Antibiotics degradation by UV/chlor(am)ine advanced oxidation processes: A comprehensive review

Lu, Zedong; Ling, Yanchen; Sun, Wenjun; Liu, Chaoran; Mao, Ted; Ao, Xiuwei; Huang, Tianyin

Antibiotics degradation by UV/chlor(am)ine advanced oxidation processes: A comprehensive review

2022

Antibiotics are emerging contaminants in aquatic environments which pose serious risks to the ecological environment and human health. Advanced oxidation processes (AOPs) based on ultraviolet (UV) light have good application prospects for antibiotic degradation. As new and developing UV-AOPs, UV/chlorine and derived UV/chloramine processes have attracted increasing attention due to the production of highly reactive radicals (e.g., hydroxyl radical, reactive chlorine species, and reactive nitrogen species) and also because they can provide long-lasting disinfection. In this review, the main reaction pathways of radicals formed during the UV/chlor (am)ine process are proposed. The degradation efficiency, influencing factors, generation of disinfection by-products (DBPs), and changes in toxicity that occur during antibiotic degradation by UV/chlor (am)ine are reviewed. Based on the statistics and analysis of published results, the effects caused by energy consumption, defined as electrical energy per order (EE/O), increase in the following order: UV/chlorine < UV/peroxydisulfate (PDS)< UV/H₂O₂ < UV/persulfate (PS) < 265 nm and 285 nm UV-LED/chlorine (EE/O). Some inherent problems that affect the UV/chlor (am)ine processes and prospects for future research are proposed. The use of UV/chlor (am)ine AOPs is a rich field of research and has promising future applications, and this review provides a theoretical basis for that.

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Mots clés AGROVOC

antibiotics antibiotics chlorine chloroform disinfection electric power energy human health oxidation pms pollution rns toxicity

Informations bibliographiques

Publié dans

Environmental pollution

Volume 308 Pagination 119673 ISSN 0269-7491

Editeur

Elsevier Ltd

D'autres materias

Trichloropropanone; Dban; Medium-pressure ultraviolet; Uv-led; Dibromochloromethane; Rcs; Dcnm; Tcm; Halonitromethanes; Dcan; Uv/chloramine; Uv light-emitting diode; Trichloronitromethane; 1-dcp; Electrical energy per order; Dichlorobromomethane; Dichloropropanone; Advanced oxidation process; Dibromoacetonitrile; Tbm; Brominated-dbps; Dbp; Mpuv; Arb; Low-pressure ultraviolet; Uv/chlorine; Electrical energy per order (ee/o); Lpuv; Bromodichloromethane; Bromochloroacetonitrile; Aop; Trichloromethane; Reactive nitrogen species; Dbcm; Hydroxyl radicals; Disinfection by-products; Chloronitromethane; Ndma; Ps; N-nitrosodimethylamine; Bcan; Cf; Reactive nitrogen species; Dcbm; Cl-dbps; Tcnm; Antibiotic resistance genes; Tribromomethane; Persulfate; Reactive chlorine species; Peroxydisulfate; Args; Br-dbps; Dichloronitromethane; 1-tcp; Chlorinated-dbps; Antibiotic resistance bacteria; Pds; Dichloroacetonitrile; Peroxymonosulfate; Mcnm; Hnms; Ee/o; Bdcm

Langue

anglais

Type

Journal Article; Text

Sur AGRIS depuis: 2024-02-28

Format: MODS

Fournisseur de données

Cette notice bibliographique a été fournie par National Agricultural Library

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Liens

DOI DOI https://dx.doi.org/10.1016/j.envpol.2022.119673

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