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Advancing pharmaceutical wastewater treatment: A comprehensive review on application of catalytic membrane reactor-based hybrid approaches

Authors
Kumar, RameshAwino, ElinahNjeri, Dorcas WanjaBasu, AradhanaChattaraj, SujoyNayak, JayatoRoy, SnehagniKhan, Gausal A.Jeon, Byong HunGhosh, Alak KumarPal, ShrabanaBanerjee, ShirsenduRout, PrabhatChakrabortty, SankhaTripathy, Suraj K.
Issue Date
Feb-2024
Publisher
Elsevier Limited
Keywords
Advanced oxidation systems; Antibiotics removal; Membrane catalytic reactors; Pharmaceutical wastewater; Water treatment
Citation
Journal of Water Process Engineering, v.58, pp 1 - 25
Pages
25
Indexed
SCIE
SCOPUS
Journal Title
Journal of Water Process Engineering
Volume
58
Start Page
1
End Page
25
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/195084
DOI
10.1016/j.jwpe.2024.104838
ISSN
2214-7144
2214-7144
Abstract
Pharmaceutical wastewater presents a concerning array of toxic chemicals, necessitating proper treatment and disposal to safeguard human health and the environment. These chemicals, including active pharmaceutical ingredients, antibiotics, solvents, and organic compounds, exhibit toxicity, flammability, and carcinogenicity, posing risks to living beings and ecosystems. Contaminants such as surfactants, emulsifiers, residual drugs, and metabolites further exacerbate the complexity of pharmaceutical wastewater. Conventional treatment technologies, such as activated carbon adsorption, oxidation processes, membrane filtration, and biological treatment, suffer limitations in effectively removal or neutralizing hazardous substances for the safe disposal of pharmaceutical wastewater if implemented individually. In particular, combining photocatalysis with membrane technology demonstrates promising benefits, enhancing degradation efficiency and reducing membrane fouling. Membrane catalytic reactors (MCRs) integrated with advanced oxidation systems, viz. photocatalysis, Fenton-based processes, ozonation, persulphate generation, and the electrocatalytic process, can degrade pollutants and realize their physical separation. The present review manuscript comprehensively discusses detailed mechanisms, performance, influencing factors, and generation of catalytic radicals for removing organic pollutants in hybrid MCRs to improve water quality and safeguard ecosystems from wastewater.
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COLLEGE OF ENGINEERING (DEPARTMENT OF EARTH RESOURCES AND ENVIRONMENTAL ENGINEERING)
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