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Treatment of a simulated wastewater amended with a chiral pharmaceuticals mixture by an aerobic granular sludge sequencing batch reactor
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Advisor(s)
Abstract(s)
An aerobic granular sludge-sequencing batch reactor (AGS-SBR) was fed for 28-days with a simulated
wastewater containing a mixture of chiral pharmaceuticals (CPs) (alprenolol, bisoprolol, metoprolol,
propranolol, venlafaxine, salbutamol, fluoxetine and norfluoxetine), each at 1.3 mg L 1. AGS-SBR exhibited
the highest removal efficiency for norfluoxetine, with preferential removal of the (R)-enantiomer indicating
that biological-mediated processes occurred. For all other CPs, removal was non-enantioselective,
occurring through biosorption onto AGS. A gradual decline of CPs removal was observed, probably
related to the decrease of AGS adsorption capacity. Moreover, chemical oxygen demand (COD) content in
the bulk liquid after anaerobic feeding increased, and P-release dropped, probably because the
polyphosphate-accumulating organism's activity was affected. Nitrification was also affected as indicated
by the ammonium effluent concentration increase. Moreover, CPs exposure promoted AGS disintegration,
with decreasing granule size. After stopping CPs feeding, the AGS started to recover its compact
structure, and the system returned its normal performance concerning COD- and P-removal. N-removal
seemed to be a more sensitive process, as while the ammonium levels were fully restored at the end of
operation, nitrite reduction was only partially restored. Results provide useful information on AGS
performance during the treatment of wastewater containing pharmaceuticals, a frequent scenario in
WWTP.
Description
Keywords
Aerobic granular sludge Chiral pharmaceuticals Enantiomers Nutrients removal Granular morphology
Pedagogical Context
Citation
Publisher
Elsevier