Kinetic study of removal heavy metal from aqueous solution using the synthetic aluminum silicate

One of the problems that most affect humanity today is the wastewater discharge into different water bodies. It was estimated that more than 7 million tons of wastewater are generated worldwide and are discharged into rivers, lakes, and reservoirs. Among the most dangerous wastewaters are those from...

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Veröffentlicht in:Scientific reports 2020-07, Vol.10 (1), p.10836-10836, Article 10836
Hauptverfasser: Treto-Suárez, Manuel Alejandro, Prieto-García, Julio Omar, Mollineda-Trujillo, Ángel, Lamazares, Emilio, Hidalgo-Rosa, Yoan, Mena-Ulecia, Karel
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Sprache:eng
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Zusammenfassung:One of the problems that most affect humanity today is the wastewater discharge into different water bodies. It was estimated that more than 7 million tons of wastewater are generated worldwide and are discharged into rivers, lakes, and reservoirs. Among the most dangerous wastewaters are those from inorganic chemistry research laboratories, mainly due to heavy metals. These problems have become a highly relevant topic, and numerous researchers have tried to design wastewater treatment systems that will deal more efficiently with heavy metals elimination. In this work, the synthesis, characterization, and evaluation of hydrated aluminium silicate were performed as alternative wastewater treatment from chemistry research and teaching laboratories. The compound obtained was A l 2 O 3 3 S i O 2 H 2 O , which was characterized by the determination of its physicochemical properties. These revealed a low density, very porous material, with low crystallinity, strong chemical resistance, a large surface area, and a high apparent ionic exchange capacity. Absorption kinetics studies of heavy metals in aqueous solutions, through more widespread models, have demonstrated that A l 2 O 3 3 S i O 2 H 2 O has excellent properties as absorbents of this material. The amorphous hydrated aluminium silicate achieves a decrease in the concentration of all the metal ions studied, reducing them to discharge levels permissible.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-67720-0