Electrochemical degradation of per- and poly-fluoroalkyl substances using boron-doped diamond electrodes
Permanent lenke
https://hdl.handle.net/10037/24276Dato
2021-04-16Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Uwayezu, Jean Noel; Carabante, Ivan; Lejon, Tore; van Hees, Patrick; Karlsson, Patrik; Hollman, Patrik; Kumpiene, JurateSammendrag
Electrochemical degradation using boron-doped diamond (BDD) electrodes has been proven to be a promising
technique for the treatment of water contaminated with per- and poly-fluoroalkyl substances (PFAS). Various
studies have demonstrated that the extent of PFAS degradation is influenced by the composition of samples and
electrochemical conditions. This study evaluated the significance of several factors, such as the current density,
initial concentration of PFAS, concentration of electrolyte, treatment time, and their interactions on the
degradation of PFAS. A 24 factorial design was applied to determine the effects of the investigated factors on the
degradation of perfluorooctanoic acid (PFOA) and generation of fluoride in spiked water. The best-performing
conditions were then applied to the degradation of PFAS in wastewater samples. The results revealed that
current density and time were the most important factors for PFOA degradation. In contrast, a high initial
concentration of electrolyte had no significant impact on the degradation of PFOA, whereas it decreased the
generation of F− . The experimental design model indicated that the treatment of spiked water under a current
density higher than 14 mA cm− 2 for 3–4 h could degrade PFOA with an efficiency of up to 100% and generate an
F− fraction of approximately 40–50%. The observed high PFOA degradation and a low concentration of PFAS
degradation products indicated that the mineralization of PFOA was effective. Under the obtained best conditions, the degradation of PFOA in wastewater samples was 44–70%. The degradation efficiency for other PFAS in
these samples was 65–80% for perfluorooctane sulfonic acid (PFOS) and 42–52% for 6–2 fluorotelomer sulfonate
(6-2 FTSA). The presence of high total organic carbon (TOC) and chloride contents was found to be an important
factor affecting the efficiency of PFAS electrochemical degradation in wastewater samples. The current study
indicates that the tested method can effectively degrade PFAS in both water and wastewater and suggests that
increasing the treatment time is needed to account for the presence of other oxidizable matrices.
Forlag
ElsevierSitering
Uwayezu, Carabante, Lejon, van Hees, Karlsson, Hollman, Kumpiene. Electrochemical degradation of per- and poly-fluoroalkyl substances using boron-doped diamond electrodes. Journal of Environmental Management. 2021;290:112573Metadata
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