Know-How of the Effective Use of Carbon Electrodes with a through Axial Hole in the Smelting of Silicon Metal

Q1 Mathematics

Applied Sciences Pub Date : 2024-09-17 DOI:10.3390/app14188346

Alexandr A. Ilin, Almas S. Yerzhanov, Nikolay N. Zobnin, Nina V. Nemchinova, Victor I. Romanov

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Abstract

This article describes elements of the know-how of using carbon electrodes produced using the technology of molding around a rod when smelting silicon metal. Application of our know-how will dramatically increase the competitiveness of silicon metal production. Experts’ concerns regarding the use of such electrodes were that such electrodes have a through axial hole. This significantly reduces the mechanical strength of such electrodes, which can presumably lead to problems associated with the breakage of the working side of the electrode, which is immersed in the smelting space of the furnace under the charge layer. Industrial testing of such electrodes was carried out in a 30 MVA furnace of “Tau-Ken Temir” LLP. During testing, we used an approach previously developed by our team for working with a furnace in the process of smelting silicon metal. In particular, we used an interval between top treatments of about 30 min and adhered to the principles of balanced smelting, i.e., provided a balance between the intensity of the uniform supply of the charge into the furnace and the current active electrical power. Industrial testing carried out over four weeks confirmed the stability of the operation of cheaper carbon electrodes with a through axial hole. The recovery of silicon into finished products was also improved to 88–89% and the specific energy consumption was reduced to 11.2–12.1 MWh/t of silicon metal from the initial value 14,752 MWh/t. Thus, we received additional evidence for the effectiveness of our approach in furnace operating compared to an approach based on the ultimate provision of gas and permeability of the furnace top due to excessively intense processing of the top and an uncontrolled, uneven supply of charge to the furnace.

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在冶炼金属硅过程中有效使用带轴向通孔碳电极的诀窍

本文介绍了在冶炼金属硅时使用围绕棒成型技术生产的碳电极的专业技术要点。应用我们的专有技术将大大提高金属硅生产的竞争力。专家们对使用这种电极的担忧是，这种电极有一个轴向通孔。这大大降低了此类电极的机械强度，可能会导致电极工作面破损的问题，因为电极工作面浸没在炉子的熔炼空间中，位于炉料层之下。我们在 "Tau-Ken Temir "有限责任公司的 30 MVA 熔炉中对这种电极进行了工业测试。在测试过程中，我们采用了我们团队之前开发的一种方法，用于熔炼金属硅过程中的熔炉。特别是，我们采用了顶部处理间隔时间约为 30 分钟的方法，并坚持平衡冶炼原则，即在向熔炉均匀供应炉料的强度和当前有效电功率之间保持平衡。经过四周的工业测试，证实了带有轴向通孔的廉价碳电极的运行稳定性。成品硅的回收率也提高到了 88-89%，金属硅的比能耗从最初的 14752 兆瓦时/吨降低到了 11.2-12.1 兆瓦时/吨。因此，我们获得了更多证据，证明我们的方法与基于最终提供煤气的方法以及由于炉顶加工强度过高和炉料供应不均衡而导致的炉顶渗透性相比，在炉子运行方面更加有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Sciences Mathematics-Applied Mathematics

CiteScore

6.40

自引率

0.00%

发文量

审稿时长

11 weeks

期刊介绍： APPS is an international journal. APPS covers a wide spectrum of pure and applied mathematics in science and technology, promoting especially papers presented at Carpato-Balkan meetings. The Editorial Board of APPS takes a very active role in selecting and refereeing papers, ensuring the best quality of contemporary mathematics and its applications. APPS is abstracted in Zentralblatt für Mathematik. The APPS journal uses Double blind peer review.