Description
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.- Focuses on the necessity for environmental-friendly and cost-effective purification and separation process- Lists all new membrane materials suitable for commercialization- Presents new modern approaches and ideas for improving the membrane efficiency
Table of Contents
Part 1 New, promising to be commercialized, membranematerials and units1. Review on polymeric membrane materials for gas separations which arestated above the Robeson's trade-off upper bound 2. New inorganic membranes for gas separations which are stated above theRobeson's trade-off upper bound 3. New nonporous fillers-based hybrid membranes for gas separations and watertreatment process 4. New commercial membranes for gas separations and water desalinationprocesses Part 2 New membrane manufacturing materials5. New metal-organic frameworks and other porous filler-based hybridmembranes for gas separation and wastewater treatment 6. Polymers of intrinsic microporosity and their applicability in pilot-scalemembrane units 7. SiC porous membranes. How possible could be the production ofhigh selective porous SiC membranes? 8. Carbon and graphene oxide materials and their potential applications inmembrane separation technology 9. Solvent and material selection for greener membrane manufacturing 10. New polymeric and inorganic membrane materials for water separation Part 3 The next decade's ideas about the futuremembrane technology11. Hybrid membranes, liquid/solid, for the enhancement of membrane gasselectivity. The example of ionic liquid membrane 12. Cryogenic-membrane gas separation hybrid processes 13. New perspectives in gas separations (CO2/CH4, H2/CH4) using membranes 14. New perspectives in O2/N2 gas separation 15. Recent advances in the application of magnetic/electromagneticfield for water desalination 16. Applications of graphene oxide in reverse osmosis membranes 17. Membrane water processes and nanobubble technology
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