Innovative Magnetic Aggregates for the Removal of Transition Metals from Industrial Wastewater

A novel adsorbent material based on microaggregates of Fe3O4 magnetic nanoparticles functionalized with succinic acid has been developed. The magnetic aggregates (MA) were characterized in terms of the size distribution (master sizer analysis), morphology (TEM), chemical structure (IR-spectroscopy a...

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Bibliographic Details
Published in:Minerals (Basel) 2021-06, Vol.11 (6), p.643
Main Authors: Pesce, Ruggiero, Accogli, Alessandra, Kostoula, Chrysavgi, Ilare, Juri, Panzeri, Gabriele, Perecin, Caio Josè, Magagnin, Luca
Format: Article
Language:English
Subjects:
Acids
Adsorption
Aggregates
Analytical methods
Capacity
Caustic soda
Chloride
Copper
Dosage
Efficiency
Electrochemical analysis
Electrochemistry
Electrodes
Electrostatic properties
Energy consumption
Equilibrium conditions
Fourier transforms
Heavy metals
Industrial wastes
Industrial wastewater
Infrared spectroscopy
Iron oxides
Magnetic properties
Metal ions
Metals
Methods
Morphology
Nanoparticles
Particle diffusion
Particle size distribution
Plating
Regeneration
Regeneration (biological)
Removal
Size distribution
Sodium
Succinic acid
Transition metals
Wastewater
Water treatment
Zinc
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Summary:A novel adsorbent material based on microaggregates of Fe3O4 magnetic nanoparticles functionalized with succinic acid has been developed. The magnetic aggregates (MA) were characterized in terms of the size distribution (master sizer analysis), morphology (TEM), chemical structure (IR-spectroscopy and XRD), magnetic properties (VSM), and Z-Potential. The effects of various parameters such as contact time, dosage of magnetic aggregates, the amount of succinic acid on the magnetic aggregates on the adsorption capacity, as well as the efficiency of the treatment in the adsorption of two transition metals, copper (Cu) and zinc (Zn) from real wastewater, were investigated. The kinetic behavior was analyzed by using the Lagergren pseudo-first-order, pseudo-second-order, and Elovich and intra-particle diffusion models. Langmuir and Freundlich’s models were applied to simulate the adsorption equilibrium. The magnetic aggregates reached the equilibrium condition relatively fast, within 10 min. Magnetic aggregates with a higher amount of succinic acid in their formulation showed a higher adsorption capacity of the two metals in all the experiments. This is consistent with the adsorption mechanism mainly based on electrostatic interaction between the metal ions and the negative charges on the surface of magnetic aggregates. A higher adsorption capacity for the removal of copper compared to zinc was found. Additionally, the electrochemical characterization of the magnetic aggregates was done as a preliminary study for proposing a regeneration method of the MA along with the extraction metals adsorbed based on an electrochemical process.
ISSN:2075-163X
2075-163X
DOI:10.3390/min11060643