Influence of temperature and pH on the kinetics of the Sharon nitritation process |
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| Authors: | Stijn WH Van Hulle Eveline IP Volcke Josefa López Teruel Brecht Donckels Mark CM van Loosdrecht Peter A Vanrolleghem |
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| Affiliation: | 1. Ghent University, Gent, Belgium;2. Hogeschool West‐Vlaanderen, Kortrijk, Belgium;3. Delft University of Technology, Delft, The Netherlands;4. Université Laval, Québec, Canada |
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| Abstract: | The SHARON (Single reactor High activity Ammonia Removal Over Nitrite) process is an innovative process that improves the sustainability of wastewater treatment, especially when combined with an Anammox process. It aims at ammonium oxidation to nitrite only, while preventing further nitrate formation. In order to optimize this process by means of modelling and simulation, parameters of the biological processes have to be assessed. Batch tests with SHARON sludge clearly showed that ammonia rather than ammonium is the actual substrate and nitrous acid rather than nitrite is the actual inhibitor of the ammonium oxidation in the SHARON process. From these batch tests the ammonia affinity constant, the nitrous acid inhibition constant and the oxygen affinity constant were determined to be 0.75 mgNH3‐N L?1, 2.04 mgHNO2‐N L?1 and 0.94 mgO2 L?1. The influence of pH and temperature on the oxygen uptake rate of SHARON biomass was determined, indicating the existence of a pH interval between 6.5 and 8 and a temperature interval from 35 to 45 °C where the biomass activity is maximal. The kinetic parameters of the SHARON process were determined based on batch experiments. These parameters can now be implemented in a simulation model for further optimization of the SHARON process. Copyright © 2007 Society of Chemical Industry |
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| Keywords: | SHARON partial nitritation ammonia affinity constant nitrous acid inhibition |
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