Aluminothermic Reduction Kinetics of Calcium Silicate Slag for Silicon Alloy Production

Metals Pub Date : 2024-05-21 DOI:10.3390/met14060604
Harald Philipson, Maria Wallin, K. Einarsrud
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Abstract

We investigated the reaction kinetics and initial chemical conditions in the production of silicon alloys, employing aluminum as the reductant for calcium silicate slag, to enhance process economics and scalability to industrial levels. The apparent kinetics and transient chemical conditions were studied by immersing solid aluminum into molten slag, allowing the reaction to proceed for varying durations without external agitation, before quenching the reaction for chemical and microscopic analyses of the resulting silicon alloy and slag. The majority of the conversion was observed within the first 15 s at 1650 °C, driven by significant chemical interactions and interfacial turbulence introduced upon aluminum immersion. For Al-SiO2 stoichiometries ranging from 0.5 to 1.2, the slag phase reaction conformed to first-order kinetics during the initial two minutes, when it approached equilibrium. The mass transfer coefficients for Al2O3 were estimated at 1–2 × 10−4 m/s, comparable to those for SiO2 and CaO. A constant mass transfer coefficient could not be established for stoichiometries of 1.6 and 2, as these deviated from the standard slag mass transfer relationship and did not adhere to established relationships. Despite near-complete reactions, alloy–slag mixing was extensive, decreasing with lower stoichiometry values.
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用于硅合金生产的硅酸钙炉渣铝热还原动力学
我们研究了硅合金生产过程中的反应动力学和初始化学条件,采用铝作为硅酸钙熔渣的还原剂,以提高工艺的经济性和工业水平的可扩展性。通过将固态铝浸入熔融炉渣中,在没有外部搅拌的情况下让反应持续不同的时间,然后淬火,对生成的硅合金和炉渣进行化学和显微分析,从而研究了表观动力学和瞬态化学条件。大部分转化是在 1650 °C 温度下的最初 15 秒内完成的,这主要是由于铝浸入时产生了显著的化学作用和界面湍流。对于 0.5 至 1.2 的 Al-SiO2 化学计量比,渣相反应在接近平衡的最初两分钟内符合一阶动力学。Al2O3 的传质系数估计为 1-2 × 10-4 m/s,与 SiO2 和 CaO 的传质系数相当。1.6 和 2 的化学计量比无法确定恒定的传质系数,因为它们偏离了标准炉渣传质关系,不符合既定的关系。尽管反应接近完全,但合金-熔渣的混合范围很广,随着化学计量值的降低而减少。
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