Ceramic Matrices for Immobilization of Heavy Metals Sorbed on Rice Husk

Authors

  • Melisa Soledad Romano, Doctoranda Grupo de Investigación de la Cáscara de Arroz (GICA), Facultad Regional Concepción del Uruguay, Universidad Tecnológica Nacional – Argentina
  • María Del Carmen García Directora
  • Nancy Quaranta Codirectora

DOI:

https://doi.org/10.33414/ajea.5.686.2020

Keywords:

Heavy metals, Rice husk, Ceramic matrices, Clay bricks

Abstract

Numerous studies have been conducted about the removal of heavy metal ions from aqueous solutions using lignocellulosic materials, which are capable of adsorbing various contaminants present even at low concentrations. Rice husk constitutes biomass waste that has found multiple applications in different fields, such as the removal of heavy metals by adsorption. After this process, a biomass-contaminant waste is generated, which currently does not have viable and low-cost alternatives for its final disposal. Thus, the objective of this work is to evaluate the possibility of incorporating rice husk contaminated with Cu-Ni-Cd and Pb-Zn into ceramic matrices, to immobilize these hazardous metals. Ceramic pieces from mixtures of commercial clay and rice husk with adsorbed metal, added by 10%
in volume were obtained. The raw materials were characterized by different techniques, such as SEM-EDS, XRD, DTATGA, particle size distribution, ecotoxicity, etc., while in ceramic products were analysed porosity, permanent volumetric variation, ecotoxicity, among others. From the overall results, it is possible to conclude that the obtained ceramic pieces have immobilized within their structure, the heavy metals present on rice husk. The bricks have excellent physical and mechanical properties that make possible their use in civil construction.

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Published

2020-10-05

How to Cite

Romano, M. S., García, M. D. C., & Quaranta, N. (2020). Ceramic Matrices for Immobilization of Heavy Metals Sorbed on Rice Husk. AJEA (Proceedings of UTN Academic Conferences and Events), (5). https://doi.org/10.33414/ajea.5.686.2020