Research of refractory Oxidized Lead-zinc Ore in Lanping

被引:1
|
作者
Xiao, Hong [1 ]
Liu, Quanjun [1 ]
Jiang, Meiguang [1 ]
Yang, Junlong [1 ]
机构
[1] Kunming Univ Sci & Technol, Fac Land & Resource Engn, Kunming, Peoples R China
来源
FRONTIERS OF MATERIALS, CHEMICAL AND METALLURGICAL TECHNOLOGIES, PTS 1 AND 2 | 2012年 / 581-582卷
关键词
Oxidized lead-zinc ore; Preferential flotation; High oxidation rate;
D O I
10.4028/www.scientific.net/AMR.581-582.1110
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
The lead-zinc mine is a low grade of refractory oxide mineral. The grade of lead is 2.84%, with the oxidation rate of 90.95%. The grade of zinc is 3.223%, and with the oxidation rate of 87.9%. The grade of silver is 99.5g/t. This test used the silver-lead sulphide flotation at first, then depressing zinc oxide and floating lead oxide mineral. As a result, in silver-lead sulphide concentrate, the silver grade for 1180 g/t, lead 11.45%. Lead and silver recovery rate were 18.41% and 51.14% respectively. Lead oxide concentrate grade is 32.59%, and the silver is 518g/t. Lead and silver recovery rate were 68.34% and 29.18%. Zinc oxide concentrate grade is 32.65%, including 1.14% lead; zinc recovery rate is 80.11%.
引用
收藏
页码:1110 / 1114
页数:5
相关论文
共 50 条
  • [31] Restoration potential of pioneer plants growing on lead-zinc mine tailings in Lanping, southwest China
    Lei Dongmei
    Duan Changqun
    JOURNAL OF ENVIRONMENTAL SCIENCES, 2008, 20 (10) : 1202 - 1209
  • [32] Experimental Study on Flotation Process Conditions of Lead-zinc Ore
    Li, Mingming
    Zhang, Qidong
    POWDER TECHNOLOGY & APPLICATIONS IV, 2012, 454 : 183 - 188
  • [33] Substantiation of Gravity Concentration to the Shalkiya Deposit Lead-Zinc Ore
    Sh. A. Telkov
    I. Yu. Motovilov
    M. B. Barmenshinova
    N. L. Medyanik
    G. S. Daruesh
    Journal of Mining Science, 2019, 55 : 430 - 436
  • [34] Study on Flotation of Lead-zinc Oxide Ore from Yunnan
    Lan, Zhuoyue
    Li, Difei
    Liu, Quanjun
    Tong, Xiong
    ENVIRONMENTAL PROTECTION AND RESOURCES EXPLOITATION, PTS 1-3, 2013, 807-809 : 2317 - 2322
  • [35] Treatment of wastewater from the lead-zinc ore processing industry
    Panayotova, M
    Fritsch, J
    JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH PART A-ENVIRONMENTAL SCIENCE AND ENGINEERING & TOXIC AND HAZARDOUS SUBSTANCE CONTROL, 1996, 31 (09): : 2155 - 2165
  • [36] Study on Recovery of Lead-Zinc tailing ore by electrochemical flotation
    Zhou Guiying
    Li Wenjuan
    Chen Yong
    Song Yongsheng
    ENVIRONMENTAL TECHNOLOGY AND RESOURCE UTILIZATION II, 2014, 675-677 : 1451 - 1454
  • [37] Restoration potential of pioneer plants growing on lead-zinc mine tailings in Lanping, southwest China
    LEI Dongmei1
    Journal of Environmental Sciences, 2008, (10) : 1202 - 1209
  • [38] Effect of a Crushing Technique on Lead-Zinc Ore Processing Performance
    Barnov, N. G.
    Lavrinenko, A. A.
    Lusinyan, O. G.
    Chikhladze, V. V.
    JOURNAL OF MINING SCIENCE, 2017, 53 (04) : 771 - 777
  • [39] Substantiation of Gravity Concentration to the Shalkiya Deposit Lead-Zinc Ore
    Telkov, Sh A.
    Motovilov, I. Yu
    Barmenshinova, M. B.
    Medyanik, N. L.
    Daruesh, G. S.
    JOURNAL OF MINING SCIENCE, 2019, 55 (03) : 430 - 436
  • [40] The effect of microwave pretreatment on impact crushing of lead-zinc ore
    Liu, Yulong
    Ding, Dexin
    Chen, Wenguang
    Hu, Nan
    Wu, Lingling
    Hu, Lin
    Zhang, Qiucai
    Zhang, Zhijun
    Li, Feng
    Xue, Xilong
    Li, Zhaopeng
    He, Guicheng
    Yu, Qing
    METALLURGICAL RESEARCH & TECHNOLOGY, 2021, 118 (05)
12345