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Gold Science and Technology ›› 2013, Vol. 21 ›› Issue (3): 91-94.

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Reducing the Gold Grade for Carbon Cyanide Slag with Carbon Inhibito

ZHANG Deliang,QU Hongjun,LIU Yongguo,LI Yaoguo,YIN Qing   

  1. Shandong Gold Mining (Xinhui) Co.,Ltd.,Pingdu   266715,Shandong,China
  • Received:2013-01-16 Revised:2013-03-05 Online:2013-06-28 Published:2013-11-19

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Abstract:

The nature of the ore in Xinhui gold mine is polymetallic sulfide ore which contains many useful elements such as gold,silver,copper,lead and zinc as well as a number of harmful elemental carbon.The content of carbon in ore and concentrate increases with mining depth.Because of the absorption of carbon on gold,higher carbon content of concentrate leads to a poorer leaching and washing effect, higher cyanide slag grade and lower cyaniding recovery rate.Since the beginning of 2011,we have been trying small experiments of adding carbon inhibitors in the leaching progresses in order to reduce the influence of carbon on cyanidation and to improve the recovery rate of gold.The results show that the recovery rate of gold can be improved by adding sodium carbonate in leaching progresses which can suppress the absorption of carbon on gold.The industrial test was carried out since June 2011 that sodium carbonate is added in the actual production of cyanide,and the result shows that cyanide slag grade during June 2011 and December 2011 is reduced by 0.26 g/t than that of 2010,which brings the company an extra economic gain of 1.55 million yuan per year.

Key words: carbonaceous gold ore, carbon inhibitors, sodium carbonate, cyanide slag grade

CLC Number: 

  • TF831

[1] 孙戬.金银冶金(第二版)[M].北京:冶金工业出版社,1998.
[2] 杨玮.复杂难处理金精矿提取及综合回收的基础研究与应用[D].长沙:中南大学,2011. 
[3] 方兆珩.碳质金矿的矿物特征和提金工艺[J].黄金科学技术,2003,11(6):28-35.
[4] 郭树林,姚香.我国岩金现代地下开采技术综述[J].金属矿山,2009,(增):155-161.
[5] 白复锌,王善功,张永林,等.山东鑫汇金矿厚度突变矿体采矿方法的选择与应用[J].黄金科学技术,2011,19(3):68-69. 
[6] 周乐光.工艺矿物学[M].北京:冶金工业出版社,1990:82-99.
[7] 薛光,于永江,李先恩.含砷碳金矿石全泥氰化浸金试验研究[J].黄金科学技术,2012,20(6):56-57.
[8] 王爱平.活性炭对溶液中重金属的吸附研究[D].昆明:昆明理工大学,2003.
[9]  姜言欣,黄祥,蒋文举.活性炭处理重金属废水的研究与应用进展[J].安徽农业科学,2012,40(7):4156-4158.
[10] 杨坤彬,彭金辉,郭胜惠,等.提金活性炭的研究现状及其展望[J].黄金,2007,28(1):46-50.
[11] 刘苏宁.难浸金矿提金工艺的实验研究[D].西安:西安建筑科技大学,2010.
[12] 崔毅琦,童雄,杨伟兴,等.云南某氧化金矿石氰化浸出渣对金和银氰络合物的吸附[J].有色金属,2006,58(2):64-66,70.
[13] 汤庆国,姜毅,谈建安,等.难浸碳质金矿中金的浸出研究[J].黄金科学技术,2003,11(5):23-27.
[14] 印万忠,李强.国内外金属矿山难选矿选冶新技术发展[C]//2008年全国金属矿山难选矿及低品位矿选矿新技术学术研讨与技术成果交流会论文集.马鞍山:金属矿山杂志社,2008:13-50.
[15] 张德良,郝建贞,李尧国,等.降低金精矿中碳质矿物对氰化生产影响的试验与研究[C]//2008年全国金属矿山难选矿及低品位矿选矿新技术学术研讨与技术成果交流会论文集.马鞍山:金属矿山杂志社,2008:221-223.
[16] 刘旭俐,武钢,童雄,等.铅盐在氰化浸金中的应用及作用机理研究现状[J].黄金,2002,23(12):29-31.
[17] 周一康,陆跃华.我国难处理金矿处理方法研究进展[C]//1997年中国有色金属学会第三届学术会议论文集.长沙:中南大学出版社,1997:219-222.
[18] 袁文生.提高含碳金矿石金回收率研究[J].新疆有色金属,2000,(1):15-17.
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