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Gold Science and Technology ›› 2017, Vol. 25 ›› Issue (6): 114-120.doi: 10.11872/j.issn.1005-2518.2017.06.114

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Performance of an Environmental Gold Leaching Agent and Activated Carbon Adsorption Characteristics of Gold in the Liquid

DANG Xiao’e1,WANG Lu1,MENG Yusong1,SONG Yonghui1,Lü Chaofei2   

  1. 1.Key Laboratory for Gold and Resources of Shaanxi,Xi’an University of Architecture and Technology,Xi’an   710055,Shaanxi,China;
    2.Tongguan Gold Corporation Co.,Ltd.,Weinan    730050,Shaanxi,China
  • Received:2017-08-12 Revised:2017-09-14 Online:2017-12-30 Published:2018-05-18

Abstract:

In order to make an environmental agents completely replacing highly toxic sodium cyanide for gold smelting and solve the problem of the environmental pollution of cyanide waste water and waste residue during the process of extracting gold with cyanide,the adaptability of an environmental agent to different gold types and the adsorption selectivity of activated carbon to gold in the liquid of the environmental agent have been studied.The results show that the effect of the environmental agent on leaching gold from acid leaching residue and high sulphur gold ore is equivalent to that of cyanide,and the leaching rate of vulcanization gold ore is faster than the cyanide,and the amount of environmental agent and mineral type are related to the leaching process.The adsorption of gold and silver in the leaching precious liquid of environmental agent by activated carbon is selective,the pH value of the liquid should be kept at 10.0 to 10.5 to get better adsorption results.Due to the analysis method is not perfect,it is impossible to reveal the relationship between the consumption of agent during leaching process and the mineral types,and the change of concentration and composition before and after the adsorption of activated carbon can not be detected.Based on the study of pharmaceutical analysis method,the main task of current research is to reveal the gold dissolution mechanism of environmental agents and the interaction between the environmental protection agents and minerals.

Key words:  cyanide pollution, environmental agent, adaptability, activated carbon, adsorption selectivity, analysis method, gold dissolution mechanism

CLC Number: 

  • TF831

[1] Jiang Tao,Wang Guangliang.Beginning and end of the cyanide catastrophic pollution accident in Shanghang of Fujian on 10.24[J].Chemical Labor Protection,2000,21(12):441-442.[蒋涛,王广亮. 10.24福建上杭氰化物特大污染事故始末[J].化工劳动保护,2000, 21(12):441-442.]
[2] Mu Yi.The pollution event of gold ore romania[J].Environment,2006(4):100-101.[木易.罗马尼亚金矿氰化物污染事件[J].环境,2006(4):100-101.]
[3] Li Shehong,Zheng Baoshan,Wang Mingshi,et al.Environmental geochemical behavior of cyanide in gold mine waste[J].Mineral,Rock,Geochemistry Bulletin,2006 25(S1):109-110. [李社红,郑宝山,王明仕,等 .金矿废弃物中氰化物的环境地球化学行为[J].矿物岩石地球化学通报,2006,25(增1 ):109-110.]
[4] The Cyanide Pollution is Serious in Tianjin Explosion Warning Area.http://news.sina.com.cn/c/2015-08-20/doc-ifxhehqr 6112618.shtml][天津爆炸警戒区氰化物污染严重 海域死鱼原因待查.http://news.sina.com.cn/c/2015-08-20/doc-ifxh- ehqr6112618.shtml]
[5] Chen Fangfang,Zhang Yifei,Xue Guang.Tatus and development of production technology of gold smelting[J].Precious Metals,2011(1):11-18.[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.]
[6] Qu Shengli,Dong Zhunqin,Chen Tao.Study on gold collection in matte with oxygen enriched bottom blowing smelting process[J].Non-ferrous Metal (Smelting ),2013(6):40-44.[曲胜利,董准勤,陈涛.富氧底吹造锍捕金工艺研究[J].有色金属(冶炼部分),2013(6):40-44.]
[7] Northwest Mining Network.http://www.lcmining.cn/article-464-1.html.[西北矿业网.http://www.lcmining.cn/article-464-1.html.]
[8]  Guangxi Senhe High and New Science and Technology Co.,Ltd.,http://www.gxshgk.com.[广西森合高新科技股份有限公司.http://www.gxshgk.com/]
[9]  Wu Yi.Experimental study and production practice of one environmental friendly reagent in whole-ore CIP process[J].Gold,2013,34(5):52-53.[吴弋.某环保型药剂在全泥炭浆提金工艺中的试验研究与生产实践[J].黄金,2013,34(5):52-53.]
[10] Lü Chaofei,Dang Xiao’e,Yun Yaxin,et al.Experimental research on the extraction of gold from the concentrates by environment-friendly Jinchan leaching agents[J].Gold,2014, 35(5):60-63.[吕超飞,党晓娥,贠亚新,等.环保型“金蝉”浸出剂处理金精矿的试验研究[J].黄金,2014,35(5): 60-63.]
[11] Lü Chaofei,Jia Jialin,Zhang Xingang,et al.Application of environment-friendly gold leaching reagent Sandioss processing a Shaanxi gold concentrate[J].Mining and Metallurgical Engineering,2015,35(1):92-96.[吕超飞,贾佳林,张新岗,等.环保型浸金药剂Sandioss在陕西某金精矿中的应用研究[J].矿业工程,2015,35(1):92-96.]
[12] Song Xiangyu,Li Cuifen,Li Ying,et al.Experimental study and application of a new gold leaching reagent[J].Gold,2014,35(4):62-65.[宋翔宇,李翠芬,李莹,等.一种新型浸金剂的应用试验研究[J].黄金,2014,35(4):62-65.]
[13] Qiu Haicheng,Wang Fuxiang,Li Guoqing, et al.Application of new nontoxic leaching gold reagents in a gold mine[J]. Private Science and Technology,2016(4):44-45.[邱海成,王福祥,李国青,等.新型无毒浸金药剂在某金矿的应用[J].民营科技,2016(4):44-45.]
[14] Guo Pengzhi,Qiu Sha,Wu Yipeng,et al. Experimental study on a gold ore in Laos with environment-friendly Jinchan leaching reagents[J].China Mining Magazine,2015,24(12):52-53.[郭鹏志,邱沙,吴艺鹏,等. 采用环保“金蝉”药剂浸出老挝某金矿石试验研究[J].中国矿业,2015,24(12):52-53.]
[15] Xia Wenqiang.Experimental study on the substitution of Jinchan[J].Technology Innovation and Application,2013(29):27.[夏文强.金蝉取代性试验研究[J].科技创新与应用,2013(29):27.]
[16] Jiao Ruiqi.Capacity expansion and optimization study and experimental exploration in Jinqu concentrator[J].China Mine Engineering,2015,44(4):52-56.[焦瑞琦.金渠选厂“扩能优化”研究及试验探索[J].中国矿山工程,2015,44(4):52-56.]

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