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Quick Adsorption Followed by Lengthy Photodegradation Using Feni3@Sio2@Zno: A Promising Method for Complete Removal of Penicillin G From Wastewater Publisher



Kamranifar M1 ; Almusawi TJ2 ; Amarzadeh M3 ; Hosseinzadeh A4 ; Nasseh N5 ; Qutob M2 ; Arghavan FS6
Authors
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Authors Affiliations
  1. 1. Social Determinants of Health Research Center, Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Science, Isfahan, Iran
  2. 2. Department of Civil Engineering, Faculty of Engineering, Isra University, Amman, Jordan
  3. 3. Department of Safety Engineering, Abadan Faculty of Petroleum Engineering, Petroleum University of Technology, Abadan, Iran
  4. 4. Centre for Green Technology, School of Civil and Environmental Engineering, University of Technology Sydney, 2007, NSW, Australia
  5. 5. Social Determinants of Health Research Center, Department of Environmental Health Engineering, Faculty of Health, Birjand University of Medical Sciences, Birjand, Iran
  6. 6. Student Research Committe, Department of Environmental Health Engineering, Faculty of Health, Mashhad University of Medical Sciences, Mashhad, Iran

Source: Journal of Water Process Engineering Published:2021


Abstract

In this study, FeNi3@SiO2@ZnO nanoparticles were prepared via coprecipitation and sol–gel methods and were used as both PNG adsorbent and photodegradation catalyst. Thereafter, an aqueous solution containing penicillin G (PNG) was subjected to adsorption for 20 min followed by photodegradation for 200 min. To optimize the treatment method, the PNG removal efficiencies of the adsorption and photodegradation processes were measured under different experimental conditions, and it was determined that the increase in FeNi3@SiO2@ZnO nanoparticle concentration from 0.005 to 1 g/L favored adsorption but hindered photodegradation, as PNG removal efficiency noticeably decreased after increasing the catalyst concentration beyond 0.01 g/L. The results revealed that a PNG removal efficiency of 100 % could be achieved after 220 min of successive adsorption and photodegradation at a pH of 5, FeNi3@SiO2@ZnO concentration of 0.01 g/L, PNG concentration of 10 mg/L, and H2O2 concentration of 150 mg/L. Analysis of the PNG photodegradation mechanism demonstrated that the superoxide anion radicals generated during photodegradation played a major role in PNG degradation. FeNi3@SiO2@ZnO is a sustainable adsorbent/catalyst because it can be reused for six consecutive treatment cycles with minor losses in efficiency (<3 %) and quantity (<1 %). Our results indicated that the prepared FeNi3@SiO2@ZnO nanoparticles were highly effective treatment agents and presented great practical application potential for the treatment of PNG-laden wastewater using adsorption–photodegradation. © 2021 Elsevier Ltd
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