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A New Insight Into Catalytic Ozonation of Sulfasalazine Antibiotic by Plasma-Treated Limonite Nanostructures: Experimental, Modeling and Mechanism Publisher



Heidari Z1 ; Pelalak R2, 3 ; Eshaghi Malekshah R4 ; Pishnamazi M5 ; Rezakazemi M6 ; Aminabhavi TM7 ; Shirazian S8, 9
Authors
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Authors Affiliations
  1. 1. Chemical Engineering Faculty, Sahand University of Technology, 51335-1996, Sahand New Town, Tabriz, Iran
  2. 2. Institute of Research and Development, Duy Tan University, Da Nang, 550000, Viet Nam
  3. 3. Faculty of Environmental and Chemical Engineering, Duy Tan University, Da Nang, 550000, Viet Nam
  4. 4. Medical Biomaterial Research Centre (MBRC), Tehran University of Medical Sciences, Tehran, Iran
  5. 5. Department of Chemical Sciences, Bernal Institute, University of Limerick, Limerick, Ireland
  6. 6. Faculty of Chemical and Materials Engineering, Shahrood University of Technology, Shahrood, Iran
  7. 7. School of Advanced Sciences, KLE Technological University, Hubballi, 580 031, India
  8. 8. Faculty of Applied Sciences, Ton Duc Thang University, Ho Chi Minh City, Viet Nam
  9. 9. Bernal Institute, University of Limerick, Limerick, Ireland

Source: Chemical Engineering Journal Published:2022


Abstract

This study investigates the application of novel natural and plasma-treated iron (III) oxide-hydroxide (limonite) catalysts on the degradation/mineralization of sulfasalazine (SSZ) antibiotic by ozone-based advanced oxidation processes (AOPs). The limonite nanostructures were prepared by non-precursor, environmentally friendly, and fast glow discharge plasma technology under oxygen (PTL/O2) and oxygen/argon (PTL/O2/Ar) gaseous atmosphere. The characteristic analysis demonstrated enhanced surface area, morphology, active surface sites, and physical stability after the plasma treatment. It was found that SSZ degradation/mineralization was effectively improved (36%) in the heterogeneous catalytic ozonation process (HCOP) using PTL/O2/Ar compared to sole ozonation. Modeling and optimization of SSZ degradation through the central composite design (CCD) and artificial neural network (ANN, topology of 4:7:1) showed that complete SSZ degradation can be achieved at the optimized condition (initial pH = 7, ozone concentration = 15 mg L-1, catalyst loading = 1.5 g L-1 and treatment time = 50 min). The effect of organic and inorganic salts confirmed that the reactive oxygen species, mainly hydroxyl radicals, were responsible for SSZ degradation by HCOP. The main intermediates during SSZ oxidation were identified. The toxicity of SSZ solution and electrical energy consumption were decreased using PTL/O2/Ar nanocatalysts in HCOP. Economic studies demonstrated 46% reduction in energy consumption of HCOP using PTL/O2/Ar compared to NL samples. For the first time, molecular dynamics simulation was applied to provide a deeper insight into the adsorption mechanisms of SSZ and ozone onto limonite surface (1 1 1) during HCOP. © 2021 The Author(s)
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