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Volume 22 Issue 8
Aug.  2015
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Yu-jie Hu, Chao-bo Tang, Mo-tang Tang, and Yong-ming Chen, Reductive smelting of spent lead–acid battery colloid sludge in a molten Na2CO3 salt, Int. J. Miner. Metall. Mater., 22(2015), No. 8, pp. 798-803. https://doi.org/10.1007/s12613-015-1136-5
Cite this article as:
Yu-jie Hu, Chao-bo Tang, Mo-tang Tang, and Yong-ming Chen, Reductive smelting of spent lead–acid battery colloid sludge in a molten Na2CO3 salt, Int. J. Miner. Metall. Mater., 22(2015), No. 8, pp. 798-803. https://doi.org/10.1007/s12613-015-1136-5
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Reductive smelting of spent lead–acid battery colloid sludge in a molten Na2CO3 salt

  • 通讯作者:

    Chao-bo Tang    E-mail: tangchaobo9043@163.com

  • Lead extraction from spent lead–acid battery paste in a molten Na2CO3 salt containing ZnO as a sulfur-fixing agent was studied. Some influencing factors, including smelting temperature, reaction time, ZnO and salt dosages, were investigated in detail using single-factor experiments. The optimum conditions were determined as follows: T = 880℃; t = 60 min; Na2CO3/paste mass ratio = 2.8:1; and the ZnO dosage is equal to the stoichiometric requirement. Under the optimum conditions, the direct recovery rate of lead reached 98.14%. The results suggested that increases in temperature and salt dosage improved the direct recovery rate of lead. XRD results and thermodynamic calculations indicated that the reaction approaches of lead and sulfur were PbSO4→Pb and PbSO4→ZnS, respectively. Sulfur was fixed in the form of ZnS, whereas the molten salt did not react with other components, serving only as a reaction medium.
  • Reductive smelting of spent lead–acid battery colloid sludge in a molten Na2CO3 salt

    + Author Affiliations
    • Lead extraction from spent lead–acid battery paste in a molten Na2CO3 salt containing ZnO as a sulfur-fixing agent was studied. Some influencing factors, including smelting temperature, reaction time, ZnO and salt dosages, were investigated in detail using single-factor experiments. The optimum conditions were determined as follows: T = 880℃; t = 60 min; Na2CO3/paste mass ratio = 2.8:1; and the ZnO dosage is equal to the stoichiometric requirement. Under the optimum conditions, the direct recovery rate of lead reached 98.14%. The results suggested that increases in temperature and salt dosage improved the direct recovery rate of lead. XRD results and thermodynamic calculations indicated that the reaction approaches of lead and sulfur were PbSO4→Pb and PbSO4→ZnS, respectively. Sulfur was fixed in the form of ZnS, whereas the molten salt did not react with other components, serving only as a reaction medium.
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