Cite this article as: |
Peng Xing, Bao-zhong Ma, Peng Zeng, Cheng-yan Wang, Ling Wang, Yong-lu Zhang, Yong-qiang Chen, Shuo Wang, and Qiu-yin Wang, Deep cleaning of a metallurgical zinc leaching residue and recovery of valuable metals, Int. J. Miner. Metall. Mater., 24(2017), No. 11, pp. 1217-1227. https://doi.org/10.1007/s12613-017-1514-2 |
Cheng-yan Wang E-mail: chywang@yeah.net
[1] |
E. Abkhoshk, E. Jorjani, M.S. Al-Harahsheh, F. Rashchi, and M. Naazeri, Review of the hydrometallurgical processing of non-sulfide zinc ores, Hydrometallurgy, 149(2014), p. 153.
|
[2] |
M. Deniz Turan, H. Soner Altundoğan, and F. Tümen, Recovery of zinc and lead from zinc plant residue, Hydrometallurgy, 75(2004), No. 1-4, p. 169.
|
[3] |
Y.L. Zhang, X.J. Yu, and X.B. Li, Kinetics of simultaneous leaching of Ag and Pb from hydrometallurgical zinc residues by chloride, Rare Met., 31(2012), No. 4, p. 402.
|
[4] |
A. Özverdİ and M. Erdem, Environmental risk assessment and stabilization/solidification of zinc extraction residue:I. Environmental risk assessment, Hydrometallurgy, 100(2010), No. 3-4, p. 103.
|
[5] |
X.B. Min, X.D. Xie, L.Y. Chai, Y.J. Liang, M. Li, and Y. Ke, Environmental availability and ecological risk assessment of heavy metals in zinc leaching residue, Trans. Nonferrous Met. Soc. China, 23(2013), No. 1, p. 208.
|
[6] |
M. Erdem and A. Özverdi, Environmental risk assessment and stabilization/solidification of zinc extraction residue:Ⅱ. Stabilization/solidification, Hydrometallurgy, 105(2011), No. 3-4, p. 270.
|
[7] |
D. Qiu and L. Chai, Nonferrous Metallurgy and Environmental Protection, Central South University Press, Changsha, 2015, p. 292.
|
[8] |
J.K. Rastas, K.M.J. Saari, V.V.H. Hintikka, J.O. Leppinen, and A.E. Jarvinen, Flotation Recovery of Lead, Silver and Gold as Sulfides from Electrolytic Zinc Process Residues, United States Patent, Patent No. 4385038, 1983.
|
[9] |
F. Rashchi, A. Dashti, M. Arabpour-Yazdi, and H. Abdizadeh, Anglesite flotation:a study for lead recovery from zinc leach residue, Miner. Eng., 18(2005), No. 2, p. 205.
|
[10] |
R. Raghavan, P.K. Mohanan, and S.C. Patnaik, Innovative processing technique to produce zinc concentrate from zinc leach residue with simultaneous recovery of lead and silver, Hydrometallurgy, 48(1998), No. 2, p. 225.
|
[11] |
X.S. Yan and C.L. Chen, Discussion on the pyrometallurgical process for zinc leaching residues, China Nonferrous Metall., 2012, No. 5, p. 58.
|
[12] |
Y. Ma and F. Wang, Study on comprehensive utilization of lead-silver residue, China Nonferrous Metall., 2008, No. 5, p. 44.
|
[13] |
P. Ashtari and P. Pourghahramani, Selective mechanochemical alkaline leaching of zinc from zinc plant residue, Hydrometallurgy, 156(2015), p. 165.
|
[14] |
M. Sethurajan, D. Huguenot, R. Jain, P.N.L. Lens, H.A. Horn, L.H.A. Figueiredo, and Eric D. van Hullebusch, Leaching and selective zinc recovery from acidic leachates of zinc metallurgical leach residues, J. Hazard. Mater., 324(2017), p. 71.
|
[15] |
A. Ruşen, A.S. Sunkar, and Y.A. Topkaya, Zinc and lead extraction from Çinkur leach residues by using hydrometallurgical method, Hydrometallurgy, 93(2008), No. 1-2, p. 45.
|
[16] |
F. Farahmand, D. Moradkhani, M.S. Safarzadeh, and F. Rashchi, Brine leaching of lead-bearing zinc plant residues:Process optimization using orthogonal array design methodology, Hydrometallurgy, 95(2009), No. 3-4, p. 316.
|
[17] |
Z.H. Guo, F.K. Pan, X.Y. Xiao, L. Zhang, and K.Q. Jiang, Optimization of brine leaching of metals from hydrometallurgical residue, Trans. Nonferrous Met. Soc. China, 20(2010), No. 10, p. 2000.
|
[18] |
B. Behnajady and J. Moghaddam, Chloride leaching of lead and silver from refractory zinc plant residue, Res. J. Chem. Environ., 15(2011), No. 2, p. 473.
|
[19] |
M. Şahin and M. Erdem, Cleaning of high lead-bearing zinc leaching residue by recovery of lead with alkaline leaching, Hydrometallurgy, 153(2015), p. 170.
|
[20] |
Y.J. Zhang, X.H. Li, L.P. Pan, X.Y. Liang, and X.P. Li, Studies on the kinetics of zinc and indium extraction from indium-bearing zinc ferrite, Hydrometallurgy, 100(2010), No. 3-4, p. 172.
|
[21] |
S.M.J. Koleini, H. Mehrpouya, K. Saberyan, and M. Abdolahi, Extraction of indium from zinc plant residues, Miner. Eng., 23(2010), No. 1, p. 51.
|
[22] |
X.B. Li, C. Wei, Z.G. Deng, C.X. Li, G. Fan, H. Rong, and F. Zhang, Extraction and separation of indium and copper from zinc residue leach liquor by solvent extraction, Sep. Purif. Technol., 156(2015), p. 348.
|
[23] |
H. Sawai, I.M.M. Rahman, Y. Tsukagoshi, T. Wakabayashi, T. Maki, S. Mizutani, and H. Hasegawa, Selective recovery of indium from lead-smelting dust, Chem. Eng. J., 277(2015), p. 219.
|
[24] |
F. Carranza, R. Romero, A. Mazuelos, and N. Iglesias, Recovery of Zn from acid mine water and electric arc furnace dust in an integrated process, J. Environ. Manage., 165(2016), p. 175.
|
[25] |
M. Volpe, D. Oliveri, G. Ferrara, M. Salvaggio, S. Piazza, S. Italiano, and C. Sunseri, Metallic lead recovery from lead-acid battery paste by urea acetate dissolution and cementation on iron, Hydrometallurgy, 96(2009), No. 1-2, p. 123.
|
[26] |
Y. Xing and S.X. Wu, Study on electrowinning extraction of lead from zinc oxide leach residue of ironmaking dust, Min. Metall., 22(2013), No. 2, p. 75.
|
[27] |
E. Expósito, J. Iniesta, J. González-García, V. Montiel, and A. Aldaz, Lead electrowinning in an acid chloride medium, J. Power Sources, 92(2001), No. 1-2, p. 260.
|
[28] |
D. Sinadinović, Ž. Kamberović, and A. Šutić, Leaching kinetics of lead from lead (Ⅱ) sulphate in aqueous calcium chloride and magnesium chloride solutions, Hydrometallurgy, 47(1997), No. 1, p. 137.
|
[29] |
C.I. Cerceau, C.F. Carvalho, A.C.S. Rabelo, C.G. Santos, S.M.D. Gonçalves, and E.V.V. Varejão, Recovering lead from cupel waste generated in gold analysis by Pb-fire assay, J. Environ. Manage., 183(2016), No. 3, p. 771.
|