Enzyme Technology pp 9-21 | Cite as
Parameters Involved in Heterogeneous Biocatalysis
Conference paper
Abstract
Research in the field of enzyme technology still is growing, and more than a decade after the establishment of immobilized enzymes in industrial processes work on engineering aspects is continuing for further improvement of their performance (Lilly, 1978).
Keywords
Immobilize Enzyme Sherwood Number Tubular Reactor Membrane Reactor Longe Residence Time
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References
- Armstrong DE, Chesters G (1964) J. Soil Sci, vol 98: 39CrossRefGoogle Scholar
- Bordiert A, Buchholz K (1979) Biotechnol Lett, vol 1: 15–20CrossRefGoogle Scholar
- Borchert A, Larsson PO, Mosbach K (1982) J Chromat, vol 244: 49–56CrossRefGoogle Scholar
- Buchholz K (1979) Biotechnol Lett, vol 1: 451–456CrossRefGoogle Scholar
- Buchholz K (1982a) Adv. Biochem Eng, vol 24: 39–71Google Scholar
- Buchholz K, Gödelmann B (1978) Enzyme Eng, vol 4: 89–92Google Scholar
- Buchholz K, Duggal SK, Borchert A (1979a) Enzyme Eng, vol 5: 465–468Google Scholar
- Buchholz K et al (1979b) Characterization of Immobilized Biocatalysts, Dechema Monograph, vol 84: 1–43MathSciNetGoogle Scholar
- Buchholz K, Borchert A (1982a) Biokonversion, Statusseminar, KFA, Jülich FRG, in pressGoogle Scholar
- Buchholz K, Klein J (1982b) Biotechnology in Europe, keynotes FAST-Biosociety workshop, Dechema, Frankfurt, 45–53Google Scholar
- Carleysmith SW, Lilly MD (1979) Biotechnol Bioeng, vol 21: 1057CrossRefGoogle Scholar
- Carleysmith SW, Dunnil P, Lilly MD (1980) Biotechnol Bioeng, vol 22: 735CrossRefGoogle Scholar
- Fernandes PM et al (1979) Chemtech, July, 438Google Scholar
- Flaschel E, Fauquex PF, Renken A (1982) Chem Ing Tech, vol 54: 54–56CrossRefGoogle Scholar
- Goldstein L (1976) Methods in Enzymology, vol 44: 397CrossRefGoogle Scholar
- Kasche V (1979) Characterization of Immobilized Biocatalysts, Dechema-Monograph, vol 84: 224–241Google Scholar
- Koch-Schmidt AC. Mosbach K (1977) Biochem, vol 16: 2105–2109CrossRefGoogle Scholar
- Klein J, Eng H (1979b) Dechema-Monograph, vol 84: 292–299Google Scholar
- Klein J, Washausen P, Kluge M (1979a) loc cit, 277–291Google Scholar
- Klein J, Vorlop KD, Eng H (1981) Poster 2nd Eur Congr Biotechnol, Eastbourne, GBGoogle Scholar
- Krämer DM (1979) Dechema Monograph, Characterization of Immobilized Biocatalysts, vol 84: 88–91Google Scholar
- Krämer DM, Borchert A (1979) loc cit, 105–109Google Scholar
- Lilly MD (1978), Biotechnology, Dechema-Monograph, vol 82: 165–180Google Scholar
- Manecke G, Ehrenthal E, Schlünsen J (1979) Dechema-Monograph, Characterization of Immobilized Biocatalysts, vol 84: 73–87Google Scholar
- Miller JR (1971) Progr Surface Membrane Sci, vol 4: 299Google Scholar
- Monsan P (1977/78) J Mol Catalysis, vol 3: 371–384CrossRefGoogle Scholar
- Monsan P (1978) J Appl Microbiol Biotechnol, vol 5: 1–11CrossRefGoogle Scholar
- Norsker O, Gibson K, Zittan L (1979) Stärke, vol 31: 13–16CrossRefGoogle Scholar
- Oestergaard J, Knudsen S (1976) Stärke, vol 10: 350CrossRefGoogle Scholar
- Plainer H, Sprössler GB (1981) Poster, 2nd Eur Congr Biotechnol, Eastbourne, GBGoogle Scholar
- Poulson PB (1981a) Working Party on Immobilized Biocatalysts, European Federation of Biotechnology, Poster, 2nd Eur Congr Biotechnol, Eastbourne, GBGoogle Scholar
- Poulson PB (1981b) Enz Microb Technol, vol 3: 271CrossRefGoogle Scholar
- Reuss M, Buchholz K (1979) Biotechnol Bioeng, vol 21: 2061CrossRefGoogle Scholar
- Rodriguez JLP, Weiss A, Lagaly G (1977) Clays and Clay Minerals, vol 25: 243–251CrossRefGoogle Scholar
- Schlünsen J, Ehrenthal E, Manecke G, Dechema-Monograph, Characterization of Immobilized Biocatalysts, vol 84: 145–168Google Scholar
- Wandrey C, Wichmann R, Bueckmann AF, Kula MR (1980) Enzyme Engg, vol 5: 453–465Google Scholar
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© Springer-Verlag, Berlin, Heidelberg 1983