Removal of Nickel (II) ions from aqueous solutions using Iron (III) oxide nanoparticles: study of kinetic, isotherm and thermodynamic models

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Esdaki z.; ANSARI R.; OSTOVAR F.

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Journal: IRANIAN JOURNAL OF HEALTH AND ENVIRONMENT Year:2019 | Volume:12 | Issue:3 Page(s): 383-396

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Title

Removal of Nickel (II) ions from aqueous solutions using Iron (III) oxide nanoparticles: study of kinetic, isotherm and thermodynamic models

Author(s)

Esdaki z. | ANSARI R. | OSTOVAR F. | Issue Writer Certificate

Keywords

Iron (III) oxide nanoparticlesQ1

Nickel (II)Q2

IsothermQ2

ThermodynamicsQ1

KineticsQ2

Abstract

Background and Objective: Due to the existence of industries such as stainless steel, the presence of nickel (II) ions in water and wastewater has been reported at high concentrations. Removal of nickel (II) ions from wastewater and the environment are of primary importance. In this study, iron (III) oxide nanoparticles were studied as an adsorbent for removal of Ni (II) ions from water in the batch equilibrium system. Materials and Methods: FT-IR, SEM and XRD techniques were used to characterize the structure of the sample. To determine the optimum adsorption, the effect of important parameters such as pH, contact time, adsorbent weight and initial concentration were investigated. Also, thermodynamic study (Gibbs standard energy variations, enthalpy and entropy), Isothermal studies (absorption capacity) and kinetic studies (absorbent effect with time) were investigated. Results: The results showed that the magnetic adsorbent had the highest removal efficiency of nickel (II) at pH 7, contact time 60 min, adsorbent dosage of 200 mg, and maximum removable concentration of 400 mg/L. Conclusion: With thermodynamic studies, it was determined that the reaction was endothermic and the spontaneous process was controlled using the entropy factor (Δ G° =-2. 7 KJ/mol, Δ S° =+165. 17 J/mol. K). In order to better understand the mechanism of adsorption, Kinetics studies were carried out using the pseudofirst-order and pseudo-second-order models. Then, Langmuir and Freundlich adsorption Isotherms were investigated to determine the adsorption capacity, and it was found that the adsorption data were well fitted to Freundlich model and the maximum adsorption capacity was 43. 5 mg/g, which indicated high adsorption capacity and its multi-layers. Then, Langmuir and Freundlich adsorption Isotherms were investigated and it was found that the adsorption data were well fitted to Freundlich model and maximum adsorption capacity (qmax=43. 5 mg/g) was obtained which indicates good adsorption capacity of adsorbent and its multi-layers.

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APA: Copy

Esdaki, z., ANSARI, R., & OSTOVAR, F.. (2019). Removal of Nickel (II) ions from aqueous solutions using Iron (III) oxide nanoparticles: study of kinetic, isotherm and thermodynamic models. IRANIAN JOURNAL OF HEALTH AND ENVIRONMENT, 12(3 ), 383-396. SID. https://sid.ir/paper/145755/en

Vancouver: Copy

Esdaki z., ANSARI R., OSTOVAR F.. Removal of Nickel (II) ions from aqueous solutions using Iron (III) oxide nanoparticles: study of kinetic, isotherm and thermodynamic models. IRANIAN JOURNAL OF HEALTH AND ENVIRONMENT[Internet]. 2019;12(3 ):383-396. Available from: https://sid.ir/paper/145755/en

IEEE: Copy

z. Esdaki, R. ANSARI, and F. OSTOVAR, “Removal of Nickel (II) ions from aqueous solutions using Iron (III) oxide nanoparticles: study of kinetic, isotherm and thermodynamic models,” IRANIAN JOURNAL OF HEALTH AND ENVIRONMENT, vol. 12, no. 3 , pp. 383–396, 2019, [Online]. Available: https://sid.ir/paper/145755/en

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