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