Study of the isothermal kinetics of reduction of sinter from mill scale

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2023-07-05 DOI:10.31643/2024/6445.07
A. Zhunussov, P. Bykov, A. Kenzhebekova, A. Zhunussova, Azis Nabawi Rahmat
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Abstract

Studies of the isothermal kinetics of the reduction of sinter from mill scale were carried out at Zh. Abisheva Chemical and Metallurgical Institute (Karaganda). The influence of temperature and heating time on the degree of reduction of iron and other elements was studied in the Tamman furnace by the thermogravimetric method. The amount of reducing agent was taken in the experiments based on the stoichiometrically necessary amount of carbon for the complete reduction of iron oxides by more than 60%, as well as for the carburization of the resulting metal to 2.0% C. To obtain the kinetic characteristics of the reduction of the studied materials, depending on the temperature and duration of the process, processing of the received data array according to the models developed especially for these cases. The results of experimental data processing according to the Gistling-Brownstein model are presented. As a general assessment, this model with a sufficiently high correlation (R not less than 0.9) describes the studied process, which confirms its diffusion character. Analyzing the calculated data of the activation energy, one can assume the diffusion nature of the inhibition of the reduction reaction of all the materials under study. The value of the activation energy of the process shows that the agglomerate with dolomite (fluxed agglomerate) has the highest reducibility. During the frontal reduction of oxides of iron and other elements with carbon, a slag shell is formed around the grains of materials, which consists mainly of acidic oxides of barren rock, non-metallic inclusions of lightweight scrap and reducing agent ash and has a high viscosity. Its thickness depends on the composition of the material, temperature, time and degree of reduction.
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烧结矿从矿垢还原等温动力学研究
在Zh对烧结矿从磨鳞还原的等温动力学进行了研究。阿比舍瓦化学和冶金研究所(卡拉干达)。用热重法研究了塔曼炉中温度和加热时间对铁和其他元素还原程度的影响。还原剂的量是在实验的基础上完整的化学计量的必要数量的碳排放减少60%以上,铁氧化物以及产生的金属渗碳的2.0%减少c .获得的动力学特征的研究材料,根据过程的温度和时间,根据模型处理接收的数据数组的发展尤其是对这些病例。给出了根据吉斯林-布朗斯坦模型对实验数据进行处理的结果。总的来说,该模型具有足够高的相关性(R不小于0.9),描述了所研究的过程,证实了其扩散特性。通过分析活化能的计算数据,可以认为所研究的所有材料对还原反应的抑制都具有扩散性质。该过程的活化能值表明白云石团聚体(助熔剂团聚体)的还原性最高。铁等元素的氧化物与碳正面还原时,在物料颗粒周围形成一个渣壳,渣壳主要由贫岩的酸性氧化物、轻质废料的非金属夹杂物和还原剂灰分组成,具有较高的粘度。它的厚度取决于材料的成分、温度、时间和还原程度。
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