Auszug
Membrankontaktoren sind neuartige Apparate zur Durchführung von Extraktions-, Stripp- oder Absorptionsprozessen. Beide im Stoffaustausch befindlichen Fluide werden, getrennt von einer porösen Membran, aneinander vorbeigeführt. Der hieraus resultierende, für den Membrankontaktor charakteristische dispersionsfreie Phasenkontakt bietet im Vergleich zu herkömmlichen Kontaktoren wie z.B. Kolonnen oder Mixer-Settler-Kaskaden eine Reihe interessanter Vorteile (s. Kap. 14.2.2).
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
Baker R W (2000) Chapter 12 Medical Applications of Membranes. In: Membrane Technology and Applications. McGraw-Hill, New York S 443–468
Baker R W (2000) Chapter 13 Other Membrane Processes. In: Membrane Technology and Applications. McGraw-Hill, New York S 469–497
Basu R, Sirkar K K (1992) Pharmaceutical product recovery using a hollow fiber contained liquid membrane: A case study. J Membr Sci 75(1–2): 131–149
Bauer B, Danz K (1997) Säuren-und Laugen-Management mittels Membrantrennverfahren. In: Aachener Membran Kolloquium 1997, Preprints, S 135–154
Chilton T H, Colburn A P (1935) Distillation and Absorption in Packed Columns. A Convenient Design and Correlation Method. Ind Eng Chem, 27: 255–260
Cussler E L (1997) Diffusion: Mass Transfer in Fluid Systems. (2nd edn) Cambridge, S 226 ff
Ding H B, Carr P W, Cussler E L (1992) Racemic Leucine Separation by Hollow-Fiber Extraction. AIChE Journal 38(10): 1493 ff
Gabelman A, Hwang S-T (1999) Hollow fiber membrane contactors. J Membr Sci 159:61–106
Jin M, Li P, Song Q, Wang S (1995) Composite hollow fiber membrane and its application in concentrating vitamine B12. Water Treatment 10(3): 215–219
Jurado Alameda E, Gonzalez Tello P, Luzon Gonzalez G (1994) Utilization of a hollow fiber reactor as an enzyme immobilization method. Afinidad 51(451): 227–232
Kalogerakis N, Behie L A (1991) Evaluation of a hollow fiber oxygenator for use in bubble-free mammalian cell bioreactors. Canadian J Chem Eng 69(2): 444–449
Kashefi-Khorasani, A A (2005) Untersuchungen zu Stofftransport und Fluiddynamik bei extrakorporalen Membranoxygenatoren. RWTH Aachen, Dissertation, ISBN: 3-86130-764-2
Kiani A, Bhave R R, Sirkar K K (1984) Solvent Extraction with Immobilized Interfaces in a Microporous Hydrophobic Membrane. J Membr Sci 20(2): 125–145
Klaasen R, Feron P H M, Jansen A E (2005) Membrane contactors in industrial applications. Trans IChemE, Part A, Chemical Engineering Research and Design, 83(A3): 234–246
Lawson K W, Lloyd D R (1997) Membrane Distillation. J Membr Sci 124(1): 1–25
Lawson K W, Lloyd D R (1996) Membrane Distillation. II. Direct Contact MD. J Membr Sci 120(1): 123–133
Lowrey D M, Meslovich K, Nguyen A, Goffe R A, Shi Y, Rybski V (1994) Monoclonal antibody production and purification using miniature hollow-fiber cell culture technology. American Biotechnology Laboratory 12(6): 16–17
Melin T, Gruber R (April 2001) Flüssigextraktion von Phenol in einem beschichteten Membrankontaktor. In: Institut für Verfahrenstechnik der RWTH Aachen (Hrsg) IVT-Information.
Membrana GmbH’ Liqui-Cel®, Firmeninformation auf Webseite (Juli 2006): http://www.liqui-cel.com/technical-resources/papers.cfm
Mersmann A (1986) Stoffübertragung. In: Grigull U (Hrsg) Wärme-und Stoffübertragung. Springer, Berlin Heidelberg New York Tokyo
Mulder M (1996) Basic Principles of Membrane Technology. (2nd edn) Kluwer Academic Publishers, Dordrecht
Pirkle W H, Bowen W E (1994) Preparative separation of enantiomers using hollowfiber membrane technology. Tetrahedron: Asymmetry 5(5): 773–776
Prasad R, Kiani A, Bhave R R, Sirkar K K (1986) Further Studies on Solvent Extraction with Immobilized Interfaces in a Microporous Hydrophobic Membrane. J Membr Sci 26(1): 79–97
Prasad R, Sirkar K K (1987) Solvent Extraction with Microporous Hydrophilic and Composite Membranes. AIChE Journal 33(7): 1057–1066
Reed B W, Semmens M J, Cussler E L (1995) Membrane Contactors. In: Noble R, Stern S (eds) Membrane Separations Technology, Principles and Applications. Amsterdam
Sirkar K K (1992) Part X Chapter 46 Other New Membrane Processes. In: Ho W S W, Sirkar K K (eds) Membrane Handbook. New York
Smolders K, Franken A C M (1989) Terminology for Membrane Distillation. Desalination 72: 249–262
Tomida T, Inoue T, Tsuchiya K, Masuda S (1994) Concentration and/or Removal of Metal Ions Using a Water-Soluble Chelating Polymer and a Microporous Hollow Fiber Membrane. Industrial and Engineering Chemistry Research 33(4): 904–906
Vaidya A M, Halling P J, Bell G (1993) Novel reactor for aqueous-organic two-phase biocatalysis: a packed bed hollow fiber membrane bioreactor. Biotechnology Techniques 7(7): 441–446
Walsh A J, Monbouquette H G (1993) Extraction of Cd2+ and Pb2+ from dilute aqueous solution using metal-sorbing vesicles in a hollow-fiber cartridge. J Membr Sci 84(1–2): 107–121
Wickramasinghe S R, Semmens M J, Cussler E L (1991) Better hollow fiber contactors. J Membr Sci 62(3): 371–388
Yun C H, Prasad R, Guha A K, Sirkar K K (1993) Hollow Fiber Solvent Extraction Removal of Toxic Heavy Metals from Aqueous Waste Streams. Industrial and Engineering Chemistry Research 32(6): 1186–11
Rights and permissions
Copyright information
© 2007 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
(2007). Membrankontaktoren. In: Membranverfahren. VDI-Buch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-34328-8_14
Download citation
DOI: https://doi.org/10.1007/978-3-540-34328-8_14
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-34327-1
Online ISBN: 978-3-540-34328-8
eBook Packages: Life Science and Basic Disciplines (German Language)