Influence of bisphenol A occurrence in wastewaters on biomass characteristics and activated sludge process performance

In this work, the influence of bisphenol A (BPA) on biological wastewater treatment was studied. For it, two sequencing batch reactors (SBRs) were operated for three months. Both SBRs were fed with synthetic wastewater (SW), adding 1 mg·L−1 of BPA into the feed of reactor SBR-BPA, while the other on...

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Veröffentlicht in:The Science of the total environment 2021-07, Vol.778, p.146355-146355, Article 146355
Hauptverfasser: Ferrer-Polonio, E., Alvim, C. Bretas, Fernández-Navarro, J., Mompó-Curell, R., Mendoza-Roca, J.A., Bes-Piá, A., Alonso-Molina, J.L., Amorós-Muñoz, I.
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Sprache:eng
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Zusammenfassung:In this work, the influence of bisphenol A (BPA) on biological wastewater treatment was studied. For it, two sequencing batch reactors (SBRs) were operated for three months. Both SBRs were fed with synthetic wastewater (SW), adding 1 mg·L−1 of BPA into the feed of reactor SBR-BPA, while the other one operated without BPA as a control reactor (SBR–B). In addition, batch experiments were performed with adapted and non-adapted activated sludge, simulating the reaction step of SBR-BPA, to determine the pathways for BPA removal. Results of batch experiments showed that adsorption and biodegradation were the only significant BPA removal routes. BPA removal by biodegradation was more efficient when adapted biomass was used in the tests (32.2% and 8.2% with adapted and non-adapted biomass, respectively), while BPA adsorption removal route was similar in both types of activated sludge (around 40%). Regarding the SBRs experiments, after 16 days no BPA concentration was detected in SBR-BPA effluent. In the adaptation process, SBR-BPA biomass was more sensitive to low temperatures resulting in higher effluent turbidity, COD and soluble microbial products concentrations than in SBR–B. However, once temperature increased, adapted biomass from SBR-BPA presented higher activity than SBR-B biomass, showing higher values of sludge production, microbial hydrolytic enzymatic activities and specific dynamic respiration rate. The bacterial community study revealed the increase of abundance of Proteobacteria (especially Thiothrix species) and Actinobacteria (especially Nocardioides species) phyla at the expense of Bacteroidetes and Chloroflexi phyla in SBR-BPA during its operation. [Display omitted] •Adsorption is the main BPA mechanism removal for non-adapted activated sludge.•Once biomass is adapted, a total BPA depletion is achieved.•Temperature decrease affected at higher extent biomass treating wastewater with BPA.•Biomass activity is higher in reactor treating wastewater with BPA.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.146355