Study of iron content in iron ore concentrate increasing effect on sintering process indices and on metallurgical properties of sinter

Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information Pub Date : 2021-10-12 DOI:10.32339/0135-5910-2021-10-1032-1038

G. Isaenko, D. Kovalev, N. S. Meshcheryakov, V. Mikhailov, D. S. Kim

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引用次数: 4

Abstract

Effectiveness of blast furnaces operation in many respects depends on metallurgical properties of agglomerate, in particular, iron content in the sinter and its basicity. At the same time, it is accepted that usage of iron ore concentrates with iron content more than 66–67% for sinter production results in decreasing of its strength. As a result of the planned modernization of the technological sections of the concentration plant JSC “Stoilensky GOK”, iron content in the concentrate will be increased to 68–70%. It makes it actual to accomplish comprehensive studies of metallurgical properties of the sinter while increasing iron content in the raw material. Results of the study of sinter properties presented, the sinter being obtained with utilization of iron concentrate with iron content 66.6 % (base), 68.0 and 69.2 % (exp. 1 and exp. 2 correspondently). The iron ore mixture for all the stages was the same and consisted of iron ore concentrate – 78.3%, sintering ore – 8.0%, lime – 5.5% and sintering additives (sludge, dust, scale) – 8.2%. The sintering mixtures composition for all the study stages differed only by fluxes and iron ore mixture consumption. 18 test sintering operations at three values of basicity 1.6, 1.8 and 2.0 units were accomplished. It was established that increase of iron content in the concentrate and basicity of the sinter results in improving of the sintering process indices, increase of the vertical sintering rate, sintering machines productivity, recovery and the sinter cold strength. Increase of the sinter basicity and its production with increased content of iron results in improving RDI indices at low temperature reducing. Results of the study of porosity indices and metallurgical properties of the sinter presented, in particular the collapsibility during reducing and temperature interval softening-melting presented. The advisability of concentrate with increased iron content utilization in the iron ore mixture shown.

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研究了铁精矿中铁含量的增加对烧结工艺指标和烧结矿冶金性能的影响

高炉运行的有效性在许多方面取决于烧结矿的冶金性能，特别是烧结矿中的铁含量及其碱度。同时，采用含铁量大于66 ~ 67%的铁矿精矿生产烧结矿，烧结矿强度下降。由于计划对“Stoilensky GOK”选矿厂JSC的技术部分进行现代化改造，精矿中的铁含量将增加到68-70%。这使得在提高原料铁含量的同时，全面研究烧结矿的冶金性能成为现实。通过对烧结矿性能的研究，得到了含铁量分别为66.6%(碱铁)、68.0%和69.2%(分别为公式1和公式2)的铁精矿烧结矿。所有阶段的铁矿石混合料相同，由铁精矿78.3%、烧结矿8.0%、石灰5.5%和烧结添加剂(污泥、粉尘、水垢)8.2%组成。各研究阶段烧结混合料组成的差异仅在于助熔剂和铁矿石混合料用量。在碱度1.6、1.8、2.0三个单位下完成了18次烧结试验。结果表明，提高精矿铁含量和烧结矿碱度，可以改善烧结工艺指标，提高垂直烧结率、烧结机生产率、回收率和烧结矿冷强度。随着铁含量的增加，烧结矿碱度的增加和产量的增加，可以改善低温还原时的RDI指标。给出了烧结矿的孔隙率指标和冶金性能的研究结果，特别是烧结矿在还原过程中的溃散性和温度区间的软化-熔化特性。说明了在铁矿混合料中采用高铁含量精矿的可行性。

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Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information

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