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  • CN 62-1112/TF 
  • ISSN 1005-2518 
  • Founded in 1988
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Application of Atmospheric Oxygen Enriched Leaching in Gold Cyanide Production

  • YANG Junyan ,
  • GUO Hongzhu ,
  • CHEN Ping ,
  • XU Zhongmin
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  • Jinchiling Gold Mine,Zhaojin Mining Industry Co.,Ltd.,Zhaoyuan    265400,Shandong,China

Received date: 2016-06-30

  Revised date: 2016-07-18

  Online published: 2016-11-17

Abstract

 According to the gold concentrate of a cyanide plant,in order to further enhance the rate of cyanide leaching,the minitype,semi-industrial and industrial experimental study were conducted under atmospheric oxygen enriched leaching technology in this study.The results of minitype test showed that the rich oxygen leaching process can increase the leaching rate by 0.3%,and the semi-industrial test displayed that the gold leaching rate was obviously higher than that obtained by the air leaching.In addition,industrial test results during three months demonstrated that the oxygen rich leaching can improve the leaching speed compared to the technique of air leaching,and significantly increase the leaching rate by 0.18%.With the oxygen rich leaching,the silver grade in leach residues can be even low to 5×10-6~6×10-6,and it increased economic benefits by 4.9 million yuan per year.Hence,the research results in the present work provide reference for application in the gold enterprises,and will promote the development of the cyanide leaching technology in the future.

Cite this article

YANG Junyan , GUO Hongzhu , CHEN Ping , XU Zhongmin . Application of Atmospheric Oxygen Enriched Leaching in Gold Cyanide Production[J]. Gold Science and Technology, 2016 , 24(4) : 160 -163 . DOI: 10.11872/j.issn.1005-2518.2016.04.160

References

[1] 王丽莉.富氧炭浸提金工艺在哈德门金矿的应用[J].矿冶,1998,7(3):51-53.
[2] 孙安博,柳小勇.四方金矿富氧浸出的试验研究[J].金属矿山,2005,29(3):42-45.
[3] 钟平,黄振泉.富氧浸出机理及其在氰化提金中的应用 [J].有色金属科学与工程,1996,17(6):50-56.
[4] 张德良,刘永国,唐乐,等.GOLDOX湿法冶金工艺提高金回收率的试验研究[J].黄金科学技术,2014,22(6):82-86.
[5] 邱显扬,杨永斌.氰化提金工艺的新进展[J].矿冶工程,1999,19(3):7-9.
[6] 刘慧.两段焙烧工艺有望突破黄金冶炼渣再利用瓶颈问题[J].矿产保护与利用,2016,24(1):40-41.
[7] 吴振祥,罗中兴.富氧氰化浸出提金工艺的应用[J].有色金属(选矿部分),1997,18(3):7-12.

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