Abstract
Electro-Fenton generation of ·OH is more efficient and significant than the ·OH produced in the anode surface by anodic oxidation. Electro-Fenton process was optimised determining the relationship among key variables as electrodes surface and stirring rate. At optimal conditions, the combination of fluoxetine and pirimicarb was easily degraded with high mineralisation level.
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Reference
Rosales, E., Díaz, S., Pazos, M., & Sanromán, M. A. (2019). Comprehensive strategy for the degradation of anti-inflammatory drug diclofenac by different advanced oxidation processes. Separation and Purification Technology 208, 130–141.
Acknowledgements
This research has been financially supported by the Spanish Ministry of Economy and Competitiveness (MINECO) (Project CTM2017-87326-R), Xunta de Galicia and European Regional Development Fund (ED431C 2017/47). The authors are grateful to Water JPI ERA-NET Cofund WaterWorks2015 Call (Project REWATER) and to the European Union for the financial support of Gabriel Buftia under the Erasmus+ programme.
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Rosales, E. et al. (2020). Fluoxetine and Pirimicarb Abatement by Ecofriendly Electro-Fenton Process. In: Naddeo, V., Balakrishnan, M., Choo, KH. (eds) Frontiers in Water-Energy-Nexus—Nature-Based Solutions, Advanced Technologies and Best Practices for Environmental Sustainability. Advances in Science, Technology & Innovation. Springer, Cham. https://doi.org/10.1007/978-3-030-13068-8_28
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DOI: https://doi.org/10.1007/978-3-030-13068-8_28
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