留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码
Volume 24 Issue 11
Nov.  2017
Turn off MathJax
目录
数据统计

分享

计量
  • 文章访问数:  467
  • HTML全文浏览量:  62
  • PDF下载量:  12
  • 被引次数: 0
文章导航 >  矿物冶金与材料学报(英文)  > 2017  >  24(11): 1211-1216
Jin-lin Yang, Ji-guang Liu, Han-xin Xiao,  and Shao-jian Ma, Sulfuric acid leaching of high iron-bearing zinc calcine, Int. J. Miner. Metall. Mater., 24(2017), No. 11, pp. 1211-1216. https://doi.org/10.1007/s12613-017-1513-3
Cite this article as:
Jin-lin Yang, Ji-guang Liu, Han-xin Xiao,  and Shao-jian Ma, Sulfuric acid leaching of high iron-bearing zinc calcine, Int. J. Miner. Metall. Mater., 24(2017), No. 11, pp. 1211-1216. https://doi.org/10.1007/s12613-017-1513-3
shu
引用本文 PDF XML SpringerLink
研究论文

Sulfuric acid leaching of high iron-bearing zinc calcine

  • College of Resources, Environment and Materials, Guangxi University, Nanning 530004, China

  • Ministry-Province Jointly-Constructed Cultivation Base for State Key Laboratory of Processing for Non-ferrous Metal and Featured Materials, Guangxi Zhuang Autonomous Region, Guangxi University, anning 530004, China

  • 通讯作者:

    Shao-jian Ma    E-mail: 492300968@qq.com

  • Sulfuric acid leaching of high iron-bearing zinc calcine was investigated to assess the effects of sulfuric acid concentration, liquid-to-solid ratio, leaching time, leaching temperature, and the stirring speed on the leaching rates of zinc and iron. The results showed that the sulfuric acid concentration, liquid-to-solid ratio, leaching time, and leaching temperature strongly influenced the leaching of zinc and iron, whereas stirring speed had little influence. Zinc was mainly leached and the leaching rate of iron was low when the sulfuric acid concentration was less than 100 g/L. At sulfuric acid concentrations higher than 100 g/L, the leaching rate of iron increased quickly with increasing sulfuric acid concentration. This behavior is attributed to iron-bearing minerals such as zinc ferrite in zinc calcine dissolving at high temperatures and high sulfuric acid concentrations but not at low temperatures and low sulfuric acid concentrations.
    • Research Article

    Sulfuric acid leaching of high iron-bearing zinc calcine

    + Author Affiliations
      Abstract
    • Sulfuric acid leaching of high iron-bearing zinc calcine was investigated to assess the effects of sulfuric acid concentration, liquid-to-solid ratio, leaching time, leaching temperature, and the stirring speed on the leaching rates of zinc and iron. The results showed that the sulfuric acid concentration, liquid-to-solid ratio, leaching time, and leaching temperature strongly influenced the leaching of zinc and iron, whereas stirring speed had little influence. Zinc was mainly leached and the leaching rate of iron was low when the sulfuric acid concentration was less than 100 g/L. At sulfuric acid concentrations higher than 100 g/L, the leaching rate of iron increased quickly with increasing sulfuric acid concentration. This behavior is attributed to iron-bearing minerals such as zinc ferrite in zinc calcine dissolving at high temperatures and high sulfuric acid concentrations but not at low temperatures and low sulfuric acid concentrations.
      • FullText(HTML)
    • loading
      • Supplements(0)
      • References(16)
    • [1]
      A.D. Souza, P.S. Pina, V.A. Leão, C.A. Silva, and P.F Siqueira, The leaching kinetics of a zinc sulphide concentrate in acid ferric sulphate, Hydrometallurgy, 89(2007), No. 1-2, p. 72.
      [2]
      T.T. Chen and J.E. Dutrizac, Mineralogical changes occurring during the fluid-bed roasting of zinc sulfide concentrates, JOM, 56(2004), No. 12, p. 46.
      [3]
      J.C. Balarini, L. de Oliveira Polli, T.L.S. Miranda, R.M.Z. de Castro, and A. Salum, Importance of roasted sulphide concentrates characterization in the hydrometallurgical extraction of zinc, Miner. Eng., 21(2008), No. 1, p. 100.
      [4]
      B. Boyanov, A. Peltekov, and V. Petkova, Thermal behavior of zinc sulfide concentrates with different iron content at oxidative roasting, Thermochim. Acta, 586(2014), No. 8, p. 9.
      [5]
      N. Leclerc, E. Meux, and J.M. Lecuire, Hydrometallurgical extraction of zinc from zinc ferrites, Hydrometallurgy, 70(2003), No. 1-3, p. 175.
      [6]
      K. Wantae and S. Fumio, Mechanochemical synthesis of zinc ferrite from zinc oxide and α-Fe2O3, Powder Technol., 114(2001), No. 1-3, p. 12.
      [7]
      K. Brunelli and M. Dabalà, Ultrasound effects on zinc recovery from EAF dust by sulfuric acid leaching, Int. J. Miner. Metall. Mater., 22(2015), No. 4, p. 353.
      [8]
      M.B. Pavlović, Č. Jovalekić, A.S. Nikolić, D. Manojlović, and N. Šojić, Soft mechanochemical synthesis of MgFe2O4 nanoparticles from the mixture of α-Fe2O3 with Mg (OH)2 and Fe (OH)3 with Mg (OH)2, Mater. Sci. Technol., 26(2010), No. 8, p. 968.
      [9]
      K. Li, C. Peng, and K. Jiang, The recycling of Mn-Zn ferrite wastes through a hydrometallurgical route, J. Hazard. Mater., 194(2011), No. 5, p. 79.
      [10]
      S. Oleszek-Kudlak, M. Grabda, and T. Nakamura, Alternative method for pyrometallurgical recycling of EAF dust using plastic waste containing tetrabromobisphenol A, High Temp. Mater. Processes, 30(2011), No. 4-5, p. 359.
      [11]
      H.G. Wang, Y. Li, J.M. Gao, M. Zhang, and M. Guo, A novel hydrothermal method for zinc extraction and separation from zinc ferrite and electric arc furnace dust, Int. J. Miner. Metall. Mater., 23(2016), No. 2, p. 146.
      [12]
      K. Nowińska, Z. Adamczyk, and E. Melaniuk-Wolny, Accompanying elements in sphalerite in pyrometallurgical process of zinc and lead production, Mater. Manuf. Processes, 30(2015), No. 12, p. 1457.
      [13]
      H. Yan, L.Y. Chai, B. Peng, M. Li, N. Peng, and D.K. Hou, A novel method to recover zinc and iron from zinc leaching residue, Miner. Eng., 55(2014), p. 103.
      [14]
      B. Janković, S. Stopić, A. Güven, and B. Friedrich, Kinetic modeling of thermal decomposition of zinc ferrite from neutral leach residues based on stochastic geometric model, J. Magn. Magn. Mater., 358-359(2014), No. 5, p. 105.
      [15]
      C.C. Wu, F.C. Chang, W.S. Chen, M.S. Tsai, and Y.N. Wang, Reduction behavior of zinc ferrite in EAF-dust recycling with CO gas as a reducing agent, J. Environ. Manage., 143(2014), No. 10, p. 208.
      [16]
      G. Yu, N. Peng, L. Zhou, Y.J. Liang, X.Y. Zhou, B. Peng, L.Y. Chai, and Z.H. Yang, Selective reduction process of zinc ferrite and its application in treatment of zinc leaching residues, Trans. Nonferrous Met. Soc. China, 25(2015), No. 8, p. 2744.
      • Relative Articles
      Cited By

    Catalog


    • /

      返回文章
      返回

      版权所有 ©《矿物冶金与材料学报(英文)》编辑部

      地址:北京市海淀区学院路30号邮政编码:100083

      电子邮箱:journal@ustb.edu.cn电话:+86-10-62332875

      本系统由 北京仁和汇智信息技术有限公司 开发    百度统计