在气体动力学模拟台上采用相干喷嘴吹转炉的可行性研究

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES
T. Golub, L. Molchanov, S. Semykin
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引用次数: 0

摘要

介绍BOF技术具有不可否认的优势,在结构钢生产中处于领先地位。问题陈述。在大多数乌克兰转炉车间的条件下,当吹塑参数在活动期间发生显著变化时(衬里的温度、工作空间的尺寸、废金属的质量、铁的温度和成分),并且用传统的拉瓦尔喷嘴以恒定的流速吹制熔池,有时不可能确保具有高达CO2的CO后燃烧速率的稳定吹扫过程。因此,氧气转化的主要问题之一是吹送装置,特别是喷嘴的设计的改进。意图本研究的目的是研究在转炉顶部吹氧时使用相干型喷嘴的可能性。材料和方法。在研究中,我们使用了在固定的、相等的射流输出一般条件下(环形间隙占喷嘴总面积的百分比,%:75、65、50、45、35、25)具有不同中心部分与周边比率的相干设计实验室喷嘴的样本。通过计算射流动量、称重和在气体流速达到2M时拍摄阴影照片对其进行了研究。并将结果与圆柱形喷嘴的结果进行了比较。后果当气体以2M供应时,外部部分的份额为65-75%的相干型喷嘴有助于形成比具有多节点结构的圆柱形喷嘴宽1.5-1.6倍的射流。这有助于使射流动量增加45-55%。结论:由于射流接触的表面积增加,可推荐将外部份额为75%的相干型喷嘴设计为氧气转化器后燃烧顶部氧喷枪的第二级或第二级喷嘴。由于额外氧气射流的反应表面积增加,来自废转炉气体的CO的后燃烧效率预计将增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
STUDYING THE POSSIBILITY OF USING COHERENT TYPE NOZZLES FOR BOF BLOWING AT THE GAS DYNAMIC SIMULATION STAND
Introduction. The BOF technology is the leading one in the production of structural steel due to its undeniable advantages.Problem Statement. In the conditions of most Ukrainian converter shops, when the blowing parameters change significantly during the campaign (temperature of the lining, dimensions of the workspace, quality of scrap metal, temperature and composition of iron), and the bath is blown at a constant flow rate with conventional Laval nozzles, sometimes it is impossible to ensure a stable purging process with high rate of post-combustion of CO up to CO2. Therefore, one of the main problems of oxygen conversion is the improvement of the designs of blowing devices, in particular, the nozzles.Purpose. The purpose of this research is to study the possibility of using nozzles of the coherent type for the top oxygen blowing of the converter.Material and Methods. In the research, we have used samples of coherent-design laboratory nozzles having different central part-to-periphery ratio under fixed equal general conditions of jet output (percentage of the annular gap to the total area of the nozzle, %: 75, 65, 50, 45, 35, 25). They have been studied by calculating the jet momentum, through weighing and taking shadow shots when the gas flow velocity reaches 2 M. The results have been compared with those for the cylindrical nozzle.Results. When the gas is supplied at 2 M, the coherent-type nozzles with a fraction of the outer part of 65—75% contribute to the formation of 1.5—1.6 times wider jets as compared with the cylindrical nozzle, with a multinode structure. It helps to increase the jet momentum by 45—55%.Conclusions. The design of a coherent type nozzle with an outer part share of 75% can be recommended to be used as the second tier or the second level nozzles of the top oxygen lance for post-combustion in an oxygen converter due to an increase in the surface area of the jet contact. The efficiency of post-combustion of CO from waste converter gases is expected to increase due to the increasing reaction surface area of additional oxygen jets.
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来源期刊
Science and innovation
Science and innovation MULTIDISCIPLINARY SCIENCES-
CiteScore
1.10
自引率
0.00%
发文量
55
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