Process Mineralogy of a Gold multi-metal Ore in Beiya, Yunna

机译：云南北亚金多金属矿石的过程矿物学

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Based on the chemical analysis data, Beiya Gold multi-metal Ore contains Au 2.17 g/t, Ag 59.36 g/t, Fe 38.51%, Cu 0.57%, Pb 2.00%, and Zn 0.48%. Chemical phase analysis shows that 95.72% Au exists as nature gold; 67.22% Fe exists as limonite and hematite, and only 23.65% exists as magnetite; 26.41% Cu exists as malachite and only 12.14% exists as sulfide minerals such as chalcopyrite and covellite; in the same way only 3.98% Pb exists as galena and 26.09% Zn exists as sphalerite. So the Systemic process mineralogy study is very necessary to guarantee separating these valuable elements from the ore reasonably and economically. Based on the process mineralogy research, reasonable technology flowsheet is worked out: the ore is ground to 90% under 0.074mm, leaching Au firstly, then enriching Fe by low-intensity and high-magnetic separation. The Cu, Ag, Pb and Zn in the ore are unavailable now.

机译：基于化学分析数据，Beiya金多金属矿石含有Au 2.17g / t，Ag 59.36g / t，Fe 38.51％，Cu 0.57％，Pb 2.00％，Zn 0.48％。化学相分析表明，95.72％的Au作为自然金; 67.22％的Fe作为褐铁矿和赤铁矿，只有23.65％作为磁铁矿; 26.41％的Cu存在作为孔雀石，只有12.14％作为硫化物矿物，如硫代吡啶和木氟锭;以同样的方式，只有3.98％的Pb作为加勒纳，26.09％的Zn作为闪锌矿。因此，系统过程矿物学研究非常有必要确保合理且经济地将这些有价值的元素与矿石分开。基于该过程矿物学研究，合理的技术流程进行了制定：矿石以0.074毫米的90％，首先浸出AU，然后通过低强度和高磁性分离富集Fe。矿石中的Cu，Ag，Pb和Zn现在不可用。

著录项

来源
《International Conference of Environmental Science and Engineering》|2013年||共8页
会议地点
作者
Wang Ling; Luo Kaihua; Li Zhengyao;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类环境保护政策及其阐述;
关键词
mui-metal ore; process mineralogy; technology flowsheet;

机译：Mu Ti-Metal Ore;过程矿物学;技术流程;
入库时间 2022-08-21 07:02:05

相似文献

外文文献
中文文献
专利

1. Mineralogy and mineral chemistry of Bi-minerals: Constraints on ore genesis of the Beiya giant porphyry-skarn gold deposit, southwestern China [J] . Zhou Haoyang, Sun Xiaoming, Fu Yu, Ore Geology Reviews: Journal for Comprehensive Studies of Ore Genesis and Ore Exploration . 2016,第Null期

机译：双矿物的矿物学和矿物化学：中国西南地区北亚大型斑岩-矽卡岩型金矿的成因约束
2. Mineralogy and mineral chemistry of Bi-minerals: Constraints on ore genesis of the Beiya giant porphyry-skarn gold deposit, southwestern China [J] . Zhou Haoyang, Sun Xiaoming, Fu Yu, Ore Geology Reviews: Journal for Comprehensive Studies of Ore Genesis and Ore Exploration . 2016,第Null期

机译：双矿物质的矿物学和矿物化学：北美西南北部巨型斑岩矽卡岩金矿床的约束
3. Trace element geochemistry of magnetite from the giant Beiya gold-polymetallic deposit in Yunnan Province, Southwest China and its implications for the ore forming processes [J] . Xiaoming Sun, Hai Lin, Yu Fu, Ore Geology Reviews: Journal for Comprehensive Studies of Ore Genesis and Ore Exploration . 2017,第期

机译：云南省云南省巨型北美金 - 多金属矿床的磁铁矿痕量地球化学及其对矿石成矿过程的影响
4. Process Mineralogy of a Gold multi-metal Ore in Beiya, Yunna [C] . Wang Ling, Luo Kaihua, Li Zhengyao International Conference of Environmental Science and Engineering . 2013

机译：云南北亚金多金属矿石的过程矿物学
5. Issues affecting heap biooxidation of low-grade refractory gold ore: Formation of secondary sulfates, ore lithology, alteration and sulfide mineralogy at Gold Quarry, Carlin, Nevada. [D] . Sherlock, Wes K. 2010

机译：影响低品位难处理金矿石堆生物氧化的问题：在内华达州卡林市金矿场的二次硫酸盐的形成，矿石岩性，蚀变和硫化物矿物学。
6. Prevalence and Risk Factors of Elevated Blood Lead in Children in Gold Ore Processing Communities Zamfara Nigeria 2012 [O] . John A. Kaufman, Mary Jean Brown, Nasir T. Umar-Tsafe, 2016

机译：2012年尼日利亚赞法拉州金矿加工社区儿童血铅升高的患病率和危险因素
7. Process Mineralogy of a Gold multi-metal Ore in Beiya, Yunna [O] . Ling Wang, Kaihua Luo, Zhengyao Li 2012

机译：云南省贝雅金多金属矿的工艺矿物学

Process Mineralogy of a Gold multi-metal Ore in Beiya, Yunna

摘要

著录项

相似文献

相关主题

期刊订阅