Competitive removal of Cu super(2+), Cd super(2+), Zn super(2+), and Ni super(2+) ions onto iron oxide nanoparticles from wastewater

A competitive adsorption of Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+) ions onto Fe sub(3)O sub(4) nanomaterial was studied. Experimental parameters such as, pH, initial metal concentrations, and temperatures were investigated. The uptake capacity was 11.5, 6.07, 11.1, and 9.68 mg/g...

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Veröffentlicht in:	Desalination and water treatment 2016-09, Vol.57 (44), p.20915-20929
Hauptverfasser:	Ebrahim, Shahlaa E, Sulaymon, Abbas H, Saad Alhares, Hasanain
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Sprache:	eng
Schlagworte:	Adsorption Binary systems (materials) Copper Isotherms Mathematical models Nanostructure Quaternary systems
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creator	Ebrahim, Shahlaa E Sulaymon, Abbas H Saad Alhares, Hasanain
description	A competitive adsorption of Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+) ions onto Fe sub(3)O sub(4) nanomaterial was studied. Experimental parameters such as, pH, initial metal concentrations, and temperatures were investigated. The uptake capacity was 11.5, 6.07, 11.1, and 9.68 mg/g for Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+), respectively. The optimum pH and contact time were found to be 6 and 50 min for Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+). The equilibrium isotherm for single component system was of favorable type and Freundlich isotherm model gave the best fitting for the experimental data. Binary, ternary, and quaternary systems were conducted to find the adsorption isotherm constants for each adsorption models; combination of Langmuir-Freundlich model gave the best fit. In single, binary, ternary, and quaternary systems, Cu super(2+) always adsorbed more favorably onto nanosorbent than Zn super(2+), Cd super(2+), and Ni super(2+). The adsorption capacity parameters were: Cu super(2+) > Zn super(2 +) > Cd super(2+)> Ni super(2+). Thermodynamic study was carried out and the results showed that the adsorption was an endothermic process.
doi_str_mv	10.1080/19443994.2015.1112310
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Experimental parameters such as, pH, initial metal concentrations, and temperatures were investigated. The uptake capacity was 11.5, 6.07, 11.1, and 9.68 mg/g for Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+), respectively. The optimum pH and contact time were found to be 6 and 50 min for Cu super(2+), Ni super(2+), Zn super(2+), and Cd super(2+). The equilibrium isotherm for single component system was of favorable type and Freundlich isotherm model gave the best fitting for the experimental data. Binary, ternary, and quaternary systems were conducted to find the adsorption isotherm constants for each adsorption models; combination of Langmuir-Freundlich model gave the best fit. In single, binary, ternary, and quaternary systems, Cu super(2+) always adsorbed more favorably onto nanosorbent than Zn super(2+), Cd super(2+), and Ni super(2+). The adsorption capacity parameters were: Cu super(2+) > Zn super(2 +) > Cd super(2+)> Ni super(2+). Thermodynamic study was carried out and the results showed that the adsorption was an endothermic process.</abstract><doi>10.1080/19443994.2015.1112310</doi><tpages>15</tpages></addata></record>
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subjects	Adsorption Binary systems (materials) Copper Isotherms Mathematical models Nanostructure Quaternary systems
title	Competitive removal of Cu super(2+), Cd super(2+), Zn super(2+), and Ni super(2+) ions onto iron oxide nanoparticles from wastewater
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