Description |
1 online resource (xxi, 552 pages) : illustrations |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Note |
Description based upon print version of record. |
Bibliography |
Includes bibliographical references and index. |
Contents |
Front Cover -- Current Trends and Future Developments on (Bio-) Membranes -- Copyright Page -- Contents -- List of contributors -- Preface -- 1 New, promising to be commercialized, membrane materials and units -- 1 Review on polymeric membrane materials for gas separations which are stated above the Robeson's trade-off upper bound -- 1.1 Introduction -- 1.2 Classification of membranes -- 1.2.1 Polymeric membrane materials for gas separation -- 1.2.2 Inorganic membrane materials for gas separation -- 1.2.3 Mixed matrix membrane materials for gas separation -- 1.3 Conclusions and future trends |
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List of acronyms -- List of symbols -- References -- 2 New inorganic membranes for gas separations which are stated above the Robeson's trade-off upper bound -- 2.1 Introduction -- 2.2 Isolation of natural gas -- 2.3 Air separation (N2/O2) -- 2.4 Hydrogen separation -- 2.5 Helium extraction -- 2.6 Hydrocarbon separations (olefins/paraffins, linear/branched isomers) -- 2.7 CO2 capture from natural gas, flue gas, biogas, and syngas (CO2/CH4, CO2/air, CO2/H2) -- 2.8 Conclusion and future trends -- List of acronyms -- List of symbols -- References |
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3 New nonporous fillers-based hybrid membranes for gas separations and water treatment process -- 3.1 Introduction -- 3.2 Fundamentals of membrane gas transport -- 3.2.1 Transport mechanism of polymeric membranes -- 3.2.2 Advanced models for predicting gas separation performance -- 3.3 Hybrid membranes -- 3.4 Rational design strategies of filler-polymer mixed matrix membranes -- 3.4.1 Nonporous filler-based mixed matrix membranes -- 3.4.2 Hybrid membranes with carbon nanotubes as fillers -- 3.4.2.1 Fabrication of carbon nanotubes-based hybrid membranes |
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3.4.2.2 Gas separation of functionalized carbon nanotubes-based hybrid membranes -- 3.4.2.3 Application of carbon nanotubes-based hybrid membranes in water treatment -- 3.4.3 Hybrid membranes with graphene and graphene oxide as fillers -- 3.4.3.1 Preparation of graphene/graphene oxide-based hybrid membranes -- 3.4.3.2 Application of graphene/graphene oxide membranes in gas separation -- 3.4.3.3 Application of graphene/graphene oxide membranes in water treatment -- 3.4.3.4 Outlook and challenges -- 3.4.4 Hybrid membranes with metal nanoparticles as fillers |
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3.4.4.1 Application of metals or metal oxides-hybrid membranes in gas separation -- 3.4.4.2 Application of metals or metal oxides-hybrid membranes in wastewater treatment -- 3.5 Conclusions and future trends -- List of symbols -- List of acronyms -- References -- 4 New commercial membranes for gas separations and water desalination processes -- 4.1 Introduction -- 4.2 Commercial achievements in membrane technology -- 4.3 Commercial membranes in gas separation -- 4.3.1 Commercial inorganic membranes in gas separation -- 4.3.2 Commercial organic membranes in gas separation |
Note |
4.3.3 Commercial gas separation membranes plants and operation |
Summary |
Modern Approaches in Membrane Technology for Gas Separation and Water Treatment presents condensed information on novel and promising membrane materials. The book answers some major questions from the membrane community about three promising materials that are to be introduced at industrial scale. It introduces recent, out of the box, ideas concerning the application of new methods capable to enhance the membrane separation efficiency. Sections cover potential commercialization, important question on three famous membrane materials, and new approaches in membrane technology. Finally, the book describes and discusses three novel ideas about the potential effect of the magnetic field on membrane separation efficiency, the use of cryogenic technology on membrane separations, and the use of nanobubble technology on water membrane processes. |
Subject |
Membranes (Technology)
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Membrane separation.
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Gases -- Separation.
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Water -- Purification -- Membrane filtration.
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Membranes (Technologie)
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Séparation par membranes.
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Gaz -- Séparation.
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Eau -- Épuration -- Filtration sur membrane.
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Added Author |
Basile, Angelo, editor.
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Favvas, Evangelos P., editor
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Other Form: |
Print version: Current trends and future developments on (bio-) membranes. Amsterdam : Elsevier, 2023 9780323993111 (OCoLC)1400080673 |
ISBN |
9780323993128 ebook |
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0323993125 ebook |
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9780323993111 |
Standard No. |
AU@ 000076057507 |
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