A kinetic study on anaerobic reduction of sulphate, part II: incorporation of temperature effects in the kinetic model

The effects of temperature on the kinetics of anaerobic sulphate reduction were studied in continuous bioreactors using acetate as an electron donor. Across the range of temperatures applied from 20 to 35 ∘ C , the increasing of volumetric loading rate up to 0.08 to 0.1 kg m - 3 h - 1 resulted in a...

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Bibliographic Details
Published in:Chemical engineering science 2005-07, Vol.60 (13), p.3517-3524
Main Authors: Moosa, Shehnaaz, Nemati, Mehdi, Harrison, Susan T.L.
Format: Article
Language:English
Subjects:
Acid mine drainage
Anaerobic sulphate reduction
Applied sciences
Biological and medical sciences
Biotechnology
Chemical engineering
Continuous bioreactor
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Kinetic model
Methods. Procedures. Technologies
Others
Reactors
Various methods and equipments
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Summary:The effects of temperature on the kinetics of anaerobic sulphate reduction were studied in continuous bioreactors using acetate as an electron donor. Across the range of temperatures applied from 20 to 35 ∘ C , the increasing of volumetric loading rate up to 0.08 to 0.1 kg m - 3 h - 1 resulted in a linear increase in reduction rate of sulphate. The increasing reaction rate showed a lower dependence on volumetric loading rate in the range 0.1– 0.15 kg m - 3 h - 1 . Further increase in volumetric loading rate above 0.15 kg m - 3 h - 1 was accompanied by wash out of bacterial cells and a sharp decrease in reaction rate. Despite a similar pattern for dependency of reaction rate on volumetric loading at all temperatures tested, the magnitude of reaction rate was influenced by temperature, with a maximum rate of 0.075 kg m - 3 h - 1 observed at 35 ∘ C . The effect of temperature on maximum specific growth rate ( μ max ) and bacterial yield was insignificant. The values of maximum specific growth rate and yield were 0.06 h - 1 and 0.56–0.60 kg bacteria ( kg sulphate - 1 ), respectively. The decay coefficient ( k d ) and apparent saturation constant ( K s ′ ) were both temperature dependent. The increase of temperature resulted in decreased values of K s ′ , and higher values for k d . Using the experimental data effect of temperature was incorporated in a kinetic model previously developed for anaerobic reduction of sulphate.
ISSN:0009-2509
0009-2541
1873-4405
DOI:10.1016/j.ces.2004.11.036