Optimal operation strategy extraction for blast furnace ironmaking process based on fuzzy C-means clustering

2010 8th World Congress on Intelligent Control and Automation Pub Date : 2010-07-07 DOI:10.1109/WCICA.2010.5554270

Shihua Luo, Xihua Chen, Jiu-sun Zeng

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Abstract

Two key variables in blast furnace ironmaking - silicon content in hot metal ([Si]) and hot metal temperature (FeW) are considered and used to represent the thermal state in hot metal, while hourly output of hot metal (Fe/H) is used to represent the efficiency of ironmaking. The data is preprocessed by wavelet analysis to denoise and remove outliers. Fuzzy C-means clustering (FCM) is then used to identify the relation between efficiency of ironmaking and smelting intensity by using the processed data. Simulation based on data collected from No.7 blast furnace of Handan Steel show that the mean value of historical data (0.45) is not the stable thermal state of blast furnace. The system is more stable and has higher smelting intensity when silicon content is around 0.41, which shows that “low silica smelting practice” attempt in the steel industry can lower the energy consumption while keeping the smelting intensity and smooth production. It is proved that appropriate level of silicon content will lead to safe, smooth production with lower energy consumption and higher production.

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基于模糊c均值聚类的高炉炼铁过程优化操作策略提取

高炉炼铁的两个关键变量——铁水中的硅含量([Si])和铁水温度(FeW)被考虑并用来表示铁水中的热状态，而铁水的每小时产量(Fe/H)被用来表示炼铁效率。采用小波分析对数据进行预处理，去噪和去除异常值。然后利用处理后的数据，利用模糊c均值聚类(FCM)识别炼铁效率与冶炼强度之间的关系。对邯钢7号高炉的实测数据进行了仿真，结果表明，历史数据的平均值(0.45)并不是高炉的稳定热状态。当硅含量在0.41左右时，体系更加稳定，冶炼强度也更高，说明钢铁行业“低硅冶炼实践”的尝试可以在保持冶炼强度和顺利生产的同时降低能耗。实践证明，适当的硅含量可以实现安全、平稳的生产，降低能耗，提高产量。

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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2010 8th World Congress on Intelligent Control and Automation

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