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Parametric Modelling of Pb(Ii) Adsorption Onto Chitosan-Coated Fe3o4 Particles Through Rsm and De Hybrid Evolutionary Optimization Framework Publisher



Rasoulzadeh H4 ; Dehghani MH1, 2, 3 ; Mohammadi AS5 ; Karri RR6 ; Nabizadeh R2 ; Nazmara S2 ; Kim KH7 ; Sahu JN8, 9
Authors
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Authors Affiliations
  1. 1. Department of Environmental Health Engineering, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Institute for Environmental Research, Center for Water Quality Research, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Institute for Environmental Research, Center for Solid Waste Research, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Environmental Health Engineering, Student Research Committee, School of Public Healthand Safety, ShahidBeheshti University of Medical Sciences, Tehran, Iran
  5. 5. Department of Environmental Health Engineering, Faculty of Health, Khoy University of Medical Sciences, Khoy, Iran
  6. 6. Petroleum and Chemical Engineering, Faculty of Engineering, UniversitiTeknologi Brunei, Brunei Darussalam
  7. 7. Department of Civil and Environmental Engineering, Hanyang University, 222 Wangsimni-Ro, Seoul, 04763, South Korea
  8. 8. University of Stuttgart, Institute of Chemical Technology, Faculty of Chemistry, Stuttgart, D-70550, Germany
  9. 9. South Ural State University, Chelyabinsk, Russian Federation

Source: Journal of Molecular Liquids Published:2020


Abstract

In this study, response surface methodology (RSM) was discussed as an efficient method for the optimization of Pb(II) adsorption onto Fe3O4 nanoparticles and chitosan-coated Fe3O4 particles. To retain the non-linearity of isotherm/kinetic models and inherent characteristics of mechanism involved in adsorption process, the model parameters in these models are estimated using differential evolution (DE) based hybrid optimization. The lack of fit for first-order response-surface model and two-way interactions model were insignificant, but a higher lack-of-fit was observed in the second-order model and reduced second-order model. The results of these computations (F-value: 29.3 on 6 and 37 DF; p-value: 1.226e−12; R2: 0.8261, and LOF: 0.99) showed that the RSO model fit well with Pb (II) removal by Ch-Fe. Based on the RSM model, the optimal conditions were found to be 10.95, 5.5 mg/L, 66.59 min, and 0.1 g/L for pH, Ch-Fe dosage, initial Pb (II) concentration and residence time, respectively, resulting in maximum (93.6%) removal efficiency. Based on the findings, the model predictions from the DE based optimized parameters provided optimal parameter sets which better represent the adsorption rate models and infer the inherent mechanisms of the adsorption process. © 2019 Elsevier B.V.
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