黄金
黃金
황금
Gold
2015年
11期
67-70
,共4页
硫酸烧渣%硫精矿除杂提纯浮选%铁%综合利用
硫痠燒渣%硫精礦除雜提純浮選%鐵%綜閤利用
류산소사%류정광제잡제순부선%철%종합이용
pyrite cinder%flotation to remove impurities in sulfide concentrate%iron%comprehensive utilization
硫酸烧渣是硫铁矿制酸氧化焙烧产物;从硫酸烧渣中选铁的工艺技术指标一直不高,其主要原因是硫铁矿氧化焙烧过程中生成的氧化铁矿物颗粒微细,高温时新生成的氧化铁矿物颗粒会与杂质和脉石矿物颗粒相互包裹、相互黏结、相互污染. 该文将硫酸烧渣选铁改为硫精矿再浮选提纯硫化铁,即通过提纯硫酸原料中硫化铁的质量分数,从而去除原料中的脉石和杂质,使硫酸原料中硫品位达到50 % ~52 %(黄铁矿型原料)以上,硫、铁回收率均达到90 % ~92 %;采用该高纯硫精矿制造硫酸,硫酸烧渣中铁品位达到63 % ~67 %,使硫酸烧渣全部直接成为铁精矿,无需再选矿,达到了有效利用硫酸烧渣中铁的目的. 该工艺能够获得较高技术指标的原因是硫精矿除杂提纯浮选是硫化矿选硫,采用高纯硫精矿制酸,避免了非目的矿物污染硫化铁的氧化焙烧过程以及硫酸烧渣选铁时杂质含量高、铁品位低、选矿技术指标低等问题.
硫痠燒渣是硫鐵礦製痠氧化焙燒產物;從硫痠燒渣中選鐵的工藝技術指標一直不高,其主要原因是硫鐵礦氧化焙燒過程中生成的氧化鐵礦物顆粒微細,高溫時新生成的氧化鐵礦物顆粒會與雜質和脈石礦物顆粒相互包裹、相互黏結、相互汙染. 該文將硫痠燒渣選鐵改為硫精礦再浮選提純硫化鐵,即通過提純硫痠原料中硫化鐵的質量分數,從而去除原料中的脈石和雜質,使硫痠原料中硫品位達到50 % ~52 %(黃鐵礦型原料)以上,硫、鐵迴收率均達到90 % ~92 %;採用該高純硫精礦製造硫痠,硫痠燒渣中鐵品位達到63 % ~67 %,使硫痠燒渣全部直接成為鐵精礦,無需再選礦,達到瞭有效利用硫痠燒渣中鐵的目的. 該工藝能夠穫得較高技術指標的原因是硫精礦除雜提純浮選是硫化礦選硫,採用高純硫精礦製痠,避免瞭非目的礦物汙染硫化鐵的氧化焙燒過程以及硫痠燒渣選鐵時雜質含量高、鐵品位低、選礦技術指標低等問題.
류산소사시류철광제산양화배소산물;종류산소사중선철적공예기술지표일직불고,기주요원인시류철광양화배소과정중생성적양화철광물과립미세,고온시신생성적양화철광물과립회여잡질화맥석광물과립상호포과、상호점결、상호오염. 해문장류산소사선철개위류정광재부선제순류화철,즉통과제순류산원료중류화철적질량분수,종이거제원료중적맥석화잡질,사류산원료중류품위체도50 % ~52 %(황철광형원료)이상,류、철회수솔균체도90 % ~92 %;채용해고순류정광제조류산,류산소사중철품위체도63 % ~67 %,사류산소사전부직접성위철정광,무수재선광,체도료유효이용류산소사중철적목적. 해공예능구획득교고기술지표적원인시류정광제잡제순부선시류화광선류,채용고순류정광제산,피면료비목적광물오염류화철적양화배소과정이급류산소사선철시잡질함량고、철품위저、선광기술지표저등문제.
Pyrite cinder is the product of oxidizing roasting of pyrite ores. The technical index in iron recovery from pyrite cinder keeps low. The main reason for it is that fine ferric oxide particles produced in the oxidizing roasting process of pyrite ores will in high temperature interact with impurities and gangue minerals including mutual inclu-ding,sticking and polluting. The paper modifies conventional process of iron recovery from pyrite cinder,and turns to a sulfide concentrates flotation process to concentrate ferric sulfide,that is to increase the mass fraction of ferric sulfide in raw materials of pyrites,so that gangue minerals and impurities are removed from the raw materials,reaching a sul-fur grade over 50 % to 52 % and sulfur and iron grade of 90 % to 92 %. The high grade sulfur concentrates are used to made sulfuric acid. The iron in pyrite cinder reaches 63 % to 67 % making the entire cinder directly become iron concentrates without the need of further beneficiation,which is an effective way to utilize the iron in the cinder. The reason for higher technical index lies in the choice of sulfur flotation for impurity removal. High grade sulfur concen-trates making sulfuric acid avoids unwanted minerals hindering the oxidizing roasting of ferric sulfide and high content of impurities,low iron grade and low ore-dressing technical index in the process of iron recovery from pyrite cinder.