Advanced membrane science and technology for sustainable energy and environmental applications / edited by Angelo Basile and Suzana Pereira Nunes.

Membrane materials allow for the selective separation of gas and vapour and for ion transport. Materials research and development continues to drive improvements in the design, manufacture and integration of membrane technologies as critical components in both sustainable energy and clean industry a...

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Bibliographic Details
Online Access: Full Text (via O'Reilly/Safari)
Other Authors: Basile, Angelo (Angelo Bruno), Nunes, S. P. (Suzana Pereira)
Format: eBook
Language:English
Published: Cambridge ; Philadelphia : Woodhead Pub., 2011.
Series:Woodhead Publishing in energy ; no. 25.
Subjects:

MARC

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245 0 0 |a Advanced membrane science and technology for sustainable energy and environmental applications /  |c edited by Angelo Basile and Suzana Pereira Nunes. 
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490 1 |a Woodhead Publishing series in energy,  |x 2044-9364 ;  |v no. 25 
504 |a Includes bibliographical references and index. 
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520 |a Membrane materials allow for the selective separation of gas and vapour and for ion transport. Materials research and development continues to drive improvements in the design, manufacture and integration of membrane technologies as critical components in both sustainable energy and clean industry applications. Membrane utilisation offers process simplification and intensification in industry, providing low-cost, and efficient and reliable operation, and contributing towards emissions reductions and energy security. Advanced membrane science and technology for sustainable energy and environmental applications presents a comprehensive review of membrane utilisation and integration within energy and environmental industries. Part one introduces the topic of membrane science and engineering, from the fundamentals of membrane processes and separation to membrane characterization and economic analysis. Part two focuses on membrane utilisation for carbon dioxide (CO2) capture in coal and gas power plants, including pre- and post-combustion and oxygen transport technologies. Part three reviews membranes for the petrochemical industry, with chapters covering hydrocarbon fuel, natural gas and synthesis gas processing, as well as advanced biofuels production. Part four covers membranes for alternative energy applications and energy storage, such as membrane technology for redox and lithium batteries, fuel cells and hydrogen production. Finally, part five discusses membranes utilisation in industrial and environmental applications, including microfiltration, ultrafiltration, and forward osmosis, as well as water, wastewater and nuclear power applications. With its distinguished editors and team of expert contributors, Advanced membrane science and technology for sustainable energy and environmental applications is an essential reference for membrane and materials engineers and manufacturers, as well as researchers and academics interested in this field. Presents a comprehensive review of membrane science and technology, focusing on developments and applications in sustainable energy and clean-industryDiscusses the fundamentals of membrane processes and separation and membrane characterization and economic analysisAddresses the key issues of membrane utilisation in coal and gas power plants and the petrochemical industry, the use of membranes for alternative energy applications and membrane utilisation in industrial and environmental applications. 
505 0 |a Cover; Advanced membrane science and technology for sustainable energy and environmental applications; Copyright; Contents; Contributor contact details; Woodhead Publishing Series in Energy; Preface; Part I Introduction to membrane science and engineering; 1Fundamental membrane processes, science and engineering; 1.1 Introduction; 1.2 Membrane processes; 1.3 Conclusions and future trends; 1.4 References; 2Fundamental science of gas and vapour separation in polymeric membranes; 2.1 Introduction; 2.2 Basic principles and definitions of separation processes. 
505 8 |a 2.3 Effects of the properties of penetrants and polymers2.4 Effects of pressure on transport parameters; 2.5 Effects of temperature on transport parameters; 2.6 Gas permeability of polymers: objects of membrane gas separation; 2.7 References; 2.8 Appendix: list of symbols; 3Characterization of membranes for energy and environmental applications; 3.1 Polymer and carbon molecular sieve membranes; 3.2 Zeolite and mixed matrix membranes; 3.3 Mass transport characterization; 3.4 Conclusions; 3.5 References; 3.6 Appendix: list of symbols. 
505 8 |a 4Economic analysis of membrane use in industrial applications4.1 Introduction; 4.2 Economic analysis; 4.3 Case studies; 4.4 Conclusions and future trends; 4.5 References; Part II Membranes for coal and gas power plants:carbon dioxide (CO2) capture, synthesis gas processing and oxygen (O2) transport; 5Membrane technology for carbon dioxide (CO2) capture in power plants; 5.1 Introduction; 5.2 Reasons for using membranes for carbon dioxide (CO2) separation and sequestration; 5.3 A short review of membrane technology for CO2 separation; 5.4 Performance of membrane processes for CO2 sequestration. 
505 8 |a 5.5 Membrane modules for CO2 sequestration5.6 Design for power plant integration; 5.7 Cost considerations and membrane technology at the industrial scale; 5.8 Modelling aspects of gas permeation membrane modules; 5.9 Conclusions and future trends; 5.10 References; 5.11 Appendix: list of symbols; 6Polymeric membranes for post-combustion carbon dioxide (CO2) capture; 6.1 Introduction; 6.2 Basic principles of flue gas membrane separation; 6.3 Membrane development and applications in power plants; 6.4 Operation and performance issues and analysis; 6.5 Advantages and limitations; 6.6 Future trends. 
505 8 |a 6.7 References7Inorganic membranes for pre-combustion carbon dioxide (CO2) capture; 7.1 Introduction; 7.2 Inorganic membranes for carbon dioxide (CO2) separation; 7.3 Membrane reactors for CO2 capture; 7.4 Techno-economic analysis of the integrated gasification combined cycle (IGCC) and natural gas combined cycle (NGCC); 7.5 Conclusions and future trends; 7.6 References; 8Inorganic membranes for synthesis gas processing; 8.1 Introduction; 8.2 Basic principles of membrane operation; 8.3 Membrane materials and development; 8.4 Application and integration in industry; 8.5 Membrane modules. 
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