Porous carbon cartridges obtained from mango seeds and avocado pits applied as adsorbents for Cd²⁺, Cu²⁺, and Pb²⁺ ions
Palavras-chave:
Porous carbons, Adsorption, Metal ions, Tommy atkins mango, Persea americana avocadoResumo
The high concentration of heavy metals in water bodies is dangerous for the environment, as it is intensely toxic to organisms, making its removal of great importance. Several techniques for removing heavy metal cations from the environment have been developed, among them, adsorption appears as a great option due to its low cost. For this, solid adsorbent materials with high adsorption capacity are used. Recently, materials based on porous carbons have been used as bioadsorbents once compared to conventional adsorbents, such as silicas, these materials have a high surface area, high adsorption capacity, with the additional property of of being obtained from byproducts of agribusiness. In this context, the objective of this work is to develop cartridges based on porous carbons using different carbon sources for the adsorption of metallic ions in an aqueous medium. The methodology is based on lyophilization, followed by carbonization of two materials of vegetable origin obtained from the Tommy atkins mango kernel and the Persea americana avocado seed, which were subjected to oxidation procedure. The characterization of the cartridges was carried out by a series of techniques. Spectroscopy in the infrared region helped to to prove that the two carbon sources, despite the different origins, have similar composition. Scanning electron microscopy for both samples confirmed the presence of defined and well-organized porous structures, and the thermogravimetric analysis showed a similar resistance between the lyophilized samples and the carbonized and oxidized samples of both samples. Furthermore, the adsorptive potential of both was evaluated through batch adsorption of the metallic ions Cu2+, Cd2+ and Pb2+. The results indicate the success in the preparation of porous carbons with homogeneous pore size distribution, high thermal stability and with promising adsorption values for the materials studied. Thus, the results obtained demonstrate the practical feasibility for the adsorption of toxic metals.
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MELO, D. Q., et al., Biosorption of metal ions using a low cost modified adsorbent (Mauritia flexuosa): experimental design and mathematical modeling. Environmental technology, 2016. 37(17): p. 2157-2171.
LEITE, A. B., et al., Activated carbons from avocado seed: optimisation and application for removal of several emerging organic compounds. Environmental Science and Pollution Research, 2018. 25(8): p. 7647-7661.
FRANÇA, A. M. M.; Sousa, F.W. and Rodrigues, A., Study of Cu2+, Ni2+, and Zn2+ competitive adsorption on synthetic zeolite: an experimental and theoretical approach. Desalination and water treatment, 2021. 227: p. 263-277.
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Copyright (c) 2024 Ingrid Aragão Lima Azevedo , Antônia Mayza de Morais França, Ronaldo Ferreira do Nascimento, Adonay Rodrigues Loiola (Autor)
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.
