提高转炉炉顶吹氧低压电位应用方法的效率

S. Semykin, T. Golub, S. Dudchenko
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It includes the method of low­voltage potentials application developed in the Iron and Steel Institute of Z.I. Nekrasov of the NAS of Ukraine (ISI NASU). Purpose. To study the possibilities and to evaluate ways to improve the efficiency of the method of low­voltage potential application for top oxygen blowing in the converter. Materials and Methods. The tests were carried out on a 160­ton industrial oxygen converter equipped with a device for low­voltage potential application on the lance and a metal bath with imposition of a negative or positive polarity to the lance throughout the blowing period. The top blowing option through five nozzle tip has been studied while producing medium carbon steel with intermediate deslagging. Results. The analysis of the array of experimental industrial heats carried out in 160­t converters in conditions of low­voltage potential application, has made it possible to identify the following patterns of changes in the electrical characteristics of the bath from the blowing parameters. It was established that regardless of the polarity of the potential at the lance, the magnitude of the values of current and useful power of impact in lance–metal bath circuit over blowing periods depends on: the level of the voltage at the source of current and the height of the lance in the converter's volume above the metal bath. Thus, it is necessary to maintain the position of the lance: from the beginning of the blowing, depending on the location of the scrap, at a height of 0.9—1.0 m, in the main blowing period, at 1.0—1.2 m, and in the final period, at 1.0—1.1 m, which is made taking into account the effective support of the current during the blowing at an adequate level to achieve the maximum level of the effect of the low voltage potential application. Conclusions. 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цирування:semykin,s.i.,Golub,t.s.和Dudchenko,s.a.提高低压电位应用效率转炉顶部吹氧的方法。Nauka innov。2020.V.16,第2号。第79-86页。https://doi.org/10.15407/scin16.02.079介绍转炉吹氧的主要因素是氧射流与熔池的相互作用。它决定了流体力学、传热和传质、熔渣的形成,并导致金属损失,排放物会影响液态钢的产量。问题陈述。在现代冶金实践条件下,最有前途的研究旨在改善渣的形成,提高钢液的产量。它处理了金属冶炼过程中的电物理效应。它包括乌克兰国家科学院内克拉索夫钢铁研究所(ISI NASU)开发的低压电位应用方法。意图研究在转炉顶部吹氧时应用低压电位方法的可能性,并评估提高效率的方法。材料和方法。试验在一台160吨的工业氧气转换器上进行,该转换器配备了一个在喷枪上施加低电压电位的装置和一个在整个吹扫期间对喷枪施加负极性或正极性的金属浴。研究了中碳钢中间除渣生产过程中五喷嘴顶吹方案。后果在低压电位应用条件下,对160吨转换器中进行的一系列实验性工业加热进行了分析,从而可以从吹风参数中识别出熔池电气特性的以下变化模式。已经确定,无论喷枪电势的极性如何,喷枪-金属浴回路在吹扫期间的电流值和有用冲击功率的大小取决于:电流源处的电压水平和转换器体积中喷枪在金属浴上方的高度。因此,有必要保持喷枪的位置:从吹扫开始,根据废料的位置,在0.9-1.0 m的高度,在主吹扫期间,在1.0-1.2 m,在最后阶段,在1.0-11.1 m,这是在考虑到在吹扫期间电流在适当水平的有效支持以实现低电压电势施加的效果的最大水平的情况下进行的。结论。对160 t变流器中推荐的吹扫模式进行的工业测试表明,与之前开发并在工厂接受的应用模式相比,使用低电压电势应用的效率几乎翻了一番。
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Improving the Efficiency of the Low-Voltage Potential Application Method at Top Oxygen Blowing in Converter
цитування: semykin, s.i., Golub, t.s., and Dudchenko, s.a. improving the Efficiency of the low-Voltage potential application Method at top oxygen Blowing in Converter. Nauka innov. 2020. V. 16, no. 2. p. 79— 86. https://doi.org/10.15407/scin16.02.079 Introduction. The main factor of oxygen blowing in converters is the interaction of oxygen jet with the molten metal bath. It determines hydrodynamics, heat and mass transfer, slag formation and causes metal losses with emissions affecting the yield of liquid steel. Problem Statement. The most promising research aimed at improving the slag formation and increasing the yield of liquid steel in the conditions of modern metallurgical practice. It deals with the electro physical effects on the metal smelting process. It includes the method of low­voltage potentials application developed in the Iron and Steel Institute of Z.I. Nekrasov of the NAS of Ukraine (ISI NASU). Purpose. To study the possibilities and to evaluate ways to improve the efficiency of the method of low­voltage potential application for top oxygen blowing in the converter. Materials and Methods. The tests were carried out on a 160­ton industrial oxygen converter equipped with a device for low­voltage potential application on the lance and a metal bath with imposition of a negative or positive polarity to the lance throughout the blowing period. The top blowing option through five nozzle tip has been studied while producing medium carbon steel with intermediate deslagging. Results. The analysis of the array of experimental industrial heats carried out in 160­t converters in conditions of low­voltage potential application, has made it possible to identify the following patterns of changes in the electrical characteristics of the bath from the blowing parameters. It was established that regardless of the polarity of the potential at the lance, the magnitude of the values of current and useful power of impact in lance–metal bath circuit over blowing periods depends on: the level of the voltage at the source of current and the height of the lance in the converter's volume above the metal bath. Thus, it is necessary to maintain the position of the lance: from the beginning of the blowing, depending on the location of the scrap, at a height of 0.9—1.0 m, in the main blowing period, at 1.0—1.2 m, and in the final period, at 1.0—1.1 m, which is made taking into account the effective support of the current during the blowing at an adequate level to achieve the maximum level of the effect of the low voltage potential application. Conclusions. Industrial testing of the recommended blow mode in 160­t converters showed the possibility to almost double the efficiency of using low­voltage potential application compared with the previously developed and accepted at the plant mode of its application.
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