Applied Sciences (Oct 2024)

Electrochemical Performance of Ti Gr. 2 as Electrodes in Contact with Saline Suspension of Clays during the Electroflotation Process

  • Alvaro Soliz,
  • Felipe M. Galleguillos-Madrid,
  • José Ángel Cobos-Murcia,
  • Sebastian Angulo,
  • Sebastian Salazar-Avalos,
  • Bernabé Alonso-Fariñas,
  • Alexis Guzmán

DOI
https://doi.org/10.3390/app14198825
Journal volume & issue
Vol. 14, no. 19
p. 8825

Abstract

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The presence of clays in copper minerals has a significant negative impact during their processing, leading to low recoveries during the flotation process. In saline environments, the presence of these clays promotes operational problems associated with salinity, leading to decreases in the copper concentrate grade, alterations in the rheology of the mineral pulp, reduction in the selectivity of copper during the flotation process, declines in the quality of clarified water, and excessive corrosion of metallic components. This study explores the electroflotation of kaolinite and montmorillonite clays in NaCl solutions using a modified Hallimond tube coupled with Ti Gr. 2 electrodes for bubble generation via water electrolysis and the corrosion analysis of these electrodes applying the superposition model. The electroflotation results show recovery of clays close to 72.68% for kaolinite, 88.44% for montmorillonite, and 67.36% for a mixture of both clays. The presence of clays helps reduce the corrosive effects of Ti Gr. 2 from 0.069 A/m2 in NaCl to 0.0073 A/m2 in NaCl with montmorillonite clay.

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