摘要
为解决刚果(金)某高碳酸盐氧化铜矿原矿浸出酸耗高、浮选工业指标较差的问题,根据碳酸盐脉石与氧化铜矿物浮选性能差异,采用开路硫化浮选的方法对氧化铜矿物进行选择性富集和对耗酸碳酸盐脉石进行预先抛尾,再使用搅拌酸浸处理浮选粗精矿。结果表明,使用Na HS(1 050 g/t)对矿浆进行硫化,以戊黄药、Z-200和羟肟酸钠按4∶1∶1配合后的组合捕收剂(650 g/t)进行4次开路浮选,得到了铜品位8.16%的粗精矿,回收率达到了94.75%,而耗酸脉石的抛除率则超过80%。对粗精矿在常温常压下进行搅拌浸出,控制浸出过程p H=1.5,搅拌强度200 r/min,浸出2 h,浸出率可达89.75%。采用开路浮选-搅拌浸出联合工艺处理该矿石,在保证总回收率85.04%的情况下,浸出酸耗比原矿酸浸降低80%,搅拌浸出处理量仅为原矿浸出的20%左右,取得了良好的技术经济指标。
To resolve problems,such as high acid consumption and poor flotation performance in processing a high carbonatite copper oxide ore from DRC Congo,an open-circuit of sulfidation-floatation was chosen to selectively enrich the copper oxide minerals and discard the acid-consuming carbonatite gangue according to their difference in floatability,with the obtained rough concentrate treated by agitation leaching.It is shown after NaHS(1 050 g/t)was used to sulfurize the pulp,amyl-xanthate,Z-200 and sodium benzohydroxamic mixed at a proportion of 4:1:1 was taken as the collector(650 g/t)in the floatation of copper oxide with a four-stage open-circuit flowsheet,a rough copper concentrate grading 8.16%Cu at 94.75%recovery was produced,with 8 0%of carbonatite discarded as tailings.An agitation leaching of the rough concentrate under normal pressure and at room temperature,with pH value controlled at 1.5 and agitation intensity of 200 r/m in,led to the leaching rate at 89.75%after 2-hour leaching.An open circuit with a combined process of floatation-agitation leaching was adopted to process such ore,under the premise of ensuring the total recovery at 85.04%,bringing the acid consumption down by 8 0%and the volume for agitation leaching down to around 2 0%of that for raw ore leaching,leading to good technological and economic indicators.
作者
段景文
王振堂
陈普
彭云奇
王宏亮
李路
DUAN Jing-wen;WANG Zhen-tang;CHEN Pu;PENG Yun-qi;WANG Hong-liang;LI Lu(Wanbao Mining Co Ltd,Beijing 100053,China)
出处
《矿冶工程》
CAS
CSCD
北大核心
2018年第4期69-72,79,共5页
Mining and Metallurgical Engineering
关键词
碳酸盐
氧化铜矿
硫化浮选
抛尾
酸浸
carbonatite
copper oxide ore
sulfidation-flotation
tailings discarding
acid leaching