AI Article Synopsis
- Peroxymonosulfate (PMS)-based advanced oxidation processes (AOPs) effectively remediate antibiotic-contaminated soils, with a natural pyrite-biochar composite achieving a 76% removal of SMX within 120 minutes.
- Different degradation mechanisms operate in aqueous versus soil solutions, with active species and oxygen playing crucial roles in breaking down contaminants.
- The method also promotes the germination and growth of mung bean seeds, indicating its environmental compatibility and potential for real-world application in soil remediation.
Article Abstract
Peroxymonosulfate (PMS)-based advanced oxidation processes (AOPs) represent an effective method for the remediation of antibiotic-contaminated soils. In this study, a natural pyrite-biochar composite material (FBCx) was developed, demonstrating superior activation performance and achieving a 76% removal rate of SMX from soil within 120 min. There existed different degradation mechanisms for SMX in aqueous and soil solutions, respectively. The production of O and inherent active species produced by soil slurry played an important role in the degradation process. The combination of electron paramagnetic resonance (EPR) and free radical probe experiments confirmed the presence of free radical transformation processes in soil. Wherein, the·OH and SO generated in soil slurry did not directly involve in the degradation process, but rather preferentially reacted with soil organic matter (SOM) to form alkyl-like radicals (R·), thereby maintaining a high concentration of reactive species in the system. Furthermore, germination and growth promotion of mung bean seeds observed in the toxicity test indicated the environmental compatibility of this remediation method. This study revealed the influence mechanism of SOM in the remediation process of contaminated soil comprehensively, which possessed enormous potential for application in practical environments.
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| http://dx.doi.org/10.1016/j.jhazmat.2024.133895 | DOI Listing |
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