金属矿山
金屬礦山
금속광산
METAL MINE
2015年
7期
60-63
,共4页
赵开乐%王昌良%顾帼华%廖祥文
趙開樂%王昌良%顧幗華%廖祥文
조개악%왕창량%고귁화%료상문
铜镍混合精矿%脱药%磨矿%抑镍浮铜
銅鎳混閤精礦%脫藥%磨礦%抑鎳浮銅
동얼혼합정광%탈약%마광%억얼부동
Cu-Ni mixed concentrate%Reagent removal%Grinding%Copper flotation and nickel depression
攀西某铜镍矿选矿厂的铜镍混合精矿铜、镍品位分别为3.60%和7.91%,铜镍主要以硫化物形式存在,铜镍矿物嵌布关系密切、嵌布粒度微细,浮选分离难度较大。为高效分离该铜镍混合精矿,在再磨、脱药的基础上进行了抑镍浮铜试验。结果表明,试样加活性炭和硫化钠磨矿后(磨矿细度为-0.026 mm占76%)浓缩脱药,采用1粗3精2扫、中矿顺序返回流程处理,可获得铜品位为28.88%、含镍0.78%、铜回收率为84.55%的铜精矿和镍品位为8.75%、含铜0.62%、镍回收率为98.96%的镍精矿,较好地实现了铜镍混合精矿的分离。
攀西某銅鎳礦選礦廠的銅鎳混閤精礦銅、鎳品位分彆為3.60%和7.91%,銅鎳主要以硫化物形式存在,銅鎳礦物嵌佈關繫密切、嵌佈粒度微細,浮選分離難度較大。為高效分離該銅鎳混閤精礦,在再磨、脫藥的基礎上進行瞭抑鎳浮銅試驗。結果錶明,試樣加活性炭和硫化鈉磨礦後(磨礦細度為-0.026 mm佔76%)濃縮脫藥,採用1粗3精2掃、中礦順序返迴流程處理,可穫得銅品位為28.88%、含鎳0.78%、銅迴收率為84.55%的銅精礦和鎳品位為8.75%、含銅0.62%、鎳迴收率為98.96%的鎳精礦,較好地實現瞭銅鎳混閤精礦的分離。
반서모동얼광선광엄적동얼혼합정광동、얼품위분별위3.60%화7.91%,동얼주요이류화물형식존재,동얼광물감포관계밀절、감포립도미세,부선분리난도교대。위고효분리해동얼혼합정광,재재마、탈약적기출상진행료억얼부동시험。결과표명,시양가활성탄화류화납마광후(마광세도위-0.026 mm점76%)농축탈약,채용1조3정2소、중광순서반회류정처리,가획득동품위위28.88%、함얼0.78%、동회수솔위84.55%적동정광화얼품위위8.75%、함동0.62%、얼회수솔위98.96%적얼정광,교호지실현료동얼혼합정광적분리。
A Cu-Ni mixed concentrate from Western Panzhihua contains 3. 60% Cu,7. 91% Ni. Copper and nickel mainly exist in form of sulfide minerals. Copper and nickel are micro-fine disseminated and closely associated with each other, thus difficult to be separated by flotation. In order to improve the flotation separation efficiency,experiments on copper flotation and nickel depression were carried out after being reground and reagent removal. The results indicated that:after grinding the ore (at grinding fineness of -0. 026 mm passing 76%) with active carbon and sodium sulfide and removing the reagents, through the process of one roughing,three cleaning,two scavenging and middles back to the flow-sheet in turn,copper concen-trate with 28. 88% Cu,0. 78% Ni and copper recovery of 84. 55%,nickel concentrate with 8. 75% Ni,0. 62% Cu and nickel recovery of 98. 96% were obtained respectively. In conclusion,good separation of Cu-Ni mixed concentrate was obtained.
