Ciprofloxacin degradation performances and mechanisms by the heterogeneous electro-Fenton with flocculated fermentation biochar. (1st May 2023)
- Record Type:
- Journal Article
- Title:
- Ciprofloxacin degradation performances and mechanisms by the heterogeneous electro-Fenton with flocculated fermentation biochar. (1st May 2023)
- Main Title:
- Ciprofloxacin degradation performances and mechanisms by the heterogeneous electro-Fenton with flocculated fermentation biochar
- Authors:
- Jin, Yanchao
Huang, Peiwen
Chen, Xiongjian
Li, Li-Ping
Lin, Chun-Yan
Chen, Xiao
Ding, Rui
Liu, Jianxi
Chen, Riyao - Abstract:
- Abstract: Antibiotic fermentation residue flocculated by polymeric ferric sulfate (PFS) has been classified as a "hazardous waste" in China. In this study, it was recycled into antibiotic fermentation residue biochar (AFRB) by pyrolysis and used as a heterogeneous electro-Fenton (EF) catalyst for ciprofloxacin (CIP) degradation. The results show that PFS was reduced to Fe 0 and FeS during pyrolysis, which was beneficial for the EF process. The AFRB with mesoporous structures exhibited soft magnetic features, which were convenient for separation. CIP was completely degraded within 10 min by the AFRB-EF process at an initial concentration of 20 mg/L. Increasing the working current and catalyst dosage within a certain range could improve the degradation rate. ·OH and O2 ·- were the dominant reactive oxygen species that played critical roles for CIP degradation. The antibacterial groups of CIP have been destroyed by the heterogeneous electro-Fenton process and its toxicity was negligible. The AFRB showed satisfactory performance, even though it was recycled five times. This study provide new insights into the resourceful treatment of antibiotic fermentation residues. Graphical abstract: Image 1 Highlights: The antibiotic fermentation residue is harmlessly treated into a Fenton catalyst. Polymeric ferric sulfate was reduced to Fe 0 and FeS by the fermentation residues. O2 ·- and ·OH were the dominant ROS for ciprofloxacin degradation. The AFRB revealed efficient and stableAbstract: Antibiotic fermentation residue flocculated by polymeric ferric sulfate (PFS) has been classified as a "hazardous waste" in China. In this study, it was recycled into antibiotic fermentation residue biochar (AFRB) by pyrolysis and used as a heterogeneous electro-Fenton (EF) catalyst for ciprofloxacin (CIP) degradation. The results show that PFS was reduced to Fe 0 and FeS during pyrolysis, which was beneficial for the EF process. The AFRB with mesoporous structures exhibited soft magnetic features, which were convenient for separation. CIP was completely degraded within 10 min by the AFRB-EF process at an initial concentration of 20 mg/L. Increasing the working current and catalyst dosage within a certain range could improve the degradation rate. ·OH and O2 ·- were the dominant reactive oxygen species that played critical roles for CIP degradation. The antibacterial groups of CIP have been destroyed by the heterogeneous electro-Fenton process and its toxicity was negligible. The AFRB showed satisfactory performance, even though it was recycled five times. This study provide new insights into the resourceful treatment of antibiotic fermentation residues. Graphical abstract: Image 1 Highlights: The antibiotic fermentation residue is harmlessly treated into a Fenton catalyst. Polymeric ferric sulfate was reduced to Fe 0 and FeS by the fermentation residues. O2 ·- and ·OH were the dominant ROS for ciprofloxacin degradation. The AFRB revealed efficient and stable performance during the EF process. Complete degradation was achieved within 10 min at a certain condition. … (more)
- Is Part Of:
- Environmental pollution. Volume 324(2023)
- Journal:
- Environmental pollution
- Issue:
- Volume 324(2023)
- Issue Display:
- Volume 324, Issue 2023 (2023)
- Year:
- 2023
- Volume:
- 324
- Issue:
- 2023
- Issue Sort Value:
- 2023-0324-2023-0000
- Page Start:
- Page End:
- Publication Date:
- 2023-05-01
- Subjects:
- Antibiotic fermentation residues -- Polymeric ferric sulfate -- Pyrolysis -- Electro-fenton -- Ciprofloxacin
Pollution -- Periodicals
Pollution -- Environmental aspects -- Periodicals
Environmental Pollution -- Periodicals
Pollution -- Périodiques
Pollution -- Aspect de l'environnement -- Périodiques
Pollution -- Effets physiologiques -- Périodiques
Pollution
Pollution -- Environmental aspects
Periodicals
Electronic journals
363.73 - Journal URLs:
- http://www.sciencedirect.com/science/journal/02697491 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.envpol.2023.121425 ↗
- Languages:
- English
- ISSNs:
- 0269-7491
- Deposit Type:
- Legaldeposit
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