CHP) systems: Advanced design, performance, materials and applications
Edited by Robert Beith 19 Advances in clean hydrocarbon fuel processing: Science and technology
Edited by M. Rashid Khan 20 Modern gas turbine systems: High efficiency, low emission, fuel flexible power generation
Edited by Peter Jansohn 21 Concentrating solar power technology: Principles, developments and applications
Edited by Keith Lovegrove and Wes Stein 22 Nuclear corrosion science and engineering
Edited by Damien Féron 23 Power plant life management and performance improvement
Edited by John E. Oakey 24 Electrical drives for direct drive renewable energy systems
Edited by Markus Mueller and Henk Polinder 25 Advanced membrane science and technology for sustainable energy and environmental applications
Edited by Angelo Basile and Suzana Pereira Nunes 26 Irradiation embrittlement of reactor pressure vessels (RPVs) in nuclear power plants
Edited by Naoki Soneda 27 High temperature superconductors (HTS) for energy applications
Edited by Ziad Melhem 28 Infrastructure and methodologies for the justification of nuclear power programmes
Edited by Agustín Alonso 29 Waste to energy conversion technology
Edited by Naomi B. Klinghoffer and Marco J. Castaldi 30 Polymer electrolyte membrane and direct methanol fuel cell technology Volume 1: Fundamentals and performance of low temperature fuel cells
Edited by Christoph Hartnig and Christina Roth 31 Polymer electrolyte membrane and direct methanol fuel cell technology Volume 2: In situ characterization techniques for low temperature fuel cells
Edited by Christoph Hartnig and Christina Roth 32 Combined cycle systems for near-zero emission power generation
Edited by Ashok D. Rao 33 Modern earth buildings: Materials, engineering, construction and applications
Edited by Matthew R. Hall, Rick Lindsay and Meror Krayenhoff 34 Metropolitan sustainability: Understanding and improving the urban environment
Edited by Frank Zeman 35 Functional materials for sustainable energy applications
Edited by John A. Kilner, Stephen J. Skinner, Stuart J. C. Irvine and Peter P. Edwards 36 Nuclear decommissioning: Planning, execution and international experience
Edited by Michele Laraia 37 Nuclear fuel cycle science and engineering
Edited by Ian Crossland 38 Electricity transmission, distribution and storage systems
Edited by Ziad Melhem 39 Advances in biodiesel production: Processes and technologies
Edited by Rafael Luque and Juan A. Melero 40 Biomass combustion science, technology and engineering
Edited by Lasse Rosendahl 41 Ultra-supercritical coal power plants: Materials, technologies and optimisation
Edited by Dongke Zhang 42 Radionuclide behaviour in the natural environment: Science, implications and lessons for the nuclear industry
Edited by Christophe Poinssot and Horst Geckeis 43 Calcium and chemical looping technology for power generation and carbon dioxide (CO2) capture: Solid oxygen- and CO2-carriers
Paul Fennell and E. J. Anthony 44 Materials’ ageing and degradation in light water reactors: Mechanisms and management
Edited by K. L. Murty 45 Structural alloys for power plants: Operational challenges and high-temperature materials
Edited by Amir Shirzadi and Susan Jackson 46 Biolubricants: Science and technology
Jan C. J. Bart, Emanuele Gucciardi and Stefano Cavallaro 47 Advances in wind turbine blade design and materials
Edited by Povl Brøndsted and Rogier P. L. Nijssen 48 Radioactive waste management and contaminated site clean-up: Processes, technologies and international experience
Edited by William E. Lee, Michael I. Ojovan and Carol M. Jantzen 49 Probabilistic safety assessment for optimum nuclear power plant life management (PLiM): Theory and application of reliability analysis methods for major power plant components
Gennadij V. Arkadov, Alexander F. Getman and Andrei N. Rodionov 50 The coal handbook: Towards cleaner production Volume 1: Coal production
Edited by Dave Osborne 51 The coal handbook: Towards cleaner production Volume 2: Coal utilisation
Edited by Dave Osborne 52 The biogas handbook: Science, production and applications
Edited by Arthur Wellinger, Jerry Murphy and David Baxter 53 Advances in biorefineries: Biomass and waste supply chain exploitation
Edited by Keith Waldron 54 Geological storage of carbon dioxide (CO2): Geoscience, technologies, environmental aspects and legal frameworks
Edited...
