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Study of process water effect on the activation of sphalerite during differential flotation of Pb-Cu-Zn

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This work was aimed to analyze the effect of concentration of Cu.2+ and Pb.2+ ions in flotation process water with sphalerite activation, the analysis was performed at Cozamin Mining flotation circuit. This analysis demonstrated that (i) it was possible to determine the relationship between Sodium Cyanide and Ammonium Bisulfite used as depressants and Cu.2+ and Pb.2+ contents in the process water. (ii) It also proved the relationship between lead and iron content in the head with the Pb.2+ ions in process water. According to the data gathered and analysis performed, (iii) it was also determined that it was possible to reuse process water as long as the use of Ammonium Bisulfite was reduced and recommended replacing the use of Sodium Cyanide with Zinc Sulfate (ZnSO4) as a depressant of Sphalerite. Additionally, the concentration of Cu.2+ and Pb.2+ ions in the water should be controlled in a range of 10 to 20 ppm and 0.10 to 0.20 ppm, respectively.
Rocznik
Strony
art. no. 146906
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr.
Twórcy
  • Departamento de Formación Profesional Específica. Instituto Politécnico Nacional - Unidad Profesional Interdisciplinaria de Ingeniería campus Zacatecas (UPIIZ). Blvd. del Bote 202, Cerro del Gato, Ejido la Escondida, Ciudad Administrativa, 98160, Zacatecas, México
  • Departamento de Formación Profesional Específica. Instituto Politécnico Nacional - Unidad Profesional Interdisciplinaria de Ingeniería campus Zacatecas (UPIIZ). Blvd. del Bote 202, Cerro del Gato, Ejido la Escondida, Ciudad Administrativa, 98160, Zacatecas, México
  • COZAMIN, Cerro de San Roberto S/N Ejido de Hda. Nueva. Morelos, Zacatecas, México C.P. 98100 Teléfono: +52 (492) 491-4710
  • COZAMIN, Cerro de San Roberto S/N Ejido de Hda. Nueva. Morelos, Zacatecas, México C.P. 98100 Teléfono: +52 (492) 491-4710
  • Departamento de Formación Básica Disciplinaria. Instituto Politécnico Nacional – Unidad Profesional Interdisciplinaria de Ingeniería campus Hidalgo (UPIIH). Kilómetro 1500 Actopan – Pachuca, 42162, Hidalgo, México
  • Catedrático CONACyT – Departamento de Procesos de transformación. Centro de Investigación en Química Aplicada – CIQA, 25294, Saltillo, Coahuila, México
  • Departamento de Formación Profesional Específica. Instituto Politécnico Nacional - Unidad Profesional Interdisciplinaria de Ingeniería campus Zacatecas (UPIIZ). Blvd. del Bote 202, Cerro del Gato, Ejido la Escondida, Ciudad Administrativa, 98160, Zacatecas, México
Bibliografia
  • AIKAWA, K., ITO, M., SEGAWA, T., JEON, S., PARK, I., TABELIN, C.B., HIROYOSHI, N., 2020. Depression of lead-activated sphalerite by pyrite via galvanic interactions: Implications to the selective flotation of complex sulfide ores, Miner. Eng. 152,106367-106375.
  • BAHRAMI, A., MIRSALEH, M., GHORBANI, Y., KAZEMI, F., ABDOLLAHI, M., DANESH, A., 2019. Process mineralogy as a key factor affecting the flotation kinetics of copper sulfide minerals. Int. J. Miner. Met. Mat. 26, 430-440.
  • BASILIO, C.I., KARTIO, I.J., YOON, R.-H., 1996. Lead activation of sphalerite during galena flotation. Miner. Eng. 9, 869–879.
  • BIÇAK, Ö., EKMEKÇI, Z., CAN, M., ÖZTÜRK, Y., 2012. The effect of water chemistry on froth stability and surface chemistry of the flotation of a Cu–Zn sulfide ore. Int. J. Miner. Process. 102–103, 32–37.
  • CHEN, Z., YOON, R.-H., 2000. Electrochemistry of copper activation of sphalerite at pH 9.2. Int. J. Miner. Process. 58, 57–66.
  • DÁVILA-PULIDO, G.I., URIBE-SALAS, A., ESPINOSA-GÓMEZ, R., 2011. Comparison of the depressant action of sulfite and metabisulfite for Cu-activated sphalerite. Int. J. Miner. Process. 101, 71–74.
  • GERSON, A.R., LANGE, A.G., PRINCE, K.E., SMART, R.S., 1999. The mechanism of copper activation of sphalerite. Appl. Surf. Sci. 137, 207–223.
  • HAGA, K., TONGAMP, W., SHIBAYAMA, A., 2012. Investigation of flotation parameters for copper recovery from enargite and chalcopyrite mixed ore. Mater. Trans. 53, 707–715.
  • JIN, J., MILLER, J.D., DANG, L.X., WICK, C.D., 2015. Effect of Cu2+ activation on interfacial water structure at the sphalerite surface as studied by molecular dynamics simulation. Int. J. Miner. Process. 145, 66–76.
  • LIU, J., WANG, Y., LUO, D., ZENG, Y., 2018. Use of ZnSO4 and SDD mixture as sphalerite depressant in copper flotation. Miner. Eng. 121, 31–38.
  • LIU, J., WEN, S., DENG, J., CHEN, X., FENG, Q., 2014. DFT study of ethyl xanthate interaction with sphalerite (110) surface in the absence and presence of copper. Appl. Surf. Sci. 311, 258–263.
  • LIU, W., MORAN, C.J., VINK, S., 2013. A review of the effect of water quality on flotation. Miner. Eng. 53, 91–100.
  • QIN, W., WANG, X., MA, L., JIAO, F., LIU, R., YANG, C., GAO, K., 2015. Electrochemical characteristics and collectorless flotation behavior of galena: With and without the presence of pyrite. Miner. Eng. 74, 99–104.
  • RAO, S.R., NESSET, J.E., FINCH, J.A., 2011. Activation of sphalerite by Cu ions produced by cyanide action on chalcopyrite. Miner. Eng. 24, 1025–1027.
  • RASHCHI, F., SUI, C., FINCH, J.A., 2002. Sphalerite activation and surface Pb ion concentration. Int. J. Miner. Process. 67, 43–58.
  • WALPOLE, R.E., MYERS, R.H., MYERS, S.L., YE, K., 2012. Probabilidad y estadística para ingeniería y ciencias, Novena. ed. Pearson educación, México.
  • WANG, X., QIN, W., JIAO, F., WU, J., 2020. The influence of galvanic interaction on the dissolution and surface composition of galena and pyrite in flotation, Miner. Eng. 156,106525-106531.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2dcedeab-5c35-46a3-afe9-f18d371566c6
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