利用机器视觉和比色测温法研究钒钛高炉中的杜耶尔燃烧火焰温度

Metals Pub Date : 2024-04-25 DOI:10.3390/met14050499
Haoyu Cai, Ziming Zhu, Dongdong Zhou
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引用次数: 0

摘要

钢铁工业是国民经济和国计民生的重要基础,在炼铁过程中会产生大量的二氧化碳气体,约占钢铁工业二氧化碳气体产生量的 70%。因此,减少污染、提高竞争力的关键技术是提高高炉生产的稳定性和铁水质量。由于钒钛渣流动性低,钒钛高炉对温度控制的操作要求与传统高炉相比有很大不同,因此必须将所需的热金属温度保持在波动较小的窄范围内。此外,在高炉的日常运行过程中,下部的调节参数对风口燃烧火焰温度也有很大影响。目前,还没有对钒钛高炉风口燃烧火焰温度进行在线检测和分析的相关研究。本研究利用在线检测系统对建龙钢铁公司一座 500 立方米钒钛高炉中四个风口的温度进行了检测。然后利用比色测温方法计算出不同时间和四个不同位置的风口燃烧火焰温度。随后,研究了校准分析、成像参数和高炉不同方向的温度变化趋势。这项研究不仅为了解钒钛冶炼高炉的运行规律和提高可视化程度提供了新方法,还为高炉的智能化和低碳运行提供了技术支持。
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 Tuyere Combustion Flame Temperature in Vanadium and Titanium Blast Furnaces by Machine Vision and Colorimetric Thermometry
The steel industry is an important foundation of the national economy and the livelihood of the people, producing a large amount of carbon dioxide gas, accounting for about 70% of the carbon dioxide gas generated in the steel industry, which occurs during the ironmaking process. Therefore, the key technology to reduce the pollution and improve competitiveness is to increase the stability of blast furnace production and the quality of hot metal. Since the operation requirements for temperature control in the vanadium-titanium blast furnace are dramatically different compared to the traditional ones due to the low fluidity of vanadium-titanium slag, maintaining the required hot metal temperature within a narrow range with smaller fluctuations is essential. In addition, the adjustment parameters of the lower part have a significant influence on the tuyere combustion flame temperature during the daily operation of blast furnaces. At present, there is no relevant research on the online detection and analysis of vanadium-titanium blast furnace tuyere combustion flame temperature. In this study, the temperature of four tuyeres in a 500 m3 vanadium and titanium blast furnace at Jianlong Steel was detected by an online detection system. The tuyere combustion flame temperature was then calculated using colorimetric temperature measuring methodology at various times and at four distinct locations. After that, the calibration analyses, imaging parameter and the temperature tendencies in different directions of the blast furnace were investigated. This study not only offers new methods for understanding the regularity of operation and increasing the degree of visualization in vanadium and titanium smelting blast furnaces but also provides technical support for intelligent and low-carbon operation in blast furnaces.
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