摘要
峨口铁矿选矿厂采用阶段磨矿—弱磁选—细筛分级—淘洗磁选工艺流程,生产的铁精矿铁品位可达66%以上,但SiO2含量较高,在7%左右。为了使峨口铁矿选矿厂最终铁精矿的SiO2含量降到5%以下,以该厂淘洗磁选机的给矿为对象进行了提铁降硅选矿试验。试验结果表明:先采用氢氧化钠、玉米淀粉、石灰和中钢集团马鞍山矿山研究院有限公司研制的捕收剂MD对试样进行1粗1精3扫反浮选,再将反浮选尾矿再磨至-0.038 5 mm占82.60%后进行1粗1精弱磁选,最终可以获得铁品位为69.58%、铁回收率为97.05%、SiO2含量为4.23%的综合铁精矿,铁精矿SiO2含量达到预期目标。
Through the process of stage grinding-low intensity magnetic separation-fine screen classification-elutriation magnetic separation was used by Ekou Iron Plant, Fe grade of iron concentrate reached above 66%, while the SiO2 content is high, at about 7%. In order to decrease the SiOz content at final iron concentrate to be below 5%, experiments of iron increase and silicon reduction were conducted using feed of elutriation magnetic separator as the sample. The results showed that mixed iron concentrate with 69.58% of iron,4.23% of SiOz ,iron recovery of 97.05% was received through the inverse flotation process of one roughing, one cleaning, three scavenging, and then one roughing, one cleaning of low intensity magnetic separa- tion for reverse flotation tailings after regrinding to 82.60% 0. 038 5 mm, using collector MD, developed by Sinosteel Maanshan Institute of Mining Research Co. , Ltd. , sodium hydroxide, corn starch, and lime as reagents. By this method, SiO2 content in iron concentrate can reach the expected target.
出处
《金属矿山》
CAS
北大核心
2014年第4期78-81,共4页
Metal Mine
基金
"十二五"国家科技支撑计划项目(编号:2012BAB14B00)
关键词
铁精矿
提铁降硅
反浮选
再磨
弱磁选
Iron concentrate, Iron increase and silicon reduction, Reverse flotation, Regfinding, Low intensity magnetic separation