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Gold Science and Technology ›› 2012, Vol. 20 ›› Issue (6): 58-61.

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Experimental Study on Raising the Cyanide Leaching Efficiency of Gold by Acid Leaching

HE Ye1,BAI Pengcheng1,HUANG Guanyin1,ZHANG Xianjun1,CHEN Fangfang2,SUN Meifen2   

  1. 1.Hunan Central South Gold Smelting Co.,Ltd.,Pingjiang   414507,Hunan,China;
    2.Key Laboratory Green Process and Engineering,National Engineering Laboratory for Hydrometallurgical Cleaner Production Technology,Institute of Process and Engineering,Chinese Academy of Sciences,Beijing   100190,China
  • Received:2012-08-23 Revised:2012-11-04 Online:2012-12-28 Published:2013-06-21

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Abstract:

For high arsenic containing gold ore,two stage roasting technology for pretreatment in the research and production practice are usually used to obtain higher leaching rate of gold by removing arsenic and sulphur.The key technical problem should be resolved urgently in the research and production is how to adopt low-cost pretreatment method to further reducing the rate of gold in tailing.The research on raising the cyanide leaching efficiency of gold by acid leaching was carried out on the basis of chemical analysis,mineral composition analysis and the gold occurrence state analysis of the second segment calcine.The effects of experimental conditions,such as the grinding size, the volume of concentrated sulfuric acid,leaching temperature and leaching time were investigated.After being milled for 1 hour,the second segment calcine was leached at 95 ℃ for 2.5 hours by using concentrated sulfuric acid dosage 2 tons per ton(to second segment calcine),and the cyanide leaching efficiency 97.86% of gold was achieved.

Key words: Acid leaching, Cyaniding, Leaching efficiency, Refractory gold ore

CLC Number: 

  • TF83/TD953

[1] 杨剧文,王二军.黄金选冶技术进展[J].矿产保护与利用,2007,(4):34-38.
[2] 崔永霞,沈艳.难处理金矿石提炼技术研究进展[J].黄金科学技术,2007,15(3):53-57.
[3] 康增奎.我国难处理金矿资源开发的现状与问题研究[J].资源与产业,2009,(6):59-63.
[4] 柯家骏.难浸金矿氰化提金的现状与问题[J].黄金科学技术,1998,6(1):32-39.
[5] 李俊萌.难处理金矿石预处理方法研究现状及其发展趋势[J].稀有金属,2003,27(4):478-481,490.
[6] 方兆珩,夏光祥.高砷难处理金矿的提金工艺研究[J].黄金科学技术,2004,12(2):35-40.
[7] 张永柱,裘荣庆.含砷难处理金矿的细菌预氧化—氰化法提金研究[J].中国有色金属学报,1994,4(2):17-21.
[8] Ehrlich H L.Past,Present and Future of Biohydrometallurgy [J].Hydrometallurgy, 2001,59(2-3):127-134.
[9] 张春宝,魏德洲.国内外难处理金矿资源的开发利用[J].国外金属矿选矿,1996,33(3):3-5.
[10] 拜鹏程,何烨,陈芳芳,等.磨矿细度和二浸二洗对氰化浸出率影响的试验研究[J].黄金科学技术,2012,20(5):71-73.
[11] 王婷,熊玉宝,刘洪敏,等.砷硫铅质金矿中金的氰化试验研究[J].黄金科学技术,2007,15(5):50-53. 
[12] 黄金生产工艺指南编委会.黄金生产工艺指南[M].北京:地质出版社,2000.
[13] 陈芳芳,张亦飞,薛光.黄金冶炼生产工艺现状及发展[J].中国有色冶金,2011,(1):11-18.
[14] 徐洁书.两段焙烧技术处理高砷硫金精矿探讨[J].硫酸工业,2009,(3):40-41.
[15] 伍赠玲.高砷难处理金精矿焙烧—氰化浸出工艺研究[J].矿产综合利用,2006,(6):16-18.
[16] 申开榜.谈谈两段焙烧法预处理高硫砷难浸金精矿[J].云南化工,2007,34(5):26-29.
[17] 武钢.优化山东新城金矿浮选金精矿氰化浸出的试验与机理研究[D].昆明:昆明理工大学,2002.
[18] 夏光祥,杨寒林,涂桃枝,等.自含砷合碳难处理金矿中提取金的研究─Ⅰ.氨水脱砷—石灰加压氧化—氰化 [J].化工冶金,1995,16(3):223-228.
[19] 常耀超,刘大学,王云,等.含砷、锑难处理金精矿提金工艺研究[J].有色金属(冶炼部分),2011,(10):31-33.
[20] 薛光,王永新,薛元昕.提高含砷金精矿二段焙烧—氰化工艺金浸出率的试验研究[J].黄金,2011,32(6):48-49.
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