利用不同氧化亚铁资源进行隧道炉直接还原的优化

S. Ahmadi, H. Nuranian
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摘要

如今,人们非常希望最大限度地利用现有资源和回收废物。热轧钢的副产物是钢渣,作为废料处理会对环境产生影响。因此,在炼铁生产中使用磨机规模具有经济效益和环境效益。本工作尝试在隧道窑还原制铁过程中,使用不适合造球的磨矿垢和铁精矿。采用非炼焦煤和石灰石作为还原剂。在还原试验中,不情愿与氧化亚铁的比例保持不变。还原过程在1150℃的坩埚中进行。通过对还原样品中金属铁含量的分析表明,该磨屑可以成功地用于直接还原工艺生产海绵铁。在轧机鳞—铁球团、铁精矿—铁球团、铁精矿—磨鳞混合物中,70ms—30ip、70ic—30ip、70ic—30ms为最佳组合。XRD和STA结果表明,还原利用的氧化亚铁混合物的最佳热处理温度为1150℃,热处理时间为1 h。
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Optimization of direct reduction in tunnel furnace using different resources of ferrous oxides
Nowadays it is highly desired to maximize using of existing resource and recycle waste materials. The by-product of steel being hot rolled is mill scale that disposing of it as waste material has environmental effects. Therefore, the use of mill scale in iron production is economically and environmentally beneficial. In the current work, an attempt has been made to use mill scale and iron concentrate which are not applicable to pelletized, in the reduction process with tunnel kiln for iron manufacturing. Non-coking coal and limestone were utilized as reducing agents. The reluctant to ferrous oxide ratio was kept constant during the reduction tests. The reduction process was carried out in a crucible at 1150 °C. The analyses of the metal Fe content in the reduced samples show that the mill scale can be used successfully in the direct reduction process to produce sponge iron.  In the rolling mill scale-iron pellet, iron concentrate-iron pellet, and iron concentrate-mill scale mixtures, the compositions 70MS-30IP, 70IC-30IP, and 70IC-30MS were optimum. The result of XRD and STA results revealed that the optimal heat treatment setting for reducing utilized ferrous oxide mixtures is 1150 °C for 1 h.
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