Abstract
Rampant water pollution events and rising water demand caused by exponential population growth and depleting freshwater resources speak of an impending water crisis. The inability of conventional wastewater treatment systems to remove contaminants of emerging concern (CECs) such as bisphenol A (BPA) beckons for new and efficient technologies to remove them from wastewater and water sources. Advanced oxidation processes such as ozonation are primarily known for their capability to oxidize and degrade organic entities in water, but optimum mineralization levels were hard to achieve. In this study, we synthesized an activated carbon impregnated nanocomposite-bimetallic catalyst (AC/CeO2/ZnO) and used it along with ozonation to remove BPA from water. The catalyst was characterized using BET, XRD, FESEM, Raman spectra, and DLS studies. Catalytic ozonation achieved TOC removal 25% higher than non-catalytic ozonation process. The degradation pathway of BPA was proposed using LC-MS/LC-Q-TOF studies that found six main aromatic degradation byproducts. Catalytic ozonation and non-catalytic ozonation followed similar degradation pathways. The formation of persistent aliphatic acidic byproducts in the treated sample made total organic carbon (TOC) removal above 61% difficult.
Highlights
Water pollution is a matter of global concern
The presence of Activated carbon (AC), CeO2, and Zinc Oxide (ZnO) in nano bimetallic catalyst was confirmed by yield studies, BET, X-Ray Diffraction (XRD), Field Emission Scanning Electron Microscope (FESEM), Raman Spectra, and DLS
Degradation of BPA occurs due to OH radicals produced on the surface of nano-composite bimetallic catalyst not by ozone. pH 8, catalyst dosage of 500μg/L and treatment time of 60 minutes was found to be the optimal conditions for maximum TOC removal (61%) achieved
Summary
Water pollution is a matter of global concern. Organic pollutants under the category of Contaminants of Emerging Concern (CECs) are of particular concern due to their ubiquitous nature (Fairbairn et al, 2018). BPA is associated with reproductive system damage in living organisms. Its presence in the environment and water bodies are ubiquitous due to its wide use. Conventional wastewater treatments were unable to remove them efficiently.At present, it is classified under the larger group of CECs. Conventional wastewater treatments were unable to remove them efficiently.At present, it is classified under the larger group of CECs In this context it becomes imperative to find an efficient technology to remove CECs such as BPA from water sources (Fürhacker et al, 2000, Amjad et al, 2020)
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