摘要
对秘鲁某含Cu 0.12%、Au 0.12 g/t、S 2.60%、Fe 45.52%的金铜铁多金属矿石进行了选矿工艺优化试验研究。该矿石原设计选矿工艺流程为铜硫混选—铜硫分离—混选尾矿磁选回收铁,存在铜硫分离难度大、石灰用量高和分选指标不理想等问题。针对原流程存在的问题,提出采用铜硫等可浮—铜硫分离—难选硫强化浮选—浮选尾矿磁选回收铁的优化工艺流程。铜硫等可浮分选时,在无碱条件下采用选择性的铜捕收剂BK306将铜和部分易浮黄铁矿等硫化矿物浮出,并进行铜硫分离回收铜、金;然后采用活化剂和强力捕收剂强化浮选脱除矿石中的难浮硫化物;最后通过磁选从浮选尾矿中回收铁。该优化工艺既可实现矿石中铜、金等有价金属的高效回收和硫的脱除,又能显著降低铜硫分离所需的石灰用量,并保证后续磁选作业直接获得含硫低、铁品质较好的铁精矿。闭路试验获得铜品位20.10%、金品位15.29 g/t、铜回收率68.42%、金回收率49.07%的铜精矿,硫品位30.78%、总硫回收率84.05%的硫精矿以及铁品位68.88%、含硫0.18%、铁回收率90.57%的铁精矿。与原工艺相比,优化工艺的铜精矿铜品位和铜回收率分别提高2.49和10.25个百分点,铜精矿中金品位和金回收率分别提高5.27 g/t和17.05个百分点,硫回收率提高1.78个百分点。实现了矿石中铜、金、硫、铁的高效综合回收。
The optimization test for the mineral processing process on Au-Cu-Fe polymetallic ore with Cu of 0.12%,Au of 0.12 g/t,S of 2.60%and Fe of 45.52%was studied.There are some problems such as difficulty in copper-sulfur separation,high lime consumption and unsatisfactory separation indexes that exist in the originally designed process of“copper and sulfur bulk flotation-copper and sulfur flotation separation-magnetic separation from the flotation tailings to recover iron”.Therefore,the optimization process of“iso-flotation of copper and sulfur-copper and sulfur flotation separation-strengthened flotation of sulfur-magnetic separation from the flotation tailings to recover iron”was proposed based on the problems existing in the original process.Firstly,the selective collector BK306 was adopted to collect copper sulfides and part of easy-floating pyrite from the alkali-free pulp with the iso-flotation process,and then separated them to recover copper and gold.Secondly,the refractory sulfides in the ore were removed by strengthened flotation using activator and strong collector.Finally,the iron was recovered by magnetic separation from the flotation tailings.This optimized process can not only realize the efficient recovery of copper,gold and other valuable metals in the ore and the removal of sulfur,but also significantly reduce the amount of lime required for copper-sulfur separation,and can directly obtain iron concentrate with low content sulfur and better quality in the followed magnetic separation operation.The results of the closed circuit test showed that a copper concentrate could be obtained with Cu grade of 20.10%,Au grade of 15.29 g/t,Cu recovery rate of 68.42%and Au recovery rate of 49.07%;a sulfur concentrate with S content of 30.78%and total sulfur recovery rate of 84.05%;and a iron concentrate with Fe grade of 68.88%,S content of 0.18%and Fe recovery rate of 90.57%.Compared with the originally designed process,the optimized process could increase the copper grade and copper recovery in copper con
作者
谭欣
肖巧斌
刘书杰
TAN Xin;XIAO Qiaobin;LIU Shujie(State Key Laboratory of Mineral Processing,BGRIMM Technology Group,Beijing 102628,China;School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China)
出处
《矿产保护与利用》
2020年第3期127-134,共8页
Conservation and Utilization of Mineral Resources
关键词
金铜铁多金属矿
无碱等可浮
铜硫分离
综合回收
BK306捕收剂
Au-Cu-Fe polymetallic ore
alkali-free iso-flotation
copper and sulfur flotation separation
comprehensive recovery
collector BK306
