51. Evaluation of an outdoor pilot-scale tubular photobioreactor for removal of selected pesticides from water
- Author
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Ester López-García, Miren López de Alda, Manuel García-Vara, Romina Avila, Paqui Blánquez, Cristina Postigo, Teresa Vicent, European Commission, Ministerio de Ciencia e Innovación (España), Postigo, Cristina [0000-0002-7344-7044], López De Alda, Miren [0000-0002-9347-2765], Postigo, Cristina, and López De Alda, Miren
- Subjects
Environmental Engineering ,Research groups ,010504 meteorology & atmospheric sciences ,European Regional Development Fund ,Biogas ,Photobioreactor ,Wastewater ,010501 environmental sciences ,7. Clean energy ,01 natural sciences ,Photobioreactors ,Agency (sociology) ,Microalgae ,Environmental Chemistry ,media_common.cataloged_instance ,Harvesting ,Biomass ,Pesticides ,European union ,Waste Management and Disposal ,Environmental planning ,Organic micropollutants ,0105 earth and related environmental sciences ,media_common ,Pilot scale ,Water ,Pollution ,Biodegradation products ,6. Clean water ,Work (electrical) ,13. Climate action ,Christian ministry ,Business - Abstract
This work assesses the capacity of a microalgae-based system to remove three highly to medium polar pesticides typically found in freshwater: acetamiprid, bentazone, and propanil. Degradation of the pesticides was firstly studied individually at batch lab-scale reactors and abiotic and heated-killed controls were employed to clarify their removal pathways. At lab-scale, propanil and acetamiprid were completely removed after 7 days whereas bentazone was not removed. Four and two transformation products (TPs) were generated in the biodegradation process for acetamiprid and propanil, respectively. Then, the simultaneous removal of the pesticides was assessed in an outdoor pilot photobioreactor, operated with a hydraulic residence time of 8 days. During the steady-state, high removal efficiencies were observed for propanil (99%) and acetamiprid (71%). The results from batch experiments suggest that removal is mainly caused by algal-mediated biodegradation. Acetamiprid TPs raised throughout the operational time in the photobioreactor, while no propanil TP was detected at the pilot-scale. This suggests complete mineralization of propanil or residual formation of its TPs at concentrations below the analytical method detection limit. Aiming at biomass valorization, diverse microalgae harvesting methods were investigated for biomass concentration, and the effect of residual pesticides on the biogas yield was determined by biochemical methane potential tests. Anaerobic digestion was not inhibited by the pesticides as verified by the digestion performance. The results highlight the potential of microalgae-based systems to couple nutrient removal, biomass production, micropollutant biodegradation, and biofuel production., This work has been supported by the Spanish Ministry of Economy and Competitiveness State Research Agency (CTM2016-75587-C2-1-R and CTM2016-75587-C2-2-R) and co-financed by the European Union through the European Regional Development Fund (ERDF) and the Horizon 2020 research and innovation WATERPROTECT project (727450). This work was also partly supported by the Generalitat de Catalunya (Consolidate Research Groups 2017-SGR-01404 and 2017-SGR-014) and the Ministry of Science and Innovation (Project CEX2018-000794-S).
- Published
- 2022
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