广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2014年
5期
90-92
,共3页
尾矿%焙烧%磁选%镓的回收
尾礦%焙燒%磁選%鎵的迴收
미광%배소%자선%가적회수
tailings%roasting%magnetic separation%recovery of gallium
浮选后获得的尾矿经焙烧、磁选除去大部分铁、硫等杂质后进行镓的回收,经流程处理后的矿样成份比较单一固定,对原采用的镓的分析方法,分析方法比较繁琐耗时不宜采用,固在原有方法的基础上进行了一定的改进,改进后的分析方法经试验证明方法简便快捷、可靠、可行。
浮選後穫得的尾礦經焙燒、磁選除去大部分鐵、硫等雜質後進行鎵的迴收,經流程處理後的礦樣成份比較單一固定,對原採用的鎵的分析方法,分析方法比較繁瑣耗時不宜採用,固在原有方法的基礎上進行瞭一定的改進,改進後的分析方法經試驗證明方法簡便快捷、可靠、可行。
부선후획득적미광경배소、자선제거대부분철、류등잡질후진행가적회수,경류정처리후적광양성빈비교단일고정,대원채용적가적분석방법,분석방법비교번쇄모시불의채용,고재원유방법적기출상진행료일정적개진,개진후적분석방법경시험증명방법간편쾌첩、가고、가행。
Flotation tailings obtained after roasting , magnetic separation to remove most of the iron impurities such as sulfur recovery, after gallium, the sample composition process after the comparison analysis method of single fixed , originally used gallium , analysis method was cumbersome and time consuming was not used , the foundation of solid on the original method was improved , and the improved analysis method was proved to be simple , reliable, and feasible.
