Electric fenton technology with jacaranda fruit shell biochar as particle electrode for the removal of emerging pollutant ciprofloxacin hydrochloride
Electric fenton technology with jacaranda fruit shell biochar as particle electrode for the removal of emerging pollutant ciprofloxacin hydrochloride
The overuse of antibiotics has become a serious environmental problem, and addressing how to remove antibiotics from aquatic environments poses a significant challenge. This study prepared a porous biochar material (BSJ) using natural Jacaranda fruit shells as raw materials and combined it with an electric Fenton system (EF-BSJ) to degrade ciprofloxacin hydrochloride (CIP). Characterization and analysis of biochar using SEM, BET, Raman spectroscopy, and other methods revealed that the porous structure and aromatic functional groups of biochar play a crucial role in adsorbing CIP. The effects of carbonization temperature and carbonization time on the adsorption of CIP by biochar were investigated during the biochar preparation process. At 800℃ and 1.5 hours, the maximum adsorption efficiency of biochar for CIP is 96.88%. In addition, thestudy investigated the impact of cathode and anode materials of the EF-BSJ system on the degradation efficiency of CIP. When platinum-titnium plating was used as the anode and foam nickel electrode as the cathoded, the CIP removal rate could reach 95.48%. Finally, the UV full-band scanning method was used to determine that CIP was degraded into small molecule substances, achieving the goal of removing CIP. This study introduces a novel strategy for eliminating antibiotics.
Adsorbed, Biochar chemical properties, Biochar contaminates, Biochar physical properties, Biomass, Ciprofloxacin hydrochloride
Liu, Yuqin
1862d489-7964-43b9-82d5-c134b0da1f3a
Shi, Yu
eb656d46-e5c9-4ee2-b64e-584c9cd6d87c
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Fan, Ailin
3f54390a-4918-4420-ae12-84e925802a40
Xu, Bo
da78224d-4857-45b2-86ed-bdc15afd4d8c
Qiu, Haiyan
3399d1bc-06e4-426b-afa4-973cabaf5b2a
Lan, Guihong
9645f39e-270e-4c22-97c9-f43836c32286
Zhang, Ming
edeebb0b-cfae-4db1-a919-4c4e5fdae724
December 2024
Liu, Yuqin
1862d489-7964-43b9-82d5-c134b0da1f3a
Shi, Yu
eb656d46-e5c9-4ee2-b64e-584c9cd6d87c
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Fan, Ailin
3f54390a-4918-4420-ae12-84e925802a40
Xu, Bo
da78224d-4857-45b2-86ed-bdc15afd4d8c
Qiu, Haiyan
3399d1bc-06e4-426b-afa4-973cabaf5b2a
Lan, Guihong
9645f39e-270e-4c22-97c9-f43836c32286
Zhang, Ming
edeebb0b-cfae-4db1-a919-4c4e5fdae724
Liu, Yuqin, Shi, Yu, Liu, Yongqiang, Fan, Ailin, Xu, Bo, Qiu, Haiyan, Lan, Guihong and Zhang, Ming
(2024)
Electric fenton technology with jacaranda fruit shell biochar as particle electrode for the removal of emerging pollutant ciprofloxacin hydrochloride.
Environmental Engineering Research, 29 (6), [240017].
(doi:10.4491/eer.2024.017).
Abstract
The overuse of antibiotics has become a serious environmental problem, and addressing how to remove antibiotics from aquatic environments poses a significant challenge. This study prepared a porous biochar material (BSJ) using natural Jacaranda fruit shells as raw materials and combined it with an electric Fenton system (EF-BSJ) to degrade ciprofloxacin hydrochloride (CIP). Characterization and analysis of biochar using SEM, BET, Raman spectroscopy, and other methods revealed that the porous structure and aromatic functional groups of biochar play a crucial role in adsorbing CIP. The effects of carbonization temperature and carbonization time on the adsorption of CIP by biochar were investigated during the biochar preparation process. At 800℃ and 1.5 hours, the maximum adsorption efficiency of biochar for CIP is 96.88%. In addition, thestudy investigated the impact of cathode and anode materials of the EF-BSJ system on the degradation efficiency of CIP. When platinum-titnium plating was used as the anode and foam nickel electrode as the cathoded, the CIP removal rate could reach 95.48%. Finally, the UV full-band scanning method was used to determine that CIP was degraded into small molecule substances, achieving the goal of removing CIP. This study introduces a novel strategy for eliminating antibiotics.
Text
Electric Fenton technology with Jacaranda fruit shell biochar as
- Version of Record
More information
Accepted/In Press date: 7 May 2024
Published date: December 2024
Additional Information:
Publisher Copyright:
© 2024 Korean Society of Environmental Engineers.
Keywords:
Adsorbed, Biochar chemical properties, Biochar contaminates, Biochar physical properties, Biomass, Ciprofloxacin hydrochloride
Identifiers
Local EPrints ID: 491154
URI: http://eprints.soton.ac.uk/id/eprint/491154
ISSN: 1226-1025
PURE UUID: 999dcb67-8e07-4ce7-9515-63affbf5486c
Catalogue record
Date deposited: 13 Jun 2024 16:49
Last modified: 01 Aug 2024 01:46
Export record
Altmetrics
Contributors
Author:
Yuqin Liu
Author:
Yu Shi
Author:
Ailin Fan
Author:
Bo Xu
Author:
Haiyan Qiu
Author:
Guihong Lan
Author:
Ming Zhang
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
