用离心法代替浮选提纯镜铁矿制备氧化铁红色素

This study used specularite, a high-gradient magnetic separation concentrate, as a raw material in reverse flotation. An iron concentrate with a grade of 65.1wt% and a recovery rate of 75.31% were obtained. A centrifugal concentrator served as the deep purification equipment for the preparation of iron oxide red pigments, and its optimal rotating drum speed, feed concentration, and other conditions were determined. Under optimal conditions, a high-purity iron oxide concentrate with a grade of 69.38wt% and a recovery rate of 80.89% were obtained and used as a raw material for preparing iron oxide red pigment. Calcining with sulfuric acid produced iron red pigments with different hues. Simultaneously, middlings with a grade of 60.20wt% and a recovery rate of 17.51% were obtained and could be used in blast furnace ironmaking. High-value utilization of specularite beneficiation products was thus achieved.     

高铁赤泥悬浮磁化焙烧-弱磁选提铁工艺

高铁赤泥中的铁含量较多,是一种潜在的铁矿资源.因此,研发创新性工艺和技术以实现赤泥中铁的回收利用和赤泥减量很有必要.针对拜耳法高铁赤泥,制定了悬浮磁化焙烧-弱磁选的工艺流程,并研究了焙烧温度、焙烧时间、还原气CO浓度和总气量对磁化焙烧效果的影响.结果表明,在最佳焙烧条件下,焙烧矿经过弱磁选别,可获得磁选精矿TFe品位为...     

A novel process for Fe recovery and Zn,Pb removal from a low-grade pyrite cinder with high Zn and Pb contents

Comprehensive utilization of pyrite cinders is increasingly important because of their huge annual outputs and potential valuable metals recovery to cope with the gradual depletion of high-grade mineral resources. In this work, a new process, i.e., a high-temperature chlorination-magnetizing roasting-magnetic separation process, was proposed for recovering Fe and removing Zn, Pb from a low-grade pyrite cinder containing 49.90wt% Fe, 1.23wt% Zn, and 0.29wt% Pb. Various parameters, including the chlorinating conditions (dosage of CaCl₂, temperature, and time) and the magnetization roasting conditions (amount of coal, temperature, and time) were investigated. The results indicate that the proposed process is effective for Fe recovery and Zn, Pb removal from the pyrite cinder. Through this process, 97.06% Zn, 96.82% Pb, and approximately 90% S can be removed, and 89.74% Fe is recovered as magnetite into the final product under optimal conditions. A purified magnetite concentrate containing 63.07wt% Fe, 0.16wt% P, 0.26wt% S, and trace amounts of nonferrous metals (0.005wt% Cu, 0.013wt% Pb, and 0.051wt% Zn) was obtained. The concentrate can be potentially used as a high-quality feed material for producing oxidized pellets by blending with other high-grade iron ore concentrates.     

闪速磁化焙烧及铁矿物的微观相变特征

针对酒泉钢铁(集团)公司粒度小于0.30 mm的富含镜铁矿、褐铁矿和镁(锰)菱铁矿难选铁粉料,介绍采用闪速磁化焙烧动态试验装置开发我国难选低品位细粒级铁矿资源的试验效果;对闪速磁化焙烧前、后相关产品进行光学显微镜观察、XRD和EPMA检测分析,研究焙烧前后铁矿物的相变情况及微观特性.研究结果表明:在弱还原气氛和740～800 ℃条件下,通过60 s之内的闪速磁化焙烧处理,可获得铁品位为55.51%～55.35%的弱磁选铁精矿;弱磁性细粒铁矿物的相变均转变为龟裂较为发育的人造磁铁矿,产物中未见菱铁矿和强磁性的γ-Fe2O3;人造磁铁矿其镜下微观形貌与反光特征仍有差异,且由菱铁矿中的Mg和Mn特征元素含量有差别,可将其区分.     

Comprehensive recovery of lead,zinc, and iron from hazardous jarosite residues using direct reduction followed by magnetic separation

Lead, zinc, and iron were recovered from jarosite residues using direct reduction followed by magnetic separation. The influence of the coal dosage, reduction temperature, and reduction time on the volatilization rates of lead and zinc and the metallization rate of iron were investigated. The results show that the volatilization rates of lead and zinc were 96.97% and 99.89%, respectively, and the iron metallization rate was 91.97% under the optimal reduction roasting conditions of a coal dosage of 25.0wt% and reduction roasting at 1250℃ for 60 min. The magnetic concentrate with an iron content of 90.59wt% and an iron recovery rate of 50.87% was obtained under the optimum conditions in which 96.56% of the reduction product particles were smaller than 37 μm and the magnetic field strength was 24 kA/m. Therefore, the results of this study demonstrate that recovering valuable metals such as lead, zinc, and iron from jarosite residues is feasible using the developed approach.     

Upgrading and dephosphorization of Western Australian iron ore using reduction roasting by adding sodium carbonate

The technology of direct reduction by adding sodium carbonate (Na₂CO₃) and magnetic separation was developed to treat Western Australian high phosphorus iron ore. The iron ore and reduced product were investigated by optical microscopy and scanning electron microscopy. It is found that phosphorus exists within limonite in the form of solid solution, which cannot be removed through traditional ways. During reduction roasting, Na₂CO₃ reacts with gangue minerals (SiO₂ and Al₂O₃), forming aluminum silicate-containing phosphorus and damaging the ore structure, which promotes the separation between iron and phosphorus during magnetic separation. Meanwhile, Na₂CO₃ also improves the growth of iron grains, increasing the iron grade and iron recovery. The iron concentrate, assaying 94.12wt% Fe and 0.07wt% P at the iron recovery of 96.83% and the dephosphorization rate of 74.08%, is obtained under the optimum conditions. The final product (metal iron powder) after briquetting can be used as the burden for steelmaking by an electric arc furnace to replace scrap steel.     

用铁屑烟气脱硝过程中生成沉淀物制铁红颜料

用X-射线衍射分析了用铁屑进行烟气脱硝过程中形成铁沉淀物的结构和组成,重点研究了采用过程中生成的铁沉淀物制备氧化铁红颜料的工艺．研究结果表明,过程中所得的铁沉淀物经风干后外观为桔黄色,化学成分与铁黄相同;用该沉淀物制备铁红颜料的最佳条件为煅烧温度600～700℃,煅烧时间50min,水悬浮液pH值为7,在此条件下,可生产出符合国家一级品标准的氧化铁红颜料．     

白云鄂博氧化矿石深度还原-磁选试验研究

采用深度还原技术将白云鄂博氧化矿石转化为高金属化率的还原物料,然后再经选矿实现了铁、稀土、铌等元素的有效分离及富集.通过对还原温度、还原时间、配碳比等条件的优化,得到了铁金属化率94.48%的还原矿,经阶段磨矿—粗细分选流程的选别,可获得全铁品位为91.61%,金属化率为93.79%,铁回收率为93.23%的铁粉,该铁粉可作为炼钢的原料;尾矿中稀土品位12.25%,回收率98.73%,可作为分选稀土的原料.     

Recovery of iron from high phosphorus oolitic iron ore using coal-based reduction followed by magnetic separation

Oolitic iron ore is one of the most important iron resources. This paper reports the recovery of iron from high phosphorus oolitic iron ore using coal-based reduction and magnetic separation. The influences of reduction temperature, reduction time, C/O mole ratio, and CaO content on the metallization degree and iron recovery were investigated in detail. Experimental results show that reduced products with the metallization degree of 95.82% could be produced under the optimal conditions (i.e., reduction temperature, 1250℃; reduction time, 50 min; C/O mole ratio, 2.0; and CaO content, 10wt%). The magnetic concentrate containing 89.63wt% Fe with the iron recovery of 96.21% was obtained. According to the mineralogical and morphologic analysis, the iron minerals had been reduced and iron was mainly enriched into the metallic iron phase embedded in the slag matrix in the form of spherical particles. Apatite was also reduced to phosphorus, which partially migrated into the metallic iron phase.     

深度还原-弱磁选回收稀土尾矿中铁的试验研究

对某全铁品位为1625%的稀土尾矿进行了深度还原-弱磁选回收铁试验研究,研究了还原剂种类及用量、焙烧温度及时间、磨矿细度及磁场强度对铁精矿品位和回收率的影响,并采用SEM,XRD等手段对稀土尾矿、焙烧产物、铁精矿进行了测试.结果表明,在烟煤质量分数30%,焙烧温度1300℃,焙烧时间60min,磨矿细度-0074mm占75%,磁场强度118kA/m的条件下,所得铁精矿TFe品位可达8076%,铁回收率可达9324%;稀土尾矿经深度还原后,其中的赤、褐铁矿、硅酸铁等含铁矿物转化为单质铁,铁精矿品位和回收率较常规选矿方法大幅度提高,同时脉石矿物组成简单,有利于萤石的富集回收.     

Effectiveness of sodium silicate as gangue depressants in iron ore slimes flotation

The recovery of iron from the screw classifier overflow slimes by direct flotation was studied. The relative effectiveness of sodium silicates with different silica-to-soda mole ratios as depressants for silica and silicate bearing minerals was investigated. Silica-to-soda mole ratio and silicate dosage were found to have significant effect on the separation efficiency. The results show that an increase of Fe content in the concentrate is observed with concomitant reduction in SiO₂ and Al₂O₃ levels when a particular type of sodium silicate at a proper dosage is used. The concentrate of 58.89wt% Fe, 4.68wt% SiO₂, and 5.28wt% Al₂O₃ with the weight recovery of 38.74% and the metal recovery of 41.13% can be obtained from the iron ore slimes with 54.44wt% Fe, 6.72wt% SiO₂, and 6.80wt% Al₂O₃, when Na₂SiO₃ with a silica-to-soda mole ratio of 2.19 is used as a depressant at a feed rate of 0.2 kg/t.     

超级铁精矿金属化烧结

用普通精矿或超级精矿生产部分金属化烧结矿,固体燃料占混合料 10％ 时开始出现金属铁,提高精矿品位名助于提高烧结矿金属化率,在固体燃料量相同时,使用超级精矿比普通精矿金属化率明显提高,部分金属化烧结矿强度较氧化性烧结矿高,其还原性与普通烧结矿接近,金属化烧结矿热强度高且具有一定可塑性。高压烧结可大幅度提高设备生产率。     

Feasibility of co-reduction roasting of a saprolitic laterite ore and waste red mud

Large scale utilization is still an urgent problem for waste red mud with a high content of alkaline metal component in the future. Laterite ores especially the saprolitic laterite ore are one refractory nickel resource, the nickel and iron of which can be effectively recovered by direct reduction and magnetic separation. Alkaline metal salts were usually added to enhance reduction of laterite ores. The feasibility of co-reduction roasting of a saprolitic laterite ore and red mud was investigated. Results show that the red mud addition promoted the reduction of the saprolitic laterite ore and the iron ores in the red mud were co-reduced and recovered. By adding 35wt% red mud, the nickel grade and recovery were 4.90wt% and 95.25wt%, and the corresponding iron grade and total recovery were 71.00wt% and 93.77wt%, respectively. The X-ray diffraction (XRD), scanning electron microscopy, and energy dispersive spectroscopy (SEM-EDS) analysis results revealed that red mud addition was helpful to increase the liquid phase and ferronickel grain growth. The chemical compositions “CaO and Na₂O” in the red mud replaced FeO to react with SiO₂ and MgSiO₃ to form augite.     

高铝硅氰化渣中铁回收工艺

研究一种处理磁选前高铝硅氰化渣的新工艺。采用复合添加剂焙烧-水浸-磁选工艺对一种铁品位为27.69%(质量分数),SiO2含量为23.9%,Al2O3含量为6.35%的高铝硅氰化渣进行杂质与铁分离的研究。研究结果表明:在最佳焙烧条件下,当水浸温度为60℃,液固比为15:1,水浸时间为5 min,转速为20 r/min,在激磁电流为2 A时,可获得铁品位57.11%,铁的回收率为72.58%的铁精矿。铁的品位和回收率都比单纯的复合添加剂还原焙烧-磁选法所获得的铁精矿的指标高,铁的品位提高了10%左右,回收率提高了30%左右。X线荧光(XRF),X线衍射(XRD)及能谱(EDS)分析研究结果表明:经水浸后,复合添加剂焙烧过程中所产生的可溶性复杂杂质化合物被洗除,不溶性物质经磁选后随之进入非磁性物,实现铁与杂质矿物之间的有效分离。     

用选择性溶解除杂法由铁精矿制备氧化铁红

生产氧化铁红的常用原料为废铁。为扩大原料来源，发展氧化铁红生产，作者探讨以铁精矿为原料，用化学选矿法，即依次用碱、酸进行选择性溶解浸出杂质，再经氧化焙烧转型，制备氧化铁红，所得产品符合ＧＢ１８６３－８０中规定的一级品质量要求。研究结果表明，此方法是一种具有发展前景的生产氧化铁红的新方法。     

海南某金矿尼尔森重选-浮选试验

以海南某石英脉型金矿石为原料,进行尼尔森重选-浮选试验研究.通过GRG试验得出金矿中重选可回收金质量分数为80.88%.通过条件试验确定了该矿石尼尔森重选-浮选的最佳条件为:磨矿细度-74μm占80%,相对离心力60g,反冲水压16kPa,矿浆质量分数40%,戊基黄药用量200g/t,浮选时间5 min.原矿石品位9.8g/t,利用尼尔森选矿机一次分选可得品位230g/t,金回收率80.30%的重选精矿.重选尾矿品位2.0g/t,经过一次粗选一次精选三次扫选处理,可得浮选精矿品位57.3g/t,浮选金作业回收率75.66%.经尼尔森重选-浮选流程处理后,尾矿金品位降至0.5g/t,全流程金总回收率95.21%.     

从高炉除尘灰中综合回收碳、铁和锌的试验研究

基于选冶联合工艺,对某厂排放的高炉除尘灰进行综合回收铁、锌、碳的试验研究。先采用浮选-磁选法回收碳和铁,再采用酸浸-除杂-电积湿法回收锌,重点对影响锌浸出的工艺因素和条件进行了考察。结果表明,通过选冶联合工艺处理高炉除尘灰获得较好的选别指标,且可回收碳品位为86.52%和回收率为92.80%的碳精矿、铁品位为54.16%和回收率为45.47%的铁精矿以及纯度为95.2%的锌产品,锌总回收率达到87%以上。     

黄铁矿烧渣提取铁、金、银等工艺研究

以黄铁矿烧渣为原料,通过化学选矿的方法,采用碱浸及氧化酸浸的工艺,除去有害杂质和回收有价金属元素金、银、铜,回收率分别为87%、76%、82%.同时得到品位为60.35%的铁精矿.     

Study on the pre-treatment of oxidized zinc ore prior to flotation

The pre-treatment of zinc oxide bearing ores with high slime content is important to ensure that resources are utilized optimally. This paper reports an improved process using hydrocyclone de-sliming, dispersion reagents, and magnetic removal of iron minerals for the pre-treatment of zinc oxide ore with a high slime and iron content, and the benefits compared to traditional technologies are shown. In addition, this paper investigates the damage related to fine slime and iron during zinc oxide flotation, the necessity of using hydrocyclone de-sliming together with dispersion reagents to alleviate the influence of slime, and interactions among hydrocyclone de-sliming, reagent dispersion, and magnetic iron removal. Results show that under optimized operating conditions the entire beneficiation technology results in a flotation concentrate with a Zn grade of 34.66% and a recovery of 73.41%.     

降低还原球团盐酸不溶物含量的研究

系统地研究了以某铁精矿为原料生产还原铁粉的一次还原过程中各工艺因素与盐酸不溶物含量变化的关系,一次还原中盐酸不溶物剧增的基本原因是还原过程中的矿物转化,矿物转化除生成盐酸不溶物外,还伴有难溶性矿物出现,各工艺因素中对矿物转化的影响以还原温度最显著。因此,以精矿作原料生产还原铁粉,首先要尽量降低杂质含量,选用纯净的铁精矿;其次应根据原料确定合适的一次还原工艺参数。