矿石冶炼炉生产硅工艺研究及工艺优化

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING
A. Protopopov, M. Protopopov, E. Suleimenov, Zh. Aimenov, R. Altynbekov
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引用次数: 0

摘要

本文介绍了在工业电弧炉中优化硅冶炼方式的生产试验结果。熔化过程的主要因素是电荷组分的大小和加热的温度范围。在950至14100C的温度范围内,反应区中的加料加热速率对生产率有特殊影响。在这个温度范围内,石英岩片上形成了耐火碳化硅,这导致反应区中的电流大小下降并冻结。形成的氧化层将电极转移到电荷电导率更高的区域,这导致通过电荷减少层的一氧化碳排放增加。这种过程的校正需要提高反应区的温度和熔体的持续时间。根据熔炉的功率和反应区的大小,开发了一种计算石英岩馏分大小的方法。提出了一个简化计算的例子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of silicon production process in ore-smelting furnace and optimization of technological process
This article presents the results of production experiments to optimize the modes of silicon smelting in an industrial arc furnace. The main factors of the melting process are the size of the fractions of the charge components and the temperature regime of heating. The rate of charge heating in the reaction zone in the temperature range from 950 to 14100C has a special effect on productivity. In this temperature range, the formation of refractory silicon carbide on pieces of quartzite was established, which causes a drop in the magnitude of the electric current in the reaction zone and its freezing. The gornisage, which is formed, displaces the electrodes into the zone of greater charge electrical conductivity - up, which leads to an increase in silicon monoxide emissions through the reduced charge layer. Correction of such a process requires an increase in the temperatures in the reaction zone and the duration of the melt. A method has been developed for calculating the size of quartzite fractions, depending on the power of the furnace and the size of the reaction zone. An example of a simplified calculation is proposed.
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