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Removal of Ciprofloxacin From Aqueous Solution by a Three-Dimensional Electrocoagulation Process Using Fe3 O4 @Ac Nanocomposite As a Particle Electrode in Combination With Persulfate: Nonlinear Fitting of Isotherms and Kinetic Models Publisher



Ahmadian M1, 2 ; Malakootian M1, 2 ; Aghasi M2 ; Fatehizadeh A3, 4
Authors
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Authors Affiliations
  1. 1. Environmental Health Engineering Research Center, Kerman University of Medical Sciences, Kerman, Iran
  2. 2. Department of Environmental Health, School of Public Health, Kerman University of Medical Sciences, Kerman, Iran
  3. 3. Environment Research Center, Research Institute for Primordial Prevention of Non-communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran
  4. 4. Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran

Source: Desalination and Water Treatment Published:2020


Abstract

In the present study, the removal of ciprofloxacin (CIP) from aqueous solutions was performed using the magnetic Fe3 O4 @AC (MAC) nanocomposite as a particle electrode in three-dimensional electrocoagulation (EC) system, as well as using persulfate (PS) to increase the removal efficiency. First, the MAC nanocomposite was synthesized and then characterized by X-ray diffraction, vibrat-ing-sample magnetometer and field emission scanning electron microscopy, energy-dispersive X-ray spectroscopy, Mapping and Fourier-transform infrared spectroscopy analyses. Each process was evaluated separately and the appropriate process was selected. The results confirmed the spherical structure of the MAC nanocomposite, with the smallest amount of clogging, uniform distribution of the elements on the nanoparticle surface and the creation of suitable magnetic prop-erties. The CIP removal values for each of PS, EC, MAC, EC-MAC and EC-MAC-PS processes were 0%, 0%, 70%, 94.2% and 98.9%, respectively. However, since significant amounts of non-recoverable sludge were formed in the EC-MAC-PS process, no sludge was produced in the EC-MAC process, and only recoverable nanoparticles existed, PS was excluded from the tests. Finally, optimal conditions for the EC-MAC process were determined. Under the optimum conditions: CIP (10 mg/L), MAC (0.9 g/L), pH (7), current density (0.3 mA/cm2) and contact time (35 min) the CIP removal efficiency was 98.21%. The results revealed that the Avrami fractionary and pseudo-second-order kinetic models fitted better the experimental results and Qmax of MAC nanocomposite obtained from the Langmuir isotherm model was 97.39 mg/g. Based on the results, the EC-MAC process has a good efficiency in removing the CIP antibiotic and can be considered as an economical process. © 2020 Desalination Publications. All rights reserved.
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