The Process Mineralogy Study of a Gold-silver Anode Slime Mineral
-
摘要:
采用XRF、XRD、粒度仪分析、扫描电镜分析等分析方法对某富含金银阳极泥矿的成分、粒度、物相等进行了研究。结果表明:此阳极泥矿粒度细、结构复杂,富含金、银,总含量达到10.42%,主要有色金属为铜、铅,含量分别为17.26%、13.28%;阳极泥矿中金主要以金银合金的形式存在,少部分包裹在硒化铜及硫酸铅中并伴随少量的银、锑等元素;银主要以硒化银、硒酸化银、铜银硒、金银合金及包裹在硫酸铜或者硫酸铅中形成共生化合物等形式存在;铜主要以硫酸铜化合物形式存在,硫酸铜是阳极泥矿的基底,并附存大量的其它杂质元素;铅主要以硫酸铅、硫酸铅钡、砷酸锑铅并伴有锑、金、银、砷等元素的形式存在。除此之外,阳极泥矿中还含有硫酸钡、硫酸锑等化合物。通过分析此阳极泥矿中金、银元素及主要杂质元素铜、铅的成分与赋存状态,为制定高效提取金、银的工艺流程奠定了基础。
Abstract:In order to the analysis of the phase of high gold-silver anode slime, the thesis does the research by the way of XRF, XRD, particle size analysis, scanning electron microscope analysis and so on. The research shows that anode slime has particle size and complex structure, which is rich in noble metals such as gold and silver, with a content of 10.42%. The main impurity metals are copper and lead, and their content are 17.26% and 13.28% respectively. The main phases of the gold include gold silver alloy and gold wrapped in copper selenide and lead sulfate with a small amount of silver and antimony. The main phases of silver include silver selenide, gold-silver selenide, copper-silver selenide, gold silver alloy, and silver wrapped in copper sulfate, lead sulfate. The main phases of copper exist in the form of copper sulphate. Copper sulfate is the base of anode slime with a large number of other impurity elements. The main phases of lead are mainly composed of lead sulphate, lead sulfate, and lead antimony arsenate with wrapped antimony, gold, silver, arsenic and so on. In addition, the anode slime also contains barium sulfate and antimony sulphate. This article analyses the composition and occurrence state of gold, Ag and main impurities of copper and lead in the anode slime in detail, which laid a foundation for the efficiency extraction of gold-silver process.
-
Key words:
- copper anode /
- noble metal /
- process mineralogy /
- occurrence state
-
-
表 1 阳极泥矿的X射线荧光光谱分析 /%
Table 1. XRF analysis results of the anode slime
元素 Cu Pb Ag S As Ba Sb Se C Cl Ni Si Te Au Co Zn 含量 22.3 19.4 13.1 10.2 5.3 4.2 4.2 4.2 4.1 3.2 2.1 1.6 1.3 0.4 0.4 0.2 
下载: 导出CSV
表 2 主要元素的定量分析 /%
Table 2. Quantitative analysis of the main elements
元素 Au Ag Pb Cu Ba As Se 含量 0.30 10.12 13.68 17.26 3.31 3.40 2.98
下载: 导出CSV
表 3 含银主要化合物元素含量 /%
Table 3. The content of the main elements in silver compound
化合物 Ag Pb Cu Se Ag2Se/ AgSeO4 76.87/65.31/83.37 / / 19.79/20.90/16.63 Cu(Ag)Se 66.67/67.09/65.82 / 12.82/10.04/9.39 21.67/17.78/18.61 MIN 65.31 / 10.04 16.63 MAX 83.37 / 12.82 21.67 Pb(Ag)(Cu)SO4 16.02/10.30/11.41 35.96/62.09/45.45 9.83/5.14/18.82 / Cu(Ag)(Se)(Te)SO4 15.31/10.44/10.28 / 10.08/12.84/9.39 8.36/9.29/8.71 Cu(Ag)(Se)(As)SO4 10.16/10.41/14.32 / 20.04/15.47/16.13 9.21/10.01/8.44 MIN 10.16 35.96 9.39 8.36 MAX 16.02 62.09 20.04 10.01
下载: 导出CSV
表 4 含金主要化合物元素含量 /%
Table 4. The content of the main elements in gold compound
化合物 Au Ag Cu Pb Au-Ag 75.36/78.82/74.28 21.64/21.18/25.72 / / Cu(Au)(Ag)Se 13.03/15.49/22.34 65.31/60.21/53.22 9.39/10.72/11.01 / Pb(Au)(Ag)(Sb)SO4 27.60/24.32/28.01 26.03/28.21/28.30 / 16.04/14.33/10.32 MIN 13.03 21.18 9.39 10.32 MAX 78.82 65.31 11.01 16.04
下载: 导出CSV
表 5 含铅主要化合物元素含量 /%
Table 5. The content of the main elements in lead compound
化合物 Ag Pb Cu Sb Ba PbSO4 / 74.53/65.42/70.39 / / / Pb(Sb)(As)SO4 / 31.32/54.13/55.51 / 30.45/17.63/23.34 / Pb(Ba)SO4 / 49.10/14.51/22.48 / / 16.91/48.6/9.92 Pb(Ag)(Cu)SO4 16.02/10.30/11.41 35.96/62.09/45.45 9.83/5.14/18.82 / / Pb(Au)(Ag)(Sb)SO4 26.03/28.21/28.30 16.04/14.33/10.32 / / / MIN 10.30 10.32 5.14 17.63 9.92 MAX 28.30 74.53 18.82 23.34 48.60
下载: 导出CSV
表 6 含铜主要化合物元素含量 /%
Table 6. The content of the main elements in copper compound
化合物 Ag Pb Cu Se Cu (Ag)Se 66.67/67.09/65.82 / 12.82/10.04/9.39 21.67/17.78/18.61 Pb(Ag)(Cu)SO4 16.02/10.30/11.41 35.96/62.09/45.45 9.83/5.14/18.82 / Cu(Ag)(Se)(Te)SO4 15.31/10.44/10.28 / 10.08/12.84/9.39 8.36/9.29/8.71 Cu(Ag)(Se)(As)SO4 10.16/10.41/14.32 / 20.04/15.47/16.13 9.21/10.01/8.44 Cu(Pb) SO4 / 67.78/63.62/62.55 5.26/10.17/11.34 / MIN 10.16 35.96 5.14 8.36 MAX 67.09 67.78 20.04 21.67
下载: 导出CSV
表 7 阳极泥矿中主要元素的赋存形式
Table 7. The occurrence of the main elements in the anode slime
元素 化合物 Au、Ag Au-Ag、Ag2Se、Cu (Ag)Se、AgSeO4、Cu(Ag)(Se)(Te)SO4、Cu(Ag)(Se)(As)SO4、Cu(Ag)(Se)(Ba)SO4、Cu(Ag)(Se)(Sb)SO4 Pb Pb(Ba)SO4、Pb(Ag)(Se)SO4、Pb(Sb)(As)SO4、PbSO4、PbSbO4、Pb(Au)(Ag)(Sb)SO4 Cu CuAsO4、Cu(Ag)(Se)(Te)SO4、Cu(Ag)(Se)(As)SO4、Cu(Ag)(Se)(Ba)SO4、Cu(Ag)(Se)(Sb)SO4 Se Au-Ag-Se、Au(Cu)(Ag)Se、Ag-Cu-Se、AgSeO4、Cu(Ag)(Se)(Te)SO4、Pb(Ag)(Se)SO4 As CuAsO4、Pb(Sb)(As)SO4、Cu(Ag)(Se)(Sb)SO4 Sb Pb(Au)(Ag)(Sb)SO4、Pb(Sb)(As)SO4 Ba BaSO4、Cu(Ag)(Se)(Ba)SO4
下载: 导出CSV
-
[1] 朱祖泽, 贺家齐.现代铜冶金学[M].北京:科学出版社, 2003:1-10.
[2] 谢文仕, 李忠生.铜冶金行业技术现状与发展策略探讨[J].有色矿冶, 2007, 23(6):60-70. http://d.old.wanfangdata.com.cn/Periodical/ysky200706021
[3] WANG X W, CHEN Q Y, YIN Z L, et al. Identification of arsenato antimonates in copper anode slimes[J]. Hydrometallurgy, 2006, 84:200-250.
[4] 王吉坤, 张博亚.铜阳极泥现代综合利用技术[M].北京:冶金工业出版社, 2008:8-14.
[5] GU Z H, CHEN J, FAHIDY T Z. A study of anodic slime behaviour in the electrorefining of copper[J]. Hydrometallurgy, 1995, 37:150-158.
[6] 郭军.铜阳极泥浮选工艺富集金银的研究[D].沈阳: 东北大学, 2014.
[7] M. Mohan, Raj. A.Dharmaraja, K.Panchantheswaran. Extraction of fission Palladium(Ⅱ) from nitric acid by BMTPP[J]. Hydrometallury, 2006, 84:100-115.
[8] 郑雅杰, 汪蓓.铜阳极泥预处理富集金银的研究[J].中南大学学报(自然科学版), 2010, 41(3):700-754. http://d.old.wanfangdata.com.cn/Periodical/zngydxxb201003010
[9] 郭军, 邱伟明, 陈锋, 等.铅阳极泥精选工艺研究[J].有色金属(选矿部分), 2017(3):49-54. doi: 10.3969/j.issn.1671-9492.2017.03.011
[10] 都安治.伴生金的工艺矿物学研究方法[J].矿物学报, 2001, 21(3):33-55. http://d.old.wanfangdata.com.cn/Periodical/kwxb200103061
[11] 杨洪英, 杨立, 佟琳琳, 等.广西金牙难浸金矿的工艺矿物学研究[J].东北大学学报(自然科学版), 2007, 28(8):1100-1210. http://d.old.wanfangdata.com.cn/Periodical/dbdxxb200708023
[12] 周乐光.工艺矿物学[M].北京:冶金工艺出版社, 1990:2-28.
-
图(8)
表(7)
计量
- 文章访问数: 1426
- PDF下载数: 55
- 施引文献: 0