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Effect of the pulp potential on galena flotation with amyl xanthate as the collector.

Authors :
Fernandes Rodrigues, Karine
Câmara Nogueira, Francielle
Duarte Figueiredo, Thiago
Liberato Silva, Paulo Henrique
Gomes Brandão, Paulo Roberto
Rodrigues da Costa, Adilson
Alberto Pereira, Carlos
Source :
REM - International Engineering Journal. Jan-Mar2024, Vol. 77 Issue 1, p65-73. 9p.
Publication Year :
2024

Abstract

The flotation mechanism of galena with xanthate as the collector is generally explained based on the mixed potential of the pulp, in which an anodic electron transfer reaction from the collector to the mineral is combined with an O2 cathodic reduction. Sodium sulphide, often used as a mineral activator, strongly influences the pulp’s mixed potential, and depending on the dosage applied, it can become a galena depressor reagent. In this way, the current study assesses galena flotability in the absence of collector, as well as in the presence of the collector potassium amyl xanthate (PAX) and sodium sulphide. The effect of an extremely cathodic potential was also studied through the addition of hydrogen peroxide. In addition, the effect of different stages in the oxidation of the galena surface on the flotability was investigated. Moreover, the zeta potential was measured and contact angle (wettability) tests were carried out. The contact angle measurements were taken for a distilled water, PAX solution and for a mixture of PAX and sodium sulphide solution on the oxidized and non-oxidized surface of galena. All the results showed that galena could be floated in all the PAX concentrations tested. It was observed that a moderate oxidation in the galena surface may contribute to an improvement of its flotation with PAX. However, extremely anodic and cathodic potentials cause flotability close to zero. The zeta potential results showed that sodium sulphide affected the interaction between PAX and galena. The measurements of the contact angle corroborated the results obtained in the microflotation tests. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
2448167X
Volume :
77
Issue :
1
Database :
Academic Search Index
Journal :
REM - International Engineering Journal
Publication Type :
Academic Journal
Accession number :
175840168
Full Text :
https://doi.org/10.1590/0370-44672023770053