4.7 Article

Revealing the behavior of perfluorooctane sulfonic acid in an aerobic granular sludge system: Fate and impact

Journal

CHEMICAL ENGINEERING JOURNAL
Volume 454, Issue -, Pages -

Publisher

ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2022.140478

Keywords

Aerobic granular sludge; Perfluorooctane sulfonic acid; Adsorption; Microbial community

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The biogeochemistry and impacts of perfluorooctane sulfonic acid (PFOS) in an aerobic granular sludge (AGS) system were studied. PFOS removal rates at different concentrations were measured, and the adsorption mechanism involving electrostatic, hydrophobic, and ionic bridging interactions was identified as the main contributor. The presence of PFOS also affected sludge flocculation and the performance of denitrification in the AGS system. Overall, this research provides insights into the behavior of PFOS and its implications for wastewater treatment.
The biogeochemistry (i.e., migration and transformation) and impacts of perfluorooctane sulfonic acid (PFOS) in an aerobic granular sludge (AGS) system have been studied. The results suggested that PFOS removal rates under 0.1, 0.5 and 5.0 mg/L PFOS treatment were 89.23 +/- 0.92 %, 71.92 +/- 1.45 % and 48.15 +/- 1.90 %, respectively, which was mainly attributed to the adsorption mechanism involving electrostatic, hydrophobic and ionic bridging interactions. Meanwhile, the adsorbed PFOS deteriorated sludge flocculation. Compared with the control, 0.1 mg/L PFOS treatment increased the concentration of effluent suspended solids (ESS) from 70 +/- 5 to 238 +/- 15 mg/L. Interestingly, the denitrification performance of the AGS improved (i.e., total nitrogen (TN) average removal rate increased from 87.05 +/- 0.21 % to 96.56 +/- 0.05 %), which was contrary to the outcomes for activated sludge. Further analysis showed that PFOS reduced the percentage of norank_f_nor-ank_o_Ardenticatenales, norank_f_Sphingomonadaceae and Candidatus_Competibacter maintaining the particle sta-bility, which led to the decrease in AGS flocculation. In addition, the relative abundance of nitrite-oxidizing bacteria Nitrospira decreased under PFOS exposure, while the total abundance of denitrifying bacteria (mainly Dechloromonas) increased. This might enhance the short-cut nitrification and denitrification capacity of the AGS system and promote the removal of TN. However, PFOS had no obvious impact on the settleability of AGS and the transformation of chemical oxygen demand (COD) and soluble phosphorus (SOP). Our findings will provide theoretical insights and practical support for risk control in the process of treating fluoride-containing wastewater.

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