Predicting Alloying Element Yield in Converter Steelmaking Using t-SNE-WOA-LSTM

Author:

Liu Xin1,Qu Xihui2,Xie Xinjun2,Li Sijun2,Bao Yanping1,Zhao Lihua3

Affiliation:

1. State Key Laboratory of Advanced Metallurgy, University of Science & Technology Beijing, Beijing 100083, China

2. Shan Dong Iron and Steel Co., Ltd., Jinan 271104, China

3. Metallurgical and Ecological Engineering School, University of Science & Technology Beijing, Beijing 100083, China

Abstract

The performance and quality of steel products are significantly impacted by the alloying element control. The efficiency of alloy utilization in the steelmaking process was directly related to element yield. This study analyses the factors that influence the yield of elements in the steelmaking process using correlation analysis. A yield prediction model was developed using a t-distributed stochastic neighbor embedding (t-SNE) algorithm, a whale optimization algorithm (WOA), and a long short-term memory (LSTM) neural network. The t-SNE algorithm was used to reduce the dimensionality of the original data, while the WOA optimization algorithm was employed to optimize the hyperparameters of the LSTM neural network. The t-SNE-WOA-LSTM model accurately predicted the yield of Mn and Si elements with hit rates of 71.67%, 96.67%, and 99.17% and 57.50%, 89.17%, and 97.50%, respectively, falling within the error range of ±1%, ±2%, and ±3% for Mn and ±1%, ±3%, and ±5% for Si. The results demonstrate that the t-SNE-WOA-LSTM model outperforms the backpropagation (BP), LSTM, and WOA-LSTM models in terms of prediction accuracy. The model was applied to actual production in a Chinese plant. The actual performance of the industrial application is within a ±3% error range, with an accuracy of 100%. Furthermore, the elemental yield predicted by the model and then added the ferroalloys resulted in a reduction in the elemental content of the product by 0.017%. The model enables accurate prediction of alloying element yields and was effectively applied in industrial production.

Funder

National Natural Science Foundation of China

Publisher

MDPI AG

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