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Sustainable Technologies for the Removal of Chloramphenicol From Pharmaceutical Industries Effluent: A Critical Review Publisher



Falyouna O1 ; Maamoun I2 ; Ghosh S3 ; Malloum A4, 5 ; Othmani A6 ; Eljamal O1 ; Amen TWM7 ; Oroke A8 ; Bornman C3 ; Ahmadi S9 ; Hadi Dehghani M10, 11 ; Hossein Mahvi A10, 11 ; Nasseri S10 ; Tyagi I12 Show All Authors
Authors
  1. Falyouna O1
  2. Maamoun I2
  3. Ghosh S3
  4. Malloum A4, 5
  5. Othmani A6
  6. Eljamal O1
  7. Amen TWM7
  8. Oroke A8
  9. Bornman C3
  10. Ahmadi S9
  11. Hadi Dehghani M10, 11
  12. Hossein Mahvi A10, 11
  13. Nasseri S10
  14. Tyagi I12
  15. Reddy Koduru J14

Source: Journal of Molecular Liquids Published:2022


Abstract

Despite the carcinogenic and other adverse health effects ofchloramphenicol (CAP), it is frequently detected in different water sources (e.g., groundwater, surface water, wastewater effluents, etc.) due to ongoing, illegal, and abusive application of CAP in veterinary medicine. Although extensive research has been carried out to develop effective treatment technologies to remove the persistent CAP from aqueous mediums, yet there is no critical review of these studies to the best of our reach This review will be the first in the literature to comprehensively summarize the state-of-the-art treatment techniques for CAP removal from water. We report the removal of CAP by adsorption, biodegradation, nanoscale zerovalent iron technology (nZVI), and advanced oxidation processes (AOPs). The result shows that carbon-based adsorbents have more qmax equal 892.86 mg/g for Porous carbon material from Enteromorpha prolifera. The Langmuir- Freundlich isotherm and pseudo-second order kinetics model were reported to best describe the isotherm and kinetic model respectively. Removing the CAP via biodegradation would achieve the advantages of low operating costs, and environmental friendliness. The process of AOPs among the various treatment options can be a promising method for CAP degradation in water. This review comprehensively summarizes the state-of-the-art treatment techniques for CAP removal from water. Particularly, serving as an inclusive reference for future researchers to easily define the research gabs in the literature and plan for their future work in developing novel treatment methods to decontaminate CA-contaminated waters. © 2022 Elsevier B.V.
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