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利用失重法对碳的气化反应、CO气体以及碳还原白云鄂博铁精矿进行了实验,使用矿相、XRD分析了还原后样品的相组成与显微结构。研究结果表明:加入催化剂后,碳的气化反应速率和铁精矿还原速率提高,且K2CO3和Na2CO3的催化效果明显优于CaCO3的催化效果。催化剂的加入有助于碳的活性提高,加速了碳的气化反应,从而促进了白云鄂博铁精矿还原反应进行。 相似文献
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Whatismicritemound?Itisthegeological body,whichismadefrommicro carbonate,micro andothersubstancesformedataspecificenviron ment,whoseshapeislikesmallhill[1,2].However, itcannotbefoundinthepre Cambriansedimentary rocksduetotheverystrongalterationduringthe… 相似文献
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It is difficult to economically recover rare earths (RE) and niobium (Nb) from Bayan Obo tailings by the existing metallurgical processes. In this study, a novel hydrometallurgy process was employed for separating and recovering RE and Nb from Bayan Obo tailings. Firstly, by sulfating roasting at 250 °C and subsequent leaching at 60 °C, the RE and Nb present in the polymetallic minerals can be efficiently extracted into the leach solution. Secondly, after the reduction of Ti4+ and Fe3+ ions (to Ti3+ and Fe2+ ions) with iron powders followed by hydrolysis at pH 2.01, the Nb can be efficiently precipitated from the leach solution. The impurities present in the precipitated product can then be removed by treating with NH3⋅H2O–H2C2O4 system at pH 4.50. Thirdly, the RE can be efficiently precipitated at pH 7.15 from the filtrate of above hydrolysis reaction mixture. Finally, the impurities present in the crude RE can be removed by oxalate co-precipitation method. The yield of RE and Nb in this novel process reaches up to 90% and 78%, respectively. Both the Nb (60.67 wt% Nb2O5) and RE products (>88.65 wt% RExOy) have high application value. 相似文献
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查干敖包铁锌矿床地处二连—东乌旗成矿带东段,为典型的矽卡岩型铁锌矿床。该矿床经历了干矽卡岩阶段(Ⅰ)、湿矽卡岩-磁铁矿阶段(Ⅱ)、石英-硫化物阶段(Ⅲ)、碳酸盐阶段(Ⅳ)等4个成矿阶段。流体包裹体岩相学和显微测温学研究表明:成矿早期,流体为高温(348℃~523℃)、高低盐度(2.89%~60.44%)并存的NaCl-H 2O体系,氢、氧同位素组成指示其来自岩浆热液;在上升过程中,随着温度、压力的减小,成矿流体发生了多期次的沸腾作用,高氧逸度时(成矿Ⅱ阶段)Fe元素大量沉淀成矿,低氧逸度时(成矿Ⅲ阶段)Zn元素大量富集成矿;成矿晚期,大气降水混入残余流体中,成矿流体转变为低温(112℃~234℃)、低盐度(3.21%~7.99%)的NaCl-H 2O体系。 相似文献
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采用焙烧浸出-萃取沉淀法从白云鄂博稀土精矿中分离稀土和钍,得到最佳焙烧浸出条件为: 矿酸比1∶1.5、焙烧时间1 h、焙烧温度200 ℃、水浸液固比8∶1、水浸时间4 h、水浸温度50 ℃,最佳条件下CeO2、La2O3、Nd2O3、Pr6O11、Sm2O3和ThO2浸出率分别为80.77%、69.24%、95.71%、76.82%、93.31% 和98.13%。采用羧酸类萃取-沉淀剂从浸液中萃取分离稀土和钍,在萃取-沉淀剂皂化度70%、料液pH=3.1、萃取-沉淀剂和钍的摩尔比4∶1的最佳条件下,稀土和钍萃取-沉淀率分别为19%和90%,实现了稀土和钍的有效分离。 相似文献
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针对白云鄂博混合型铁-稀土矿石生产的铁精矿和稀土精矿回收率低、杂质含量高的问题,按照矿石类型进行分类选别。以霓石型低品位铁-稀土矿石为对象,在系统研究其矿石性质的基础上进行回收铁、稀土的选矿试验。研究结果表明,原矿中TFe品位为17.50%,稀土REO品位为8.43%,主要的铁矿物为磁铁矿,氟碳铈矿和独居石是主要的稀土矿物;脉石矿物主要是霓石、重晶石和方解石等;通过磨矿-两段弱磁选-再磨-弱磁选回收铁,在一段磨矿细度-0.074mm 90%、粗选磁场强度和精选磁场强度分别为112kA/m和96kA/m、再磨细度和再磨磁场强度为-0.045 4mm 90%和96kA/m的条件下获得TFe品位65.83%、TFe回收率69.86%的铁精矿;选铁尾矿在浮选温度60℃、水玻璃用量2.1kg/t、捕收剂H205用量1.0kg/t的条件下经一次粗选、两次扫选的闭路试验可获得REO品位为50.89%,回收率为63.17%的稀土精矿。研究结果为白云鄂博矿的分类选矿提供技术借鉴。 相似文献
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本文介绍了处理复杂难选矿石的新工艺——深度还原技术,并归纳总结了深度还原技术在处理鲕状赤铁矿、白云鄂博氧化矿和红土镍矿几种公认的复杂难选矿石中的应用研究现状,指出了该工艺的发展方向。通过与其他方法的对比分析,得出深度还原技术在对我国复杂难选矿石的开发利用过程中优越性较为明显,为处理复杂难选矿石开辟了一个新的途径。 相似文献
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