Effect of vacuum ultraviolet/ozone pretreatment on alleviation of ultrafiltration membrane fouling caused by algal extracellular and intracellular organic matter

Algal blooms in source water can cause algal organic matter (AOM)-related membrane fouling in drinking water treatment. Herein, the effects of vacuum ultraviolet/ozone (VUV/O3) pretreatment on alleviating ultrafiltration membrane fouling caused by AOM, including extracellular organic matter (EOM) an...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2022-10, Vol.305, p.135455-135455, Article 135455
Main Authors: Du, Jinying, Wang, Chuang, Zhao, Zhiwei, Chen, Rui, Zhang, Pengfei, Cui, Fuyi
Format: Article
Language:English
Subjects:
Extracellular organic matter
Fouling mitigation
Intracellular organic matter
Ultrafiltration membrane
VUV/O3
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Summary:Algal blooms in source water can cause algal organic matter (AOM)-related membrane fouling in drinking water treatment. Herein, the effects of vacuum ultraviolet/ozone (VUV/O3) pretreatment on alleviating ultrafiltration membrane fouling caused by AOM, including extracellular organic matter (EOM) and intracellular organic matter (IOM), were investigated systematically. Compared to its sub-processes (UV/O3, O3, VUV, and UV), VUV/O3 pretreatment showed the best performance on AOM removal and membrane fouling mitigation. After VUV/O3 pretreatment, the DOC of EOM and IOM in feed decreased by 51.1% and 26.7%, respectively, and fluorescence components and UV254 of EOM and IOM in feed decreased obviously. Hence, the final specific fluxes of the membranes increased significantly under the impacts of VUV/O3, and VUV/O3 achieved 89.5% and 97.2% mitigation of reversible fouling caused by EOM and IOM, respectively. VUV/O3 pretreatment also reduced the foulants on membrane surface and surface roughness. Moreover, under the effects of reactive oxygen species oxidation, VUV photolysis, and direct O3 oxidation, VUV/O3 decreased organic load and changed the molecular weight distribution, hydrophilicity, and interaction-free energy of AOM, thus mitigating membrane fouling. Furthermore, the effects of O3 dosage and molecular weight cut-off of ultrafiltration membrane on membrane fouling mitigation by VUV/O3 were also investigated. All results highlighted that VUV/O3 pretreatment had huge potential in mitigating AOM-induced membrane fouling. [Display omitted] •VUV/O3 outperformed its sub-processes in removal of EOM and IOM.•VUV/O3 changed MW distribution, hydrophilicity, and interaction free energy of AOM.•VUV/O3 pretreatment greatly mitigated UF membrane fouling caused by EOM and IOM.•Removal and membrane fouling discrepancies between EOM and IOM were compared.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.135455