Imobilização de metais pesados presentes nos resíduos de quartzito por meio da incorporação em argamassas com substituição total do agregado natural

Barros, Sâmea Valensca Alves; Dantas, Gerbeson Carlos Batista; Neves, G. A.; Menezes, Romualdo Rodrigues

doi:10.1590/s1413-4152202020180063

Cited by 5 publications

(3 citation statements)

References 32 publications

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“…The solubilization and stabilization process in cement matrices allows for the control of heavy metal leaching through chemical reactions between hydrated calcium silicate (C–S–H), carbon dioxide, and portlandite (Ca(OH)2), resulting in the formation of calcite (CaCO3). This process changes the solubility of the components and immobilizes the heavy metals, which can occur through adsorption or chemical interactions with the cementitious matrix . Therefore, it is possible to classify foundry sand and reference concrete as nonhazardous class II and noninert class II A and concrete with 100% WFS as nonhazardous waste class II and inert class II B according to the classification of ABN NBR 10004 of 2004…”

Section: Resultsmentioning

confidence: 99%

“…This process changes the solubility of the components and immobilizes the heavy metals, which can occur through adsorption or chemical interactions with the cementitious matrix. 23 Therefore, it is possible to classify foundry sand and reference concrete as nonhazardous class II and noninert class II A and concrete with 100% WFS as nonhazardous waste class II and inert class II B according to the classification of ABN NBR 10004 of 2004. 24 3.6.…”

Section: Alkali Aggregate Reactionmentioning

confidence: 99%

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Analysis of the Technical Feasibility of Sustainable Concrete Production Using Waste Foundry Sand as a Fine Aggregate

Noronha Marques,

Bergmann,

Masuero

2023

ACS Omega

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Waste foundation sand (WFS) is one of the most abundant residues in the foundation industry. Currently, its annual production is estimated to be three million tons. This material has properties that make it an attractive candidate for implantation as an alternative constituent to a natural fine aggregate in concrete applications. This application can promote greater sustainability, as it would establish a noble destination for the waste generated in large quantities by the metallurgical industry in addition to reducing the exploitation of a natural resource widely used by the civil construction industry. Given this, the present study observed the test of three different proportions of replacement, 25, 50, and 100% by mass, of natural sand by WFS in concrete. To assess the feasibility of these replacements, several tests were carried out covering mechanical properties and aspects related to the durability of concrete. The results indicated a significant improvement in the mechanical performance, with a resistance gain of 25% in relation to the reference concrete. As for the modulus of elasticity, there was no significant variation. As for aspects related to durability, both the absorption test and the alkali aggregate reaction test did not show statistically significant disparity, which attests to the technical feasibility of using nonconcrete WFS.

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Section: Resultsmentioning

confidence: 99%

Section: Alkali Aggregate Reactionmentioning

confidence: 99%

Analysis of the Technical Feasibility of Sustainable Concrete Production Using Waste Foundry Sand as a Fine Aggregate

Noronha Marques,

Bergmann,

Masuero

2023

ACS Omega

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“…A preocupação é relevante, de fato, se os peixes estiverem contaminados, podem acarretar problemas futuros para a população que se alimenta destes peixes, pois alguns metais tóxicos tratam-se de bioacumulativos, como por exemplo o Cd e Pb, sendo indicativos de poluição e que são capazes de aglomerar-se nos peixes e consequentemente podendo vir a nos causar danos (Barros et al, 2020).…”

Section: Introductionunclassified

Análise De Metais Potencialmente Contaminantes Nos Peixes Do Rio Taquari, Bacia Do Rio Paraguai, Município De Coxim-MS

Viana,

Silva,

Oliveira

2024

COLLOQ EXACTARUM

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In this study we analyzed the concentration of the metals Cd, Cu, Pb, Fe and Ni in the muscle tissue and digestive tract of 13 species of fish from the Taquari River, collected in the northern region of the state of Mato Grosso do Sul, in the Coxim micro-region, in order to quantify and compare the concentrations of these analytes present in these fish with the regulations for inorganic contaminants in Brazil (MERCOSUR) and abroad (FAO/WHO), thus making it possible to indicate whether they are within acceptable standards. The analyses were carried out using the Flame Atomic Absorption Spectrometry method and the results obtained indicate that Cd and Pb were not detected in all species. For Fe, Cu and Ni, no limits stipulated by legislation were found. Finally, the analysis showed that there are no factors of contamination by potentially contaminating metals through the consumption of fish by the population.

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Quartzite tailings in civil construction materials: a systematic review

Martins

Peixoto

Mendes

2023

Clean Techn Environ Policy

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Imobilização de metais pesados presentes nos resíduos de quartzito por meio da incorporação em argamassas com substituição total do agregado natural

Cited by 5 publications

References 32 publications

Analysis of the Technical Feasibility of Sustainable Concrete Production Using Waste Foundry Sand as a Fine Aggregate

Analysis of the Technical Feasibility of Sustainable Concrete Production Using Waste Foundry Sand as a Fine Aggregate

Análise De Metais Potencialmente Contaminantes Nos Peixes Do Rio Taquari, Bacia Do Rio Paraguai, Município De Coxim-MS

Quartzite tailings in civil construction materials: a systematic review

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