Inhaltsangabe
Development of polymeric gas separation membranes is one of the fastest growing areas of membrane technology. However, polymeric materials are somewhat deficient in meeting the requirements need for current membrane technology. Mixed matrix membranes (MMMs), formed from dispersion of rigid permeable or impermeable particles in continuous polymeric matrixes, present an interesting approach for improving the separation properties of existing polymeric membranes. Indeed, using excellent properties of both organic and inorganic phases makes it possible to prepare a membrane with good permeability, selectivity, mechanical strength, thermal stability, chemical resistance, and processibility. In this book, at first, different morphologies of the MMMs are discussed by considering their pros and cons. Afterwards, predictive permeation models for the MMMs are highlighted for different morphologies and then the potential of some permeation models in prediction of gas permeability in MMMs are validated with experimental data.
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Reseña del editor
Development of polymeric gas separation membranes is one of the fastest growing areas of membrane technology. However, polymeric materials are somewhat deficient in meeting the requirements need for current membrane technology. Mixed matrix membranes (MMMs), formed from dispersion of rigid permeable or impermeable particles in continuous polymeric matrixes, present an interesting approach for improving the separation properties of existing polymeric membranes. Indeed, using excellent properties of both organic and inorganic phases makes it possible to prepare a membrane with good permeability, selectivity, mechanical strength, thermal stability, chemical resistance, and processibility. In this book, at first, different morphologies of the MMMs are discussed by considering their pros and cons. Afterwards, predictive permeation models for the MMMs are highlighted for different morphologies and then the potential of some permeation models in prediction of gas permeability in MMMs are validated with experimental data.
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Theoretical Gas Permeation Models for Mixed Matrix Membranes
Verlag:
LAP LAMBERT Academic Publishing Jun 2018, 2018
ISBN 10: 6139861896
ISBN 13: 9786139861897
Neu
Taschenbuch
Anbieter: buchversandmimpf2000, Emtmannsberg, BAYE, Deutschland
Verkäuferbewertung 5 von 5 Sternen
Taschenbuch. Zustand: Neu. Neuware -Development of polymeric gas separation membranes is one of the fastest growing areas of membrane technology. However, polymeric materials are somewhat deficient in meeting the requirements need for current membrane technology. Mixed matrix membranes (MMMs), formed from dispersion of rigid permeable or impermeable particles in continuous polymeric matrixes, present an interesting approach for improving the separation properties of existing polymeric membranes. Indeed, using excellent properties of both organic and inorganic phases makes it possible to prepare a membrane with good permeability, selectivity, mechanical strength, thermal stability, chemical resistance, and processibility. In this book, at first, different morphologies of the MMMs are discussed by considering their pros and cons. Afterwards, predictive permeation models for the MMMs are highlighted for different morphologies and then the potential of some permeation models in prediction of gas permeability in MMMs are validated with experimental data.Books on Demand GmbH, Überseering 33, 22297 Hamburg 88 pp. Englisch. Artikel-Nr. 9786139861897
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Foto des Verkäufers
Theoretical Gas Permeation Models for Mixed Matrix Membranes
Verlag:
LAP LAMBERT Academic Publishing, 2018
ISBN 10: 6139861896
ISBN 13: 9786139861897
Neu
Taschenbuch
Anbieter: preigu, Osnabrück, Deutschland
Verkäuferbewertung 5 von 5 Sternen
Taschenbuch. Zustand: Neu. Theoretical Gas Permeation Models for Mixed Matrix Membranes | Hamidreza Sanaeepur (u. a.) | Taschenbuch | 88 S. | Englisch | 2018 | LAP LAMBERT Academic Publishing | EAN 9786139861897 | Verantwortliche Person für die EU: BoD - Books on Demand, In de Tarpen 42, 22848 Norderstedt, info[at]bod[dot]de | Anbieter: preigu. Artikel-Nr. 114123723
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