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Volume 25 Issue 2
Feb.  2018
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文章导航 >  矿物冶金与材料学报(英文)  > 2018  >  25(2): 117-122
Dong-sheng He, Yun Chen, Ping Xiang, Zheng-jun Yu,  and J. H. Potgieter, Study on the pre-treatment of oxidized zinc ore prior to flotation, Int. J. Miner. Metall. Mater., 25(2018), No. 2, pp. 117-122. https://doi.org/10.1007/s12613-018-1554-2
Cite this article as:
Dong-sheng He, Yun Chen, Ping Xiang, Zheng-jun Yu,  and J. H. Potgieter, Study on the pre-treatment of oxidized zinc ore prior to flotation, Int. J. Miner. Metall. Mater., 25(2018), No. 2, pp. 117-122. https://doi.org/10.1007/s12613-018-1554-2
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研究论文

Study on the pre-treatment of oxidized zinc ore prior to flotation

  • School of Resource and Civil Engineering, Wuhan Institute of Technology, Wuhan 430205, China

  • Hunan Huaqi Resources and Environment Science & Technology Development Co. Ltd., Zhuzhou 412005, China

  • School of Chemical and Metallurgical Engineering, University of the Witwatersrand, Johannesburg 2050, South Africa

  • 通讯作者:

    Yun Chen    E-mail: yun.chen@hotmail.co.uk

  • The pre-treatment of zinc oxide bearing ores with high slime content is important to ensure that resources are utilized optimally. This paper reports an improved process using hydrocyclone de-sliming, dispersion reagents, and magnetic removal of iron minerals for the pre-treatment of zinc oxide ore with a high slime and iron content, and the benefits compared to traditional technologies are shown. In addition, this paper investigates the damage related to fine slime and iron during zinc oxide flotation, the necessity of using hydrocyclone de-sliming together with dispersion reagents to alleviate the influence of slime, and interactions among hydrocyclone de-sliming, reagent dispersion, and magnetic iron removal. Results show that under optimized operating conditions the entire beneficiation technology results in a flotation concentrate with a Zn grade of 34.66% and a recovery of 73.41%.
    • Research Article

    Study on the pre-treatment of oxidized zinc ore prior to flotation

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      Abstract
    • The pre-treatment of zinc oxide bearing ores with high slime content is important to ensure that resources are utilized optimally. This paper reports an improved process using hydrocyclone de-sliming, dispersion reagents, and magnetic removal of iron minerals for the pre-treatment of zinc oxide ore with a high slime and iron content, and the benefits compared to traditional technologies are shown. In addition, this paper investigates the damage related to fine slime and iron during zinc oxide flotation, the necessity of using hydrocyclone de-sliming together with dispersion reagents to alleviate the influence of slime, and interactions among hydrocyclone de-sliming, reagent dispersion, and magnetic iron removal. Results show that under optimized operating conditions the entire beneficiation technology results in a flotation concentrate with a Zn grade of 34.66% and a recovery of 73.41%.
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    • [1]
      A. Mehdilo, M. Irannajad, and H. Zarei, Flotation of zinc oxide ore using cationic and cationic-anionic mixed collectors, Physicochem. Probl. Miner. Process., 49(2013), p.145
      [2]
      A.H. Kashani and F. Rashchi, Separation of oxidized zinc minerals from tailings:Influence of flotation reagents, Miner. Eng., 21(2008), No. 12-14, p. 967.
      [3]
      S. Bulatovic, Handbook of Flotation Reagents:Chemistry, Theory and Practice Flotation of Sulfide Ores, Elsevier Science, 2010, p. 267.
      [4]
      J.R. de Wet and J.D. Singleton, Development of a viable process for the recovery of zinc from oxide ores, J. South Afr. Inst. Min. Metall., 108(2008), No. 5, p. 253.
      [5]
      S.R. Rao and J.A. Finch, Base metal oxide flotation using long chain xanthates, Int. J. Miner. Process., 69(2003), No. 1-4, p. 251.
      [6]
      S.H. Hosseini and E. Forssberg, Physicochemical studies of smithsonite flotation using mixed anionic/cationic collector, Miner. Eng., 20(2007), No. 6, p. 621.
      [7]
      B.A. Wills and T.J. Napier-Munn, Wills' Mineral Processing Technology:An Introduction to the Practical Aspects of Ore Treatment and Mineral Recovery, 7th ed., Butterworth-Heinemann, Oxford, 2006, p. 257.
      [8]
      M. Irannajad, M. Ejtemaei, and M. Gharabaghi, The effect of reagents on selective flotation of smithsonite-calcite-quartz, Miner. Eng., 22(2009), No. 9-10, p. 766.
      [9]
      M. Ejtemaei, M. Gharabaghi, and M. Irannajad, A review of zinc oxide mineral beneficiation using flotation method, Adv. Colloid Interface Sci., 206(2014), p. 68.
      [10]
      E.M. Gong, G.H. Ai, and Z.W. Wei, An experimental study on the iron recovery from the refractory zinc oxide ores, China Min. Mag., 16(2007), No. 6, p. 69.
      [11]
      M. Ejtemaei, M. Irannajad, and M. Gharabaghi, Influence of important factors on flotation of zinc oxide mineral using cationic, anionic and mixed (cationic/anionic) collectors; Miner. Eng., 24(2011), No. 13, p. 1402.
      [12]
      G. Önal, G. Bulut, A. Gül, O. Kangal, K.T. Perek, and F. Arslan, Flotation of Aladağ oxide lead-zinc ores, Miner. Eng., 18(2005), No. 2. p. 279.
      [13]
      C.J. Zhu, Study on the effect of slimes on flotation of zinc oxide mineral, Multipurpose Utilization Miner. Resour., 2005, No. 1, p. 7.
      [14]
      M.H. Jiang, S.Z. Yang, and J.Y. Yang, Industrial test research of oxide lead-zinc ore in Lanping, Nonferrous Met. Miner. Process. Sec., 2007, No. 3. p. 5.
      [15]
      X.P. Luo, Z.M. Yan, and H.Q. Chen, Comprehensive recovery of zinc oxide from Huili zinc tailings, Met. Mine, 2007, No. 8, p. 86.
      [16]
      Y.M. Zhou, Z.Z. Yan, X.J. Tang, and Y.W. Qiu, Mineral processing technology research for recycling oxidized zinc from tailings of lead-zinc ore, Nonferrous Met. Miner. Process. Sec., 2008, No. 1, p. 11.
      [17]
      A.E.C. Peres, A.A. Borges, and R. Galery, The effect of the dispersion degree on the floatability of an oxidized zinc ore, Miner. Eng., 7(1994), No. 11, p. 1435.
      [18]
      C.A. Pereira and A.E.C. Peres, Reagents in calamine zinc ores flotation, Miner. Eng., 18(2005), No. 2, p. 275.
      [19]
      M. Rey, The flotation of oxidized ores of lead copper and zinc,[In] Recent Developments in Mineral Dressing Symposium, IMM, London, 1953, p. 541.
      [20]
      M.J.G. Salum, A.C. de Araojo, and A.E.C. Perek, The role of sodium sulphide in amine flotation of silicate zinc minerals, Miner. Eng., 5(1992), No. 3-5, p. 411.
      [21]
      E.M. Andrade, B.L.C.M. Costa, G.A.G. Alcântara, and R.M.F. Lima, Flotation of manganese minerals and quartz by sodium oleate and water glass, Lat. Am. Appl. Res., 42(2012), No. 1, p. 39.
      [22]
      R.S. Duarte, R.M.F. Lima, and V.A. Leão, Effect of inorganic and organic depressants on the cationic flotation and surface charge of rhodonite-rhodochrosite, Rem:Rev. Esc. Minas, 68(2015), No. 4, p. 463.
      [23]
      Y.P. Lu, M.Q. Zhang, Q.M. Feng, T. Long, L.M. Ou, and G.F. Zhang, Effect of sodium hexametaphosphate on separation of serpentine from pyrite, Trans. Nonferrous Met. Soc. China, 21(2011), No. 1, p. 208.
      [24]
      M.O. Silvestre, C.A. Pereira, R. Galery, and A.E.C. Peres, Dispersion effect on a lead-zinc sulphide ore flotation, Miner. Eng., 22(2009), No. 9-10, p. 752.
      [25]
      W.P. Zhang, Zinc recycling technology from dust and power of steel plants, Resour. Recycl., 2008, No. 3, p. 52.
      [26]
      Z.Q. Xie, Y.F. Guo, F. Chen, and T. Jiang, Research status and prospect of comprehensive utilization of zinc-bearing dust in iron and steel plants, Sintering Pelletizing, 41(2016), No. 5, p. 53.
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