1 strathmann, h. (1991), Economic assessment of membrane processes. In Turner M K (ed.) Effective Industrial Membrane Processes: Benefits and Opportunities, London: Elsevier Applied Science, pp. 1-19.

2 strathmann, h. (1998), Membranverfahren: Prozesse ohne wirtschaftliche Relevanz oder zukunftsweisende Technologie. 16th Annual Meeting of DECHEMA, Weisbaden, DECHEMA.

3 brüschke, h. (1995), Industrial application of membrane separation processes. Pure and Applied Chemistry 67 (6), 993-1003.

4 scheuermann, e. a. (1990), Membrantechnik: Quo vadis? Filtrieren und Separieren 3, 154-162.

5 ditgens, b. (2001), Entwicklung von Stofftransportmodellen für die Reversosmose am Beispiel der Abwasseraufbereitung in der Lebensmittelindustrie. Dissertation, University of Bonn, Germany.

6 hausmanns, s. (1999), Organophile Pervaporation wässriger Mehrkomponentensysteme. Dissertation, University of Bonn, Germany.

7 jonsson, g. (1980), Overview of theories for water and solute transport in UF/ RO membranes. Desalination 35, 21-38.

8 drouiche, m., le mignot, v., lounici, h., belhocine, d., grib, h., pauss, a. and mameri, n. (2004), A compact process for the treatment of olive mill wastewater by combining UF and UV/H2O2 techniques. Desalination 169 (1), 81-88.

9 khider, k., akrethce, d. e. and larbot, a. (2004), Purification of water effluent from a milk factory by ultrafiltration using Algerian clay support. Desalination 167 (1-3), 147-151.

10 lo, y. m., cao, d., argin-soysal, s., wang, j. and hahm, t-s. (2005), Recovery of protein from poultry processing wastewater using membrane ultrafiltration. Bioresource Technology 96 (6), 687-698.

11 rektor, a. and vatai, g. (2004), Membrane filtration of mozzarella whey. Desalination 162 (1-2), 279-286.

12 mireless, d. e. witt, c. a. and morrissey, m. t. (2002), Parameters for the recovery of protease from Surimi wash water. Bioresource Technology 81 (3), 241-247.

13 daufin, g., escudier, j-p., carrere, h., berot, s., fillaudeau, l. and decloux, m. (2001), Recent and emerging applications of membrane processes in the food and dairy industry. Food and Bioproducts Processing 79 (C2), 89-102.

14 atkins, p. w. (1997), Physical Chemistry. New York: W. H. Freeman & Company, 6th edition.

15 rautenbach, r. and gröschl, a. (1990), Umkehrosmose organisch-wäßriger Lösungen. Modellierung des Stofftransportes in der Membran und Verfahrensentwicklung. Filtrieren und Separieren 4, 231-239.

16 rautenbach, r. and albrecht, r. (1989), Membrane Processes, New York: Wiley.

17 rosenberg, m. (1995), Current and future applications for membrane processes in the dairy industry. Trends in Food Science and Technology 6 (1), 12-19.

18 conrad, k. m., mast, m. g., ball, m. r., froning, g. and macneil, j. h. (1993), Concentration of liquid egg white by vacuum evaporation and reverse osmosis. Journal of Food Science 58, 1017-1020.

19 alvarez, s. (2000), A new integrated membrane process for producing clarified apple juice and apple concentrate. Journal of Food Engineering 46, 109-125.

20 das gupta, d. k. and jayaraman, k. s. (1995), Preparation of fruit juice semi-concentrates from orange, pineapple and tomato by reverse osmosis and their storage evaluation. Indian Food Packer 13-28.

21 von hodenberg, g. w. (1991), Die Herstellung von alkoholfreien Bieren mittels Umkehrosmose. Brauwelt 15, 565-569.

22 engelmann, l. and wucherpfennig, k. (1993), Membranverfahren zur Herstellung alkoholfreier und alkoholreduzierter Produkte am Beispiel Wein. BioForum S. 7-13.

23 zhang, s. q., fouda, a. e. and matsuura, t. (1992), Reverse osmosis transport and module analysis for green tea juice concentration. Journal of Food Process Engineering 16, 1-20.

24 bogliolo, m., bottino, a., capannelli, g., depetro, m., servida, a., pezzi, g. and vallini, g. (1997), Clean water recycle in sugar extraction process: performance analysis of reverse osmosis in the treatment of sugar beet press water. Desalination 1-3, 261-271.

25 nagel, r. and wasel-nielen, j. (1995), Erfahrungen mit der Aufberei-tung von Flusswasser durch Umkehrosmose. GVC VDI, Aachener Membrankolloquium, Preprints, Düsseldorf, 361-364.

26 al-suleimani, z. and nair, v. r. (2000), Desalination by solar-powered reverse osmosis in a remote area of the Sultanate of Oman. Applied Energy 65, 367-380.

27 el-sayed, e., abdel-jawad, m., ebrahim, s. and al-saffar, a. (2000), Performance evaluation of two RO membrane configurations in a MSF/RO system. Desalination 128, 231-245.

28 slater, c. s., ahlert, r. c. and uchrin, c. g. (1983), Applications of reverse osmosis to complex industrial wastewater treatment. Desalination 48, 171-187.

29 timmer, j. m. k., kromkamp, j. and robbertsen, t. (1994), Lactic acid separation from fermentation broths by reverse osmosis and nanofiltration. Journal of Membrane Science 92, 185-197.

30 mcgregor, w. c. (1989), Concentration of l-phenylalanine with a reverse osmosis membrane. Journal of Biotechnology 10, 277-284.

31 lonsdale, h. k., merten, u. and riley, r. l. (1965), Transport properties of cellulose acetate osmotic membranes. Journal of Applied Polymer Science 9, 1341-1362.

32 baker, r. w., wijmans, j. g., athayde, a. l., daniels, r., ly, j. h. and le, m. (1997), The effect of concentration polarisation on the separation of volatile organic compounds from water by pervaporation. Journal of Membrane Science 137, 159-172.

33 arnold, d. (1995), Optimierungsstrategien zur Einbindung von Pervapora-tionsanlagen bei der Entwässerung von Lösungsmitteln. Dissertation: RWTH Aachen.

34 knauf, r., meyer-blumenroth, u. and semel, h. (1998), Einsatz von Membranverfahren in der chemischen Industrie. Chemie-Ingenieur-Technik 70 (10), 1256-1270.

35 lee, e. k. (1993), Reduced-alcohol wines and distilled spirits by vaporarbitrated pervaporation processing. In Yalpani, M. (ed.) Science for the Food Industry of the 21st Century, Biotechnology, Supercritical Fluids, Membranes and other Advanced Technologies for Low Calorie, Healthy Food Alternatives, New York: ATL Press.

36 wickramasinghe, s. r., semmens, m. j. and cussler, e. d. (1992), Mass transfer in various hollow fiber geometries. Journal of Membrane Science 69, 235-250.

37 thiel, s. w. and lloyd, d. r. (1988), Application of the Stefan-Maxwell equations to the pressure-driven membrane separation of dilute multicompo-nent solutions of nonelectrolytes. Journal of Membrane Science 37, 233-249.

38 gabelman, a. and hwang, s-t. (1999), Hollow fiber membrane contactors. Journal of Membrane Science 159, 61-106.

39 gruber, r. (1999), Membrankontaktoren: Auf dem Weg zur Anwendung. IVT-Information 29, 3-10.

40 wickramasinghe, s. r., semmens, m. j. and cussler, e. d. (1993), Hollow fiber modules made with hollow fiber fabric. Journal of Membrane Science 84, 1-14.

41 laufenberg, g. and cussler, e. l. (2001), Bioflavor extraction using hollow fiber membrane contactors, ECCE2001, Nürnberg 26.-28.8.01, DECHEMA.

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