Effect of temperature and ph on the effective maximum specific growth rate of nitrifying bacteria

For modeling nitrification in wastewater treatment processes it is necessary to determine the dependence of the maximum specific growth rate ( μ A ) of nitrifying bacteria on temperature and pH. A functional relationship for the simultaneous dependence of the effective maximum specific growth rate (...

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Veröffentlicht in:Water research (Oxford) 1990, Vol.24 (1), p.97-101
Hauptverfasser: Antoniou, P., Hamilton, J., Koopman, B., Jain, R., Holloway, B., Lyberatos, G., Svoronos, S.A.
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container_end_page 101
container_issue 1
container_start_page 97
container_title Water research (Oxford)
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creator Antoniou, P.
Hamilton, J.
Koopman, B.
Jain, R.
Holloway, B.
Lyberatos, G.
Svoronos, S.A.
description For modeling nitrification in wastewater treatment processes it is necessary to determine the dependence of the maximum specific growth rate ( μ A ) of nitrifying bacteria on temperature and pH. A functional relationship for the simultaneous dependence of the effective maximum specific growth rate ( μ A ) minus the decay coefficient, b A) on temperature and pH, obtained from theoretical arguments, was verified via batch experiments with sludge from a local wastewater treatment plant. The parameters for the functional relationship were determined from the experimental data using a nonlinear regression scheme. An optimum pH of approx. 7.8 was determined and the effective maximum specific growth rate was found to be a monotonically increasing function of temperature in the range of 15–25°C.
doi_str_mv 10.1016/0043-1354(90)90070-M
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subjects activated sludge
Bacteriology
biokinetics
Biological and medical sciences
Biology of microorganisms of confirmed or potential industrial interest
Biotechnology
Fundamental and applied biological sciences. Psychology
Metabolism. Enzymes
Microbiology
Mission oriented research
nitrification
Nitrobacter
Nitrosomonas
Physiology and metabolism
temperature
wastewater treatment
title Effect of temperature and ph on the effective maximum specific growth rate of nitrifying bacteria
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