Abstract
The article reviews the present understanding of bacterial populations involved in anaerobic degradation of organic material into methane and CO2 (biogas); furthermore some recent process developments for anaerobic wastewater treatment are described. It could be demonstrated that at least three groups of bacteria are involved in methanogenesis. Hydrolytic and acidogenic bacteria first decompose the organic material into various organic acids, alcohols, hydrogen and CO2. The second group of bacteria convert these metabolites into acetic acid, hydrogen and CO2, which are then utilized by the methanogenic bacteria to produce biogas.
On an industrial scale, this process has been used for more than 50 years in the stabilization of sewage sludge from municipal water treatment plants. Since recent developments have markedly reduced the retention time for anaerobic fermentation*, this process has gained increasing interest in the treatment of high strength wastewater. The anaerobic digestion has two unique advantages over the aerobic biological treatment systems: no energy is necessary for aeration and the organic pollutants are mainly converted into biogas which can be used as a fuel. Until now this anaerobic process is successfully used for treatment of wastewaters from sugar factories, potato-processing industry and breweries. However, fundamental studies have shown that anaerobic treatment offers an enormous potential for the removal of organic materials from a lot of different wastewaters. Therefore, in future the application of anaerobic digestion for wastewater treatment will increase.
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Zeikus, J. G.: Bacteriol. Rev. 41, 514 (1977)
Barker, H. A.: Bacterial fermentations. New York: Wiley 1956
Ehhalt, D. H. et al.: Pageoph. 116, 452 (1978)
Higgings, I. J. et al.: Microbial Rev. 45, 556 (1981)
Hobson, P. N. et al.: Crit. Rev. Environ. Control 4, 131 (1974)
Hungate, R. E.: The rumen and its microbes. New York: Acad. Press 1966
Bryant, M. P. et al.: Arch. Microbiol. 59, 20 (1967)
Bryant, M. P. et al.: Appl. Environ. Microbiol. 33, 1162 (1977)
Toerien, D. F. et al.: Water Res. 1, 397 (1967)
Khan, A. W.: Can. J. Microbiol. 23, 1700 (1977)
Thauer, R. K. et al: Bacteriol Rev. 41, 100 (1977)
Gottschalk, G.: Bacterial metabolism. New York: Springer 1979
Scheifinger, C. C. et al.: Appl. Microbiol. 26, 789 (1973)
Bryant, M. P.: J. Animal Science 48, 193 (1979)
McInerney, M. J. et al.: Arch. Microbiol. 122, 129 (1979)
Ferry, J. G. et al.: Arch. Microbiol. 107, 33 (1976)
Reddy, C. A. et al.: J. Bacteriol. 109, 539 (1972)
Lawrence, A. W. et al.: J. Water Poll. Control Fed. 41, 21 (1969)
McInerney, M. J. et al.: Abstr. Proc. Amer. Soc. Mibrobiol., 182, 94 (1978)
Boone, D. R. et al.: Appl. Environ. Microbiol. 40, 626 (1980)
McInerney, M. J. et al.: Appl. Environ. Microbiol. 41, 1029 (1981)
Bonch-Osmolovskaya, E. A.: Mikrobiologiya 47, 1014 (1978)
Hungate, R. E.: Methods in Microbiology 3B, 117 (1969)
Zehnder, A. J. B. et al.: Arch. Microbiol. 111, 199 (1977)
Balch, W. E. et al.: Microbiol. Rev. 43, 260 (1979)
Taylor, G. T.: Prog. Indust. Microbiol. 16, 231 (1982)
Hungate, R. E. et al.: J. Bacteriol. 102, 389 (1970)
Huser, B. A. et al.: Arch. Microbiol. 132, 1 (1982)
Smith, M. R. et al.: Proc. Biochem. 15, 34 (1980)
Scherer, P. et al.: Eur. J. Appl. Microbiol. Biotechnol. 12, 28 (1981)
Hippe, H. et al.: Proc. Natl. Acad. Sci. (USA) 76, 494 (1979)
Kandler, O.: Zbl. Bakt. Hyg. I. Abt. Orig. C 3, 149 (1982)
Langworthy, T. A. et al.: Zbl. Bakt. Hyg., I. Abt. Orig. C 3, 228 (1982)
Vogels, G. D. et al.: Zbl. Bakt. Hyg. I., Abt. Orig. C 3, 258 (1982)
Binot, R. A. et al.: Biotechnol. Lett. 3, 623 (1981)
Thauer, R. K.: Zbl. Bakt. Hyg. I., Abt. Orig. C 3, 265 (1982)
Woese, C. R.: Zbl. Bakt. Hyg. I., Abt. Orig. C 3, 1 (1982)
Daniels, L. et al.: J. Bacteriol. 136, 75 (1978)
Fuchs, G. et al.: Zbl. Bakt. Hyg. I., Abt. Orig. C 3, 277 (1982)
McCarty, P. L.: In: Anaerobic Digestion 1981 (ed. Hughes, D. E. et al.) p. 3. Amsterdam: Elsevier Biomedical 1982
Roediger, H.: Die anaerobe alkalische Schlammfaulung. Oldenbourg, München 1967
Stander, G. J.: J. Int. Sewage Purification 4, 438 (1950)
Huss, L.: In: Anaerobic Digestion 1981 (ed. Hughes, D. E. et al.). p. 137. Amsterdam: Elsevier Biomedical 1982
Schlegel, S. et al.: In: Anaerobic Digestion 1981 (ed. Hughes, D. E. et al.) p. 169. Amsterdam: Elsevier Biomedical 1982
Young, J. C. et al.: J. Water Pollut. Control Fed. 41, R 160 (1969)
Taylor, D. W.: Proc. 3rd Nat. Symp. Food Processing Wastes p. 151 (1972)
van den Berg, L. et al.: Biotechnol. Lett. 3, 165 (1981)
Jeris, J. S. et al.: J. Water Pollut. Control Fed. 49, 816 (1977)
Hancher, C. W. et al.: Biotech. Bioeng. Symp. 8, 361 (1978)
Hickey, R. F. et al.: Biotech. Bioeng. Symp. 11, 399 (1981)
Hemens, J. et al.: Wat. Waste Treat. 9, 16 (1962)
Lettinga, G. et al.: Biotech. Bioeng. 22, 699 (1980)
Brune, G. et al.: Proc. Biochem. May/June 20 (1982)
Heertjes et al.: Biotech. Bioeng. 24, 443 (1982)
Pette, K. C. et al.: In: Anaerobic Digestion 1981 (ed. Hughes, D. E. et al.), p. 121. Amsterdam: Elsevier Biomedical 1982
Chou, W. L. et al.: Biotech. Bioeng. Symp. 8, 391 (1978)
Evans, W. C.: Nature 270, 17 (1977)
Healy, J. B. et al.: Appl. Environ. Microbiol. 39, 436 (1980)
Buswell, A. M. et al.: Ind. Eng. Chem. 44, 550 (1952)
Scherer, P. et al.: Acta Biotechnologica 1, 57 (1981)
Schönheit, P. et al.: Arch. Microbiol. 123, 105 (1979)
Diekert, G. et al.: J. Bacteriol. 148, 459 (1981)
Pfaltz et al.: Helv. Chim. Acta 65, 828 (1982)
Keltjens, J.: PhD-Thesis University Nijmegen 1982
Frostell, B.: PhD-thesis University Stockholm 1979
Khan, A. W. et al.: Appl. Environ. Microbiol. 35, 1027 (1978)
Patel, G. B. et al.: J. Appl. Bacteriol. 45, 347 (1978)
Lawrence, A. W. et al.: Air Water Pollut. Int. J. 10, 207 (1966)
Cappenberg, Th. E.: Microbial Ecol. 2, 60 (1975)
Mosey, F. E. et al.: Water Pollut. Control 74, 18 (1975)
Lawrence, A. W. et al.: J. Water Pollut. Control Fed. 37, 392 (1965)
Thiel, P. G.: Water Res. 3, 215 (1969)
Winfrey, M. R. et al.: Appl. Environ. Microbiol. 37, 244 (1979)
Gunsalus, R. P. et al.: Biochem. 17, 2374 (1978)
Hilpert, R. et al.: Zbl. Bakt. Hyg., I. Abt. Orig. C 2, 11 (1981)
Anderson, G. K. et al.: Proc. Biochem. July/August 28 (1982)
Zehnder, A. J. B. et al.: In: Anaerobic Digestion 1981 (ed. Hughes D. E. et al.) p. 45. Amsterdam: Elsevier Biomedical 1982
Stetter, K. O. et al.: Zbl. Bakt. Hyg. I. Abt. Orig. C 2, 166 (1981)
Zinder, S. H. et al.: Appl. Environ. Microbiol. 38, 996 (1979)
Lettinga, G. et al.: In: Anaerobic Digestion 1981 (ed. Hughes, D. E. et al.). Amsterdam: Elsevier Biomedical 1982
Mosey, F. E.: Symp. Treatment of Wastes from Food and Drink Industry (Newcastle) p. 1 (1974)
Svensson, B. H.: In: Production and Utilization of Gases (ed. Schlegel, H. G. et al.) p. 135 Göttigen 1976
Kaspar, H. F. et al.: Microbiol. Ecology 4, 241 (1978)
Pohland, F. G. et al.: Environ. Lett. 1, 255 (1971)
Ghosh, S. et al.: Proc. Biochem. April, 15 (1978)
Zoetemeyer, R. J.: PhD-thesis University Amsterdam 1982
Cohen, A. et al.: Water Research 14, 1439 (1980)
Cohen, A.: PhD-thesis University Amsterdam 1982
Pipyn, P. et al.: Biotechnol. Lett. 1, 495 (1979)
Bochem, H. P. et al.: Can. J. Microbiol. 28, 500 (1982)
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Sahm, H. (1984). Anaerobic wastewater treatment. In: Immobilized Biocatalysts Saccharomyces Yeasts Wastewater Treament. Advances in Biochemical Engineering/Biotechnology, vol 29. Springer, Berlin, Heidelberg. https://doi.org/10.1007/Bfb0000691
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DOI: https://doi.org/10.1007/Bfb0000691
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