高镁贫镍红土矿煤基还原制备镍铁合金  被引量:3

Preparation of Ferro-Nickel Alloy from High Magnesium Low Nickel Laterite Ore in Coal-based Direct Reduction Smelting Process

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作  者:王宇鲲[1] 魏永刚[1] 李博[1] 周世伟[1] 丁志广[1] 

机构地区:[1]省部共建复杂有色金属资源清洁利用国家重点实验室,昆明理工大学冶金与能源工程学院,云南昆明650093

出  处:《过程工程学报》2016年第6期1052-1057,共6页The Chinese Journal of Process Engineering

基  金:国家自然科学基金资助项目(编号:U1302274;51304091);云南省应用基础研究基金资助项目(编号:2013FZ007;2013FD009)

摘  要:以含Ni 0.82%、含MgO 31.49%的高镁贫镍红土矿为原料,采用煤基直接还原熔炼方法制备镍含量高于7%的镍铁合金,对产物进行了表征,通过正交实验确定了最优工艺条件.结果表明,原矿主要由蛇纹石、石英和氧化镁组成,81.49%的镍元素取代镁或以吸附态分布于蛇纹石中.温度高于1500℃熔炼过程才能顺利进行.通过L9(3^3)正交实验确定的最优工艺条件为:熔炼温度1600℃,配碳比C/O=2.0,焙烧时间45 min.该条件下制备出了镍品位7.19%、镍铁含量84.23%的球状镍铁合金,Ni回收率为82%.The high magnesium(31.49% Mg O), low nickel(0.82% Ni) laterite ore was used to extract the high grade ferro-nickel alloy by the coal-based direct reduction method. The product was analyzed, the optimal conditions were obtained by orthogonal experiments. The results showed that the content of Ni in the ferro-nickel alloy is more than 7%. The laterite ore mainly consists of serpentine, quartz and magnesium oxide phases. In addition, 81.49% Ni within raw ore is distributed in serpentine, by substitution for Mg and/or by adsorption. Smelting could be occurred completely when the roasting temperature above 1 500 ℃. The orthogonal experiments L9(3^3) were carried out to obtain the optimum technological parameters. A ferro-nickel alloy, which contains 7.19% Ni, 84.23% ferro-nickel can be obtained at the roasting temperature 1 600 ℃ for 45 min, with atomic ratio C/O 2.0, the recovery rate of nickel is 82%.

关 键 词:高镁贫镍红土矿 煤基还原 镍铁合金 

分 类 号:TF111[冶金工程—冶金物理化学]

 

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