The Properties of Carbon Blends in Submerged arc Furnaces

G. Surup, Nicholas Smith-Hanssen, M. Tangstad
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引用次数: 3

Abstract

Charcoal was investigated as a renewable reducing agent to replace fossil fuel reductants in the metallurgical industry. Since a stepwise transition from fossil fuel-based reductants to renewable charcoal is expected, three charcoal blending ratios (20, 40 and 60%) were analysed. A procedure to determine the mechanical, chemical and electrical properties of carbon blends for submerged arc furnaces (SAF) was developed and evaluated by the stated three blending ratios of charcoal and metallurgical coke. The samples were investigated after heat treatment under pyrolysis and CO2 gasification conditions. The higher reactive carbon material (charcoal) was consumed by the Boudouard reaction, reducing its mechanical stability and affecting the generation of fines in consecutive analyses, e.g. the mechanical strength to withstand abrasion decreased. Chemical analysis showed only minor interaction between the carbon materials under pyrolysis conditions. The electrical resistivity of the carbon bed was mainly affected by the heat-treatment temperature and volume fraction of the carbon materials, in which a linear interpolation resulted in an acceptable accuracy. A volume fraction of at least 40% conductive material (coke) was required to enable an electrical conduction through the packed bed.
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埋弧炉中碳共混物的性能
研究了木炭作为一种可再生还原剂在冶金工业中替代化石燃料还原剂的应用。由于预计将逐步从化石燃料还原剂过渡到可再生木炭,因此分析了三种木炭混合比例(20%,40%和60%)。开发了一种测定埋弧炉(SAF)碳共混物力学、化学和电学性能的方法,并通过规定的木炭和冶金焦的三种共混比例进行了评价。在热解和CO2气化条件下对样品进行热处理。高活性碳材料(木炭)被Boudouard反应消耗,降低了其机械稳定性,影响了连续分析中细粒的生成,如耐磨损的机械强度下降。化学分析表明,在热解条件下,碳材料之间的相互作用很小。碳床的电阻率主要受热处理温度和碳材料体积分数的影响,其中线性插值的精度可以接受。导电材料(焦炭)的体积分数至少要达到40%,才能通过填料床实现导电。
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