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Membranverfahren pp 405–436Cite as

Pervaporation / Dampfpermeation

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Zusammenfassung

Die Pervaporation nimmt wegen des Phasenwechsels der permeierenden Komponenten vom flüssigen in den dampfförmigen Zustand und der dazu erforderlichen Verdampfungsenthalpie insofern eine Sonderstellung ein, als hier nicht nur der Stofftransport, sondern auch der Wärmetransport zu beachten ist. Abb. 13.1. verdeutlicht das Verfahrensprinzip.

The erratum of this chapter is available at http://dx.doi.org/10.1007/978-3-662-08653-7_21

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Literatur

  1. Albrecht R (1983) Pervaporation - Beiträge zur Verfahrensentwicklung. Dissertation, RWTH Aachen

    Google Scholar 

  2. Baker R W, Wijmans J G, Blume I (1990) The Separation of Dissolved Organics from Water by Pervaporation. J Mem Sci 49: 253–286

    Article  Google Scholar 

  3. Bartels C, Kablaoui M, Reale J, Shah V (1992) Industrial Considerations in Technology Development. Proceedings 6th Int Conf on Pervaporation Processes in the Chem Ind, Ottawa, September 1992 Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  4. Böddeker K W, Bengtson G, Bode E (1989) Selektive Separation von Schwersiedern aus Wasser durch Pervaporation. 2. Aachener Membran Kolloquium, 14.-16. März 1989, Aachen

    Google Scholar 

  5. Brüschke H E A (1989) PV-Großanlage zur Absolutierung von Bioalkohol. 2. Aachener Membran Kolloquium, 14.-16. März 1989, Aachen

    Google Scholar 

  6. Brüschke H E A, Schneider W (1991) Modified PDMS-Membranes for Solvent Removal from Water. Proceedings 5th Int Conf on Pervaporation Proc in the Chem Ind, Heidelberg, März 1991 Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  7. Funke H H, Argo A M, Baertsch C D, Falconer J L, Noble R (1996) Separation of Close-boiling Hydrocarbons with Silicalite Zeolite Membranes. J Chem Soc, Faraday Trans 92, 13: 2499–2502

    Article  Google Scholar 

  8. Gudernatsch W, Kimmerle K (1991) New Capillary Modules for Pervaporation. Proceedings 5th Int Conf on Pervaporation Proc in the Chem Ind, Heidelberg, März 1991 Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  9. Helmus F (1994) Dampfpermeation - Trennvermögen, Prozessentwicklung und Einsatzmöglichkeiten. Dissertation, RWTH Aachen

    Google Scholar 

  10. Hino T, Ohya H, Hara T (1991) Removal of Halogenated Organics from their Aqueous Solutions by Pervaporation. Proceedings 5th Int Conf on Pervaporation Proc in the Chem Ind, Heidelberg, März 1991 Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  11. Hsieh K H, Tsai C C, Tseng S M (1990) Vapor and Gas Permeability of Polyurethane Membranes. Part I. Structure- Property Relationship. J Mem Sci, 49: 341–350

    Article  CAS  Google Scholar 

  12. Hömmerich U (1998) Pervaporation und Dampfpermeation mit Zeolithmembranen. Dissertation, RWTH Aachen, Verlag Mainz, Wissenschaftsverlag Aachen

    Google Scholar 

  13. Kita H, Inoue T, Asamura H, Tanaka K and Okamoto K (1997) NaY Zeolite Membrane for the Pervaporation Separation of Methanol-Methyl-tert-Butyl Ether Mixtures. Chem Commun 45–46

    Google Scholar 

  14. Klatt S (1993) Zum Einsatz der Pervaporation im Umfeld der chemischen Industrie. Dissertation, RWTH Aachen

    Google Scholar 

  15. Kölsch P, Noack M, Caro J (1999) Mikroporöse temperaturbeständige anorganische Membranen auf Keramikbasis und deren Einsatzmöglichkeiten. 7. Aachener Membran Kolloquium, 9.-11. März. 1999, Aachen

    Google Scholar 

  16. Kondo M, Komori, H, Kita, K, Okamoto (1997) Tubular-type Pervaporation Module with Zeolite NaA Membrane. J Mem Sci 133: 133–141

    CAS  Google Scholar 

  17. Maus E, Brüschke H E A (1998) Entfernung von Methanol und Ethanol aus nichtwässrgen Systemen. DECHEMA-Jahrestagungen, Wiesbaden

    Google Scholar 

  18. Nijhus H N, Mulder M H V, Smolders C A (1988) Selection of Elastomeric Membranes for the Removal of Organic Components from Water. Proceedings 3rd Int Conf on Pervaporation Proc in the Chem Ind, Nancy, September 1988 Ed.: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA/

    Google Scholar 

  19. Ohst H, Hildenbrand K, Dhein R (1991) Polymer Structure/Properties-Correlation of Polyurethane PV-Membranes for Aromatic/-Aliphatic Separation. Proceedings 5th Int Conf on Pervaporation Proc in the Chem Ind, Heidelberg, März 1991, Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  20. Rautenbach R, Klatt S (1991) Treatment of Phenol Contaminated Waste Water by a RO-PV Hybrid Process. Proceedings 5th Int Conf on Pervaporation Proc in the Chem Ind, Heidelberg, März 1991 Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  21. Rautenbach R, Klatt S, Vier J (1992) State of the Art of Pervaporation - 10 Years of Industrial PV. Proceedings 6th Int Conf on Pervaporation Processes in the Chem Ind, Ottawa Ed: Bakish Materials Corp, PO Box 148, Englewood, New Jersey 07631, USA

    Google Scholar 

  22. Sano T, Ejiri S, Yamado K, Kawakami Y, Yanagishita H(1997)Separation of Acetic Acid–Water Mixtures by Pervaporation through Silicalite Membrane. J Mem Sci 123: 225–233

    Google Scholar 

  23. Sommer S (2002) Pervaporation and Vapor Permeation with Microporous Inorganic Membranes, Dissertation, RWTH Aachen

    Google Scholar 

  24. S - Sophisticated Systems Ltd (2001) Firmeninformation. 1415 Windsor St. NW, Calgary AB, T2N 3X4, Canada

    Google Scholar 

  25. van Heen H M, van Delft Y C, Engelen C W R, Pex PP AC (1999) Dewatering of organics by pervaporation with silica membranes.7. Aachener Membran Kolloquium, 9.11. März 1999, Aachen

    Google Scholar 

  26. Velterop F (2002) Industrial applications of ceramic pervaporation membranes. 10. Kolloquium Trends der Membrantechnik, 29.-30. März 2002, Stuttgart

    Google Scholar 

  27. Vier J (1995) Pervaporation azeotroper wässriger und rein organischer Stoffgemische - Verfahrensentwicklung und —integration. Dissertation, RWTH Aachen

    Google Scholar 

  28. Waldburger R M, Widmer F (1996) Membrane Reactors in Chemical Production Processes and the Application to the Pervaporation-Assisted Esterification. Chem Eng Technol 19: 117–126

    Article  CAS  Google Scholar 

  29. Wijmans J G, Koschemecat J, Davidson J R, Baker R W (November 1990) Treatment of Organic-Contamined Wastewater Streams by Pervaporation. Environmental Progress (Vol. 9, No. 4 )

    Google Scholar 

  30. Wynn N (2000) Dehydration with Silica Pervaporation Membranes. Sulzer Technical Review

    Google Scholar 

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Authors and Affiliations

  1. Institut für Verfahrenstechnik, RWTH Aachen, Turmstr. 46, 52056, Aachen, Deutschland

    Prof. Dr. Thomas Melin

Authors
  1. Prof. Dr. Thomas Melin
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  2. Robert Rautenbach
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© 2004 Springer-Verlag Berlin Heidelberg

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Melin, T., Rautenbach, R. (2004). Pervaporation / Dampfpermeation. In: Membranverfahren. VDI-Buch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-08653-7_13

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  • DOI: https://doi.org/10.1007/978-3-662-08653-7_13

  • Publisher Name: Springer, Berlin, Heidelberg

  • Print ISBN: 978-3-662-08654-4

  • Online ISBN: 978-3-662-08653-7

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