金属矿山
金屬礦山
금속광산
METAL MINE
2015年
6期
65-69
,共5页
王儒%韩跃新%李艳军%张裕书%陈超
王儒%韓躍新%李豔軍%張裕書%陳超
왕유%한약신%리염군%장유서%진초
鲕状赤铁矿石%悬浮焙烧%XRD%磁选%磁性
鮞狀赤鐵礦石%懸浮焙燒%XRD%磁選%磁性
이상적철광석%현부배소%XRD%자선%자성
Oolitic hematite ore%Suspension roasting%XRD%Magnetic separation%Magnetic property
针对传统磁化焙烧装备及技术所存在的还原时间长、还原不均匀、能耗及生产成本高等问题,采用悬浮焙烧法处理湖北某鲕状赤铁矿石。结果表明,在给矿细度为-0.074 mm占80%、气体速度为1.4 m/s、H2浓度为40%、还原温度为650℃、焙烧时间为10 s 条件下,对铁品位为46.31%的鲕状赤铁矿石进行悬浮焙烧,焙烧产品磨细至-0.035 mm占90%后,在磁场强度为85 kA/m条件下磁选,可获得铁品位为58.32%、回收率为85.69%的铁精矿。对焙烧产品进行XRD分析表明,矿石中的赤铁矿经悬浮焙烧后转变为磁铁矿。对悬浮焙烧产品进行磁性分析表明,鲕状赤铁矿中弱磁性铁矿物经悬浮焙烧可快速转变为强磁性铁矿物,焙烧后物料的磁化强度和比磁化率显著提高。悬浮焙烧具有焙烧时间短、热利用效率高、处理能力大等优点,可在较短的时间内实现铁矿石的磁性转变,为难选铁矿石的利用开辟了新的途径。
針對傳統磁化焙燒裝備及技術所存在的還原時間長、還原不均勻、能耗及生產成本高等問題,採用懸浮焙燒法處理湖北某鮞狀赤鐵礦石。結果錶明,在給礦細度為-0.074 mm佔80%、氣體速度為1.4 m/s、H2濃度為40%、還原溫度為650℃、焙燒時間為10 s 條件下,對鐵品位為46.31%的鮞狀赤鐵礦石進行懸浮焙燒,焙燒產品磨細至-0.035 mm佔90%後,在磁場彊度為85 kA/m條件下磁選,可穫得鐵品位為58.32%、迴收率為85.69%的鐵精礦。對焙燒產品進行XRD分析錶明,礦石中的赤鐵礦經懸浮焙燒後轉變為磁鐵礦。對懸浮焙燒產品進行磁性分析錶明,鮞狀赤鐵礦中弱磁性鐵礦物經懸浮焙燒可快速轉變為彊磁性鐵礦物,焙燒後物料的磁化彊度和比磁化率顯著提高。懸浮焙燒具有焙燒時間短、熱利用效率高、處理能力大等優點,可在較短的時間內實現鐵礦石的磁性轉變,為難選鐵礦石的利用開闢瞭新的途徑。
침대전통자화배소장비급기술소존재적환원시간장、환원불균균、능모급생산성본고등문제,채용현부배소법처리호북모이상적철광석。결과표명,재급광세도위-0.074 mm점80%、기체속도위1.4 m/s、H2농도위40%、환원온도위650℃、배소시간위10 s 조건하,대철품위위46.31%적이상적철광석진행현부배소,배소산품마세지-0.035 mm점90%후,재자장강도위85 kA/m조건하자선,가획득철품위위58.32%、회수솔위85.69%적철정광。대배소산품진행XRD분석표명,광석중적적철광경현부배소후전변위자철광。대현부배소산품진행자성분석표명,이상적철광중약자성철광물경현부배소가쾌속전변위강자성철광물,배소후물료적자화강도화비자화솔현저제고。현부배소구유배소시간단、열이용효솔고、처리능력대등우점,가재교단적시간내실현철광석적자성전변,위난선철광석적이용개벽료신적도경。
Suspension roasting for an oolitic hematite from Hubei province was carried out to solve the long reduction time,uneven reducing,high energy consumption and high production costs of traditional magnetic roasting equipments and tech-nology. The results show that an iron concentrate with iron grade of 58. 32% and recovery of 85. 69% can obtained under the conditions of material size of 80% passing 0. 074 mm,gas velocity of 1. 4 m/s,H2 concentration of 40%,reduction temperature of 650 ℃ for 10 s,magnetic separation was brought after ground the roasted products at 90% passing 0. 035 mm . The XRD a-nalysis of roasted material show that hematite in ore can transformed to magnetite via suspension roasting. The magnetic analy-sis show that weakly magnetic iron mineral in oolitic hematite ore can rapidly transformed to magnetite during suspension roast-ing. The magnetization and magnetic susceptibility of reduced material were greatly increased. Suspension roasting has advanta-ges of short roasting time,high heat utilization efficiency and large processing capacity,can transform the magnetic property of iron ore in a short time and provide a new approach for utilizing refractory iron ores.
