Activation of peracetic acid by a magnetic biochar-ferrospinel AFe2O4 (A = Cu, Co, or Mn) nanocomposite for the degradation of carbamazepine- A comparative and mechanistic study

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abstract

Peracetic acid (PAA)-based advanced oxidation processes (AOPs) are promising technologies for the efficient treatment of persistent contaminants in wastewater. In this study, three different magnetic biochar (BC)-ferrospinel AFe(2)O(4) (A = Cu, Co, or Mn) nanocomposites were synthesized through a combined sol - gel/pyrolysis process for the activation of PAA to degrade carbamazepine (CBZ). The following order of efficiency was observed for CBZ degradation in the presence of PAA: BC-CoFe2O4 (100 %) > BC-MnFe2O4 (7 %) approximate to BC-CuFe2O4 (7 %). In addition, 0.8 mM PAA, 0.3 g/L catalyst, nearly neutral pH, and 333 K were identified as the optimal operating parameters for the degradation of 1 mg/L CBZ in the BC-CoFe2O4/PAA system. Mechanistic studies revealed that CH 3 C(O)OO center dot radicals are the dominant active species for the degradation of CBZ in the BCCoFe2O4 /PAA system, and the continuous conversion of Co(II) to Co(III) in this system is responsible for the generation of these radicals. In addition, the water matrices (e.g., humic acid (20 mg/L), NaCl (0.05 M), and NaNO 3 (0.01 M)) played negligible roles in the degradation of CBZ in the BC-CoFe2O4/PAA system. This system exhibited highly selective and reactive degradation of organic pollutants with electron -rich groups (e.g., CBZ (0.36 min(-1) ), sulfamethoxazole (0.12 min(-1)), and diclofenac (0.28 min(-1))). Furthermore, the degradation products of CBZ were identified, and possible degradation pathways and toxicity of these transformation products were proposed. The BC-CoFe2O4/PAA system demonstrated outstanding degradation performance in dynamic systems and real wastewater treatment applications. This study describes the performance of an efficient and easy -to -separate catalyst for the activation of PAA. This study facilitates the development and application of PAA-based AOPs for wastewater treatment.

keywords

NANOPARTICLES; WATER; PEROXYMONOSULFATE; TEMPERATURE; PERFORMANCE; RADICALS; CATALYST; CUFE2O4; COPPER

subject category

Engineering

authors

Xue, YT; Kamali, M; Kakavandi, B; Costa, MEV; Thompson, IP; Huang, W; Appels, L; Dewil, R

our authors

foto Maria Elisabete Jorge Vieira Costa

Maria Elisabete Jorge Vieira Costa

Collaborator
foto Mohammadreza Kamali

Mohammadreza Kamali

PhD Student

Groups

G2 - Photonic, Electronic and Magnetic Materials

acknowledgements

This work was supported by the China Scholarship Council (CSC) [grant number 202009505003] .

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Publication Details

type
Journal Article
year
2024
journal
CHEMICAL ENGINEERING JOURNAL
volume
490
article number
151932
publisher
ELSEVIER SCIENCE SA
issn
1385-8947
isbn
1873-3212
digital object identifier
10.1016/j.cej.2024.151932
link
hybrid
web of science article identifier
WOS:001239872900001

Journal Metrics (JCR 2019)

Journal Impact Factor
10.652
Journal Impact Factor (5 yrs)
9.43
category normalized journal percentile
97.361

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