京唐5500m^(3)高炉超高比例碱性球团矿冶炼实践

随着京唐5500m^(3)高炉入炉球团矿的比例>50%,酸性球团矿难以满足冶炼造渣要求,为此开发了碱度>1.1的球团矿,目前入炉碱性球团矿的比例保持在55%左右,单座高炉最高超过70%。针对超高比例碱性球团矿冶炼,采取了一系列措施,在精料方针方面,主要是改善碱性球团矿质量、稳定焦炭质量、控制碱金属负荷;在操作制度方面,主要是调整装料制度及送风制度、制订合理的热制度及造渣制度。3座高炉保持了长期稳定运行,主要技术经济指标维持在较好水平,其中1号高炉焦比最低降至257kg/t,燃料比最低496kg/t,焦炭负荷最高6.18,利用系数最高2.62(m^(3)·d)

带式焙烧机工艺高硅镁质熔剂性球团制备特性

本文以高品位磁铁精矿(O矿)、高镁磁铁精矿(K矿)和高硅赤铁矿粉(Y矿)为原料,根据某钢厂现场原料配比40%O矿+20%K矿+40%Y矿,在实验室开展模拟带式焙烧机工艺的高硅镁质熔剂性球团制备特性研究,揭示了二元碱度(CaO/SiO 2为0.5~0.9)对球团焙烧特性、成品球团冶金性能(还原度RI、还原膨胀指数RSI和动态法低温还原粉化指数LTD+3.15 mm)和矿相学特征的影响规律。结果表明:提高球团碱度有利于改善球团焙烧和冶金性能,在0.5~0.9的碱度范围内,球团的还原度≥65.38%、还原膨胀指数15%、动态低温还原粉化性能优良(≥98.88%)。矿相分析结果表明,所制备高硅镁质熔剂性球团的固结形式主要为Fe 2O 3再结晶,提高碱度利于形成更多液相从而促进固结,降低球团孔隙率,从而生产出性能良好的成品球团。本研究将为工业生产实践提供有力支撑和重要借鉴。

唐钢新区2922m^(3)高炉高球比生产的操作制度

唐钢新区1号高炉探索球团矿比例从19.5%提高到31%的操作制度,初步探索结果表明,高球比生产对煤气流分布的影响较大。之后,经过一年多的探索,唐钢新区2922m^(3)高炉成功实现40%以上高球比操作,主要操作经验是:根据炉况逐步提高球团矿比例,不可盲目地快速提升;调整装料制度宜采用“稳定边沿,保证中心”的思路,当出现炉墙结厚趋势时,可适当强化边沿气流进行处理,减少大幅调整装料制度;当中心气流减弱、炉缸状态下降时,可适当缩小风口面积,保证风速达到255m/s以上,提高鼓风动能;应将铁水[Si]控制在0.3%~0.4%,炉渣碱度控制在1.15~1.20,保证高炉稳定顺行。

Behavior of fluxed lime iron oxide pellets in hot metal bath during melting and refining

Lump lime as a fiux material in a basic oxygen furnace （BOF） often creates problems in operation due to its high melting point, poor dissolution property, hygroscopic nature, and fines generation tendency. To alleviate these problems, fluxed lime iron oxide pellets （FLIP） containing 30% CaO were developed in this study using waste iron oxide fines and lime. The suitable handling strengths of the pellet （crushing strength： 300 N; drop strength： 130 times） of FLIP were developed by treating with CO2 or industrial waste gas at room temperature, while no separate binders were used. When the pellet was added into hot metal bath （carbon-containing molten iron）, it was decomposed, melted, and transformed to produce low melting oxidizing slag, because it is a combination of main CaO and Fe2O3. This slag is suitable for facilitating P and C removal in refining. Furthermore, the pellet enhances waste utilization and use of CO2 in waste gas. In this article, emphasis is given on studying the behavior of these pellets in hot metal bath during melting and refining along with thermodynamics and kinetics analysis. The observed behaviors of the pellet in hot metal bath confirm that it is suitable and beneficial for use in BOF and replaces lump lime.

Multi-index analysis of the melting process of laterite metallized pellet

Herein, a multi-index analysis of the nickel content of an alloy, output rate of the alloy, nickel recovery rate, and iron recovery rate during the melting of laterite metallized pellets was performed. The thermodynamic reduction behavior of oxides such as NiO, FeO, Fe_3 O_4, and Cr_2 O_3 was studied using the FactSage software, which revealed that SiO_2 is not conducive to the reduction of iron oxides, whereas the addition of basic oxides such as CaO and MgO is beneficial for the reduction of iron oxides. On the basis of a comprehensive analysis to achieve greater nickel recovery and lower iron recovery rates, the optimum experimental parameters in the orthogonal experiment were A3 B1 C3(t = 30 min, C/O = 0.4, R = 1.2); the indicators wNi, φalloy, ηNi, and ηFe had values of 15.0 wt%, 12.1%, 44.9%, and 96.4%, respectively. In single-factor experiments, increasing basicity(R) substantially improved the separation effect in the low-basicity range 0.5 ≤ R ≤ 0.8 but not in the high-basicity range 0.8 ≤ R ≤ 1.2. Similar results were obtained for the effect of the C/O ratio. Moreover, the recovery rate of nickel increased with increasing recovery rate of iron.

铌精矿配碳球团熔分过程与元素迁移试验研究

以白云鄂博铌精矿及半焦粉为原料,使用高温热台原位观察碱度对配碳球团还原产物熔分过程的影响。在不同熔分条件下对最佳碱度的样品进行淬火并制样,采用SEM-EDS分析熔分过程中元素迁移规律,采用XRD、同步热分析仪以及ICP相结合定量分析了熔分过程中Nb、Si元素反应率。结果表明:二元碱度为1.0时能够有效抑制熔分过程中渣液喷溅现象并提高熔分效果。在碱度1.0条件下,1 350℃时渣中SiO_(2)在渣金界面发生还原反应并进入铁相,1 400℃保温2 min后在渣金界面上铁液中C优先与渣中铌氧化物发生还原反应生成NbC。少量NbC溶入铁相,其余大部分NbC将粒铁包裹形成滞留带,阻碍渣金界面传质,降低还原反应速率。1 400℃保温10 min后,Nb、Si元素的反应率分别为36%和1.7%。Ti、RE元素在熔分过程中全程不参与反应。

含锌尘泥球团直接还原过程中渣相行为与固结强度关系研究

通过表征不同直接还原温度下碱性含锌尘泥球团外观形貌、物相组成、微观结构及抗压强度变化,并结合FactSage热力学计算,分析了碱性尘泥球团直接还原过程中渣相行为及其对球团固结强度的影响。结果表明,随着还原温度升高,碱性尘泥球团体积先膨胀后收缩,对应抗压强度也先减小后增加,碱性氧化物一直参与球团渣相的形成过程并最终形成复杂的含钙化合物渣相。固相反应是渣相形成的基础,其中间产物Ca 2SiO 4良好的固溶性促进了钙铁和钙镁低熔点物相的固相生成,铁氧化物的初步还原产物FeO有利于液相生成,促进球团中物相的迁移和重新排列,球团体积收缩,强度明显提高。

Effect of quaternary basicity on reduction behavior of iron-bearing dust pellets

The treatment of iron-bearing dusts and sludges by the rotary hearth furnace process has the advantage of sufficient utilization of valuable metals and a high impurity removal rate,but the lower strength of the metallized product needs to be addressed.The effects of quaternary basicity R4(w(CaO+MgO)/w(SiO_(2)+Al_(2)O_(3)))on the reduction behavior and physical and chemical properties of metallized pellets,including phase composition,compressive strength,microstructure and soft melting area,were investigated with FactSage thermodynamic software and experiments.The strength of metallized pellets depended on the gangue composition,such as CaO,MgO,Al_(2)O_(3) and SiO_(2),due to the altered chemical composition,physical phase composition,microscopic morphology and stability of the slag phase.The reduction of carbon-bearing pellets was significantly promoted by suitable basicity.The lower basicity(R_(4)<1.4)facilitated the formation of low melting point iron-containing compounds from SiO_(2) and Al_(2)O_(3) with FeO,resulting in increased liquid phase generation,but lower metallization rate,due to the hindered precipitation and growth of iron grains.Interestingly,the higher basicity(R_(4)>1.8)also increased the amount of liquid phase and improved the strength of the pellets,due to the granular iron crystals bonded into sheets.Notably,the main component of the liquid phase in high-basicity conditions was calcium ferrite.Although the additional amount of liquid phase was beneficial to the strength of the metallized pellets,calcium disilicate was formed at R_(4)=1.6,resulting in a reduction in the compressive strength of the pellets to 1521.9 N/pellet.

铁精粉原料特性及其对熔剂性球团冶金性能的影响

优质熔剂性球团的生产对铁精粉原料条件要求较为严格,国内外各种球团铁精粉资源在化学成分、粒度组成、微观形貌和成球性能等方面差异较大,为生产出合格的熔剂性球团,针对不同铁精粉原料特性,设计了5种配矿方案,依托624 m~2球团带式焙烧机进行试验,摸索铁精粉种类对熔剂性球团冶金性能的影响。结果表明,不同配矿方案下熔剂性球团抗压强度较高,均在2 600 N以上,还原膨胀指数较低,均在12.5%以下;高SiO_(2)含量铁精粉使用比例升高会使球团软熔温度降低,区间变宽;大部分赤铁矿精粉焙烧过程中再结晶困难,尺寸偏小,且与液相粘结在一起,加剧了球团内部晶体结构的不均匀程度;粗颗粒铁矿粉会导致造球过程中混合料成球性能变差,且产生偏析,影响球团矿相结构的均匀性,导致低温还原粉化性能变差。球团结构不均匀主要表现在赤铁矿晶粒尺寸大小不均匀,气孔尺寸差异较大,液相分布不均匀。铁矿粉细磨后,偏析现象明显减少,内部结构更加均匀,熔剂性球团冶金性能明显改善。

碱性含镁球团矿的应用及合理炉料结构研究

使用碱性含镁球团矿可提高氧化球团矿质量,进而改善高炉生产指标。从理论上分析了碱性含镁球团矿的冶金性能,并探讨了包钢高炉炼铁合理的炉料结构,研究结果表明:碱性含镁球团矿中合理的MgO的质量分数为1.8%,烧结矿中合理的MgO的质量分数为1.8%、碱度为1.7。依据包钢现有的资源条件分析了通过添加轻烧白云石细磨粉,制作含镁碱性球团的可行性。

首钢熔剂性球团试验研究

为给首钢生产熔剂性球团矿提供依据 ,在试验室条件下研究了温度、时间。

钒钛磁铁精矿分流制粒烧结中碱度的影响

分流制粒烧结是一种新的烧结工艺,即将铁精矿分别制成高碱度物料和酸性球,再混入燃料和返矿进行烧结的方法.针对碱度进行了实验室研究,以确定新的工艺参数.结果表明:碱度较低时,烧结矿黏结相以硅酸二钙和玻璃质为主,烧结矿质量较好;随着碱度升高,钙钛矿含量增加,对烧结矿冶金性能破坏性很大.TiO2完全生成钙钛矿后,碱度达到2.02时,铁酸钙含量增加很多,烧结矿液相遮盖了球团矿,烧结矿产量提高,冶金性能得到改善.

钢铁厂含锌、铅粉尘基本物性及造球工艺

将粒度很细的含锌铅高炉粉尘和不含锌铅的转炉粉尘混合造球，实验表明，球团的最佳条件为造球时间２０ｍｉｎ，水分为２１％；球团性能湿球和干球抗压强度分别为１５和２５Ｎ／个，爆裂温度为２１０℃。

碱度对球团矿热态性能和矿相结构的影响

针对酸性球团矿热态冶金性能不佳的问题,采用配加白云石调整球团矿碱度的方法研究了不同碱度球团矿在还原气氛中反应1h后的低温还原粉化及还原膨胀指数,再通过光学显微镜分析球团矿矿相结构,得到了球团碱度、热态冶金性能与矿相结构之间的关系。以期为球团生产采取合理措施,改善产品质量提供依据和参考。

不同碱度与配矿结构对球团矿性能的影响

根据攀钢资源状况,进行了烧结矿部分碱度向球团矿转移,采用不同配矿结构与提高球团碱度的试验研究。球团碱度为0.4,0.6,0.8,"钒钛精矿+普通精矿"与"全钒钛精矿"两种方案分别做平行试验。试验结果表明钒钛精矿+普通精矿,不用膨润土,用消石灰为添加剂能生产满意的碱性球团。为目前单一酸性球团的生产方式开辟了新途径,而全钒钛矿精矿只适合于添加膨润土生产酸性球团。试验表明碱度为0.4、0.6的碱性球团生球性能可满足焙烧要求,在优化焙烧制度下成品球抗压强度、还原膨胀指数、冶金性能良好,均能满足高炉冶炼需要。生产碱性球团为降低烧结矿碱度,改善炉料结构创造了条件。

太钢6号高炉配用碱性球团矿及高比例球团矿冶炼试验

对太钢6号高炉配用碱性球团矿及高比例球团矿冶炼试验进行了总结。试验结果表明:在保证原燃料质量的前提下,通过高炉操作制度调整,配用碱性球团矿和球团矿总比例可以分别达到20%和40%,高炉技术经济指标维持在较高水平;将球团矿比例提高至43%(配用碱性球团矿比例27%左右)后,炉况逐渐出现风压波动大、崩料增加等现象,高炉顺行难以维持。

熔剂外加-球料混烧的研究

采用熔剂外加技术 ,酸性球和高碱度料混合烧结 ,使 1.5碱度烧结矿的质量明显提高。球料混合烧结 。

菱锰矿球团工艺研究

试验以菱锰矿为原料制备球团，并对其工艺条件和产品质量进行了研究和检测。结果表明。在一定的条件下制得的菱锰矿球团可作为中、小型高炉和电炉冶炼的原料。

三氯化钛还原-重铬酸钾滴定法测定球团矿中TFe

采用碱混合熔剂熔融试样,熔融物以热水浸取盐酸酸化后,用SnCl2-TiCl3将Fe3+还原为Fe2+,以钨酸钠为指示剂指示还原终点;在硫磷混酸介质中,以二苯胺磺酸钠为指示剂,用重铬酸钾标准溶液滴定球团矿中TFe含量。该法测定TFe的绝对误差<0.15%,避免了用重铬酸钾氧化褪去钨蓝色泽时易引入的误差。

碱度对高硅镁质球团矿质量影响的研究

针对w(MgO)过高对高硅球团矿的抗压强度不利,以及碱度对高硅镁质球团性能的影响情况不明确等问题,通过对高硅镁质熔剂性球团的物相组成和微观结构等进行研究,分析碱度(CaO/SiO2)对高硅镁质球团矿的抗压强度、还原膨胀性和还原性的影响。结果表明:提高高硅镁质球团的碱度,不仅能有效地改善镁质球团矿的抗压强度,而且可以进一步改善球团矿的冶金性能指标。当球团中w(MgO)为2.5%,碱度提高至1.2时,球团矿抗压强度为3 487 N/P,还原膨胀指数仅为0.72%,还原度为82.25%。