AI Article Synopsis
- Autotrophic nitrogen removal combines nitritation and anaerobic ammonium oxidation (anammox), offering a potentially effective way to treat nitrogen in wastewater.
- Previous studies indicate that this method often results in less than 90% total nitrogen removal, mainly because over 10% of removed ammonium is converted to nitrate.
- Recent research suggests that lower nitrate production (only a few percent) can occur when using long solids retention times (SRT) and maintaining a specific oxygen-to-ammonium ratio, which helps achieve total nitrogen removals of 90-94%.
Article Abstract
Autotrophic nitrogen removal, coupling nitritation (ammonium to nitrite) with anaerobic ammonium oxidation (anammox), offers a promising nitrogen-removal alternative, especially for post-treatment of anaerobically-treated wastewater. However, previous reports suggest that less than 90% total nitrogen removal should be expected with this process alone because over 10% of the ammonium removed will be converted to nitrate. This is caused because nitrite conversion to nitrate is required for reduction of carbon dioxide to cell carbon. However, recent research results suggest that more limited nitrate formation of only a few per cent sometimes occurs. It was hypothesized such lower nitrate yields may result from use of long solids retention times (SRT) where net biological yields are low, and providing that the ratio of oxygen added to influent ammonium concentrations is maintained at or below 0.75 mol/mol. Overall reaction equations were developed for each process and combined to evaluate the potential effect of SRT on process stoichiometry. The results support the use of a long SRT to reduce net cell yield, which in turn results in a small percentage conversion to nitrate during ammonium removal and high total nitrogen removals in the range of 90 to 94%.
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| http://dx.doi.org/10.2166/wst.2013.368 | DOI Listing |
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