Influence of laterite nickel ore on extracting iron from Bayer red mud by carbothermal smelting reduction

In view of the difficulty of extracting iron from Bayer red mud,a new idea of adding laterite nickel ore into red mud was proposed to prepare a high value-added product.Toward this,the influences of laterite nickel ore on thermodynamic reaction,slagging and smelting reduction of extracting iron from red mud were studied.The results indicated that the product of extracting iron from red mud(R100)was changed with the addition of laterite nickel ore(R70L30).The slag of R100 was strongly basic,while the R70L30 was weakly acidic with composition closer to the ideal blast furnace slag.The metal recovery of R100 was 75.16%and that of R70L30 was 94.05%.At the same temperature,the slag viscosity of R70L30 was significantly lower than that of R100,which proved that laterite nickel ore can adjust the basicity,reduce melting point of slag and improve metal recovery.Because Fe,Ni and Cr in red mud and laterite nickel ore can be reduced sufficiently,a low Ni–Cr alloy cast iron can be directly prepared.

赤泥提铝渣回收钛试验初探

为提高赤泥的综合利用率,本文针对赤泥提铝渣进行钛的分离试验研究。本试验分为选矿试验和酸浸试验,前者又细分为重选试验、摇床试验、磁选试验和浮选试验。初步研究结果表明,在试验条件下,选矿不能实现赤泥提铝渣中钛的分离与富集,而酸浸可使大部分钛浸出到溶液中。采用酸浸方式处理赤泥提铝渣,为钛的回收提供了可能性。

从赤泥高炉炼铁炉渣中回收铝

研究了在盐酸介质中直接浸出拜耳法赤泥高炉炼铁炉渣中的铝,通过正交试验考察了盐酸浓度、反应温度、反应时间等因素对铝浸出率的影响,并通过单因素试验优化了工艺条件。试验结果表明:影响铝浸出率的主要因素依次为盐酸浓度、反应温度和反应时间;铝浸出最佳条件为盐酸浓度8.4mol/L,反应温度90℃,反应时间1h;最优条件下,铝浸出率为85.18%。

低温拜耳法赤泥回收铝、钠工艺研究

介绍了低温拜耳法赤泥及拜耳法赤泥与烧结法硅渣掺配料中铝、钠的回收工艺,着重研究了配料及烧结方法,试验发现,赤泥与硅渣掺配料中的铝、钠溶出率均可达95%以上,实现了低温拜耳法赤泥中铝、钠的再回收利用,溶出赤泥中氧化钠含量低于1%,可用来生产水泥,从而实现了资源的综合利用,消除了赤泥对环境的危害。

赤泥、粉煤灰、磷石膏协同高温烧结回收铁铝试验研究

赤泥(RM)、粉煤灰(FA)、磷石膏(PG)这3种固废具有产生量大、利用率低的特点,长期堆存会对水资源、土壤、空气等产生严重影响。本文提出用磷石膏代替碱石灰CaO,采用高温烧结-碱浸提铝-磁选提铁工艺协同处理3种固废回收铝、铁,并考察烧结工序工艺条件对铝、铁回收率的影响,得到以下主要结论。在烧结温度1100℃、保温时间30 min、钙比2.0条件下,铁回收率达到79.2%、铁品位达到74.5%、铝溶出率达到75.9%;升高烧结温度有利于铁、铝回收,但温度高于1100℃时熟料会出现粘黏阻碍铝的溶出;保温时间对铝铁回收影响较小;CaO与Na_(2)CO_(3)有助于激活粉煤灰中莫来石的活性,提高铝回收率;磷石膏添加过量时高温下会生成Fe_(3)Ti_(3)O_(10)、Ca_(3)Fe_(15)O_(25),导致铁品位和铁回收率降低。采用本试验工艺,每消纳10 g赤泥、6.5 g粉煤灰、15 g磷石膏,可回收75.9%的铝和3 g铁精矿,而且生产中可实现碱循环,同时生成的副产品2CaO·SiO_(2)可用来制备硫铝酸盐水泥,整个工艺流程实现了3种固废绿色协同消纳,有效实现了资源的综合利用。

酸浸赤泥制备含碳聚硅酸铝铁絮凝剂及其污泥脱水性能研究

以改性淀粉、拜尔法赤泥为原料,制备了含碳聚硅酸铝铁絮凝剂(R-CSiAFS),研究其对污泥的脱水性能,并采用红外光谱仪(FTIR)、X射线衍射仪(XRD)、扫描电镜(SEM)和热重分析仪(TGA)对R-CSiAFS复合絮凝剂进行表征.结果表明,赤泥经硫酸前处理后,总铁(TFe)和Al^(3+)的浸出率分别为81.44%和96.83%.在(Al+Fe)/淀粉质量比为0.55/1,最佳pH=3.0,SiO_2质量分数为0.375%的条件下制得最优R-CSiAFS.利用此絮凝剂进行污泥脱水实验,当投加量为330 mg·L^(-1),污泥体系pH为7.0时,污泥比阻SRF降低了92.3%,沉降比SV30从90.0%降低到79.9%.