Kinetic parameters and relative turnovers of some important catabolic reactions in digesting sludge

The kinetics of propionate degradation, acetate splitting, and hydrogen consumption in digesting sludge were investigated in a lab-scale digester. At natural steady-state conditions, the acetate-splitting systems in well-digested sludge were about half saturated. Propionate-degrading systems were saturated to only 10 to 15%, and hydrogen removal was less than 1% of the maximum possible rate. It was concluded that acetate splitting rather than "methanogenesis from fatty acids" is the rate-limiting reaction in the anaerobic degradation of dissolved organic matter and that a methoanogenic anaerobic ecosystem is stabilized by its large unused capacity of hydrogen consumption which is "buffering" the partial pressure of dissolved hydrogen in the system at sufficiently low values to permit rapid fatty acid oxidation. A tentative scheme of the substrate flow in sludge digestion is presented. It suggests that acid formation coupled with hydrogen formation via pyridine dinucleotide oxidation yields the immediate substrates, namely acetate and hydrogen, for about 54% of the total methanogenesis.

[1]  R. Thauer,et al.  Energy conservation in chemotrophic anaerobic bacteria , 1977, Bacteriological reviews.

[2]  R. Thauer,et al.  Energy Conservation in Chemotrophic Anaerobic Bacteria , 1977, Bacteriological reviews.

[3]  D S Clark,et al.  Factors affecting rate of methane formation from acetic acid by enriched methanogenic cultures. , 1976, Canadian journal of microbiology.

[4]  D. Chynoweth,et al.  Volatile Acid Formation in Sludge Digestion , 1971 .

[5]  Perry L. McCarty,et al.  Energetics and Kinetics of Anaerobic Treatment , 1971 .

[6]  M. J. Pine,et al.  The Methane Fermentations , 1971 .

[7]  E. A. Pearson,et al.  Kinetics of hydrogen assimilation in the methane fermentation , 1968 .

[8]  R. Mah,et al.  Kinetics of acetate metabolism during sludge digestion. , 1966, Applied microbiology.

[9]  S. C. Ritterberg Principles and Applications in Aquatic Microbiology , 1965 .

[10]  R. E. Hungate,et al.  ACETATE, A KEY INTERMEDIATE IN METHANOGENESIS , 1977 .

[11]  M. P. Bryant THE MICROBIOLOGY OF ANAEROBIC DEGRADATION AND METHANOGENESIS WITH SPECIAL REFERENCE TO SEWAGE , 1977 .

[12]  D. Klass,et al.  Anaerobic acidogenesis of wastewater sludge. , 1975, Journal - Water Pollution Control Federation.

[13]  R S Wolfe,et al.  Microbial formation of methane. , 1971, Advances in microbial physiology.

[14]  J. Andrews,et al.  Dynamic modeling and simulation of the anaerobic digestion process , 1971 .

[15]  T C Stadtman,et al.  Methane fermentation. , 1967, Annual Review of Microbiology.