Affiliation:
1. State Key Laboratory of Advanced Metallurgy University of Science and Technology Beijing Beijing 100083 China
2. State Key Laboratory of Advanced Metallurgy, Technical Support Center for Prevention and Control of Disastrous Accidents in Metal Smelting University of Science and Technology Beijing Beijing 100083 China
3. College of Materials Science and Engineering Taiyuan University of Science and Technology Taiyuan 030024 China
Abstract
The converter is a complex, high temperature, high pressure reactor with limited internal moitoring. At present, data‐driven models mainly focus on the prediction differences between algorithms, and there is relatively little analysis of the impact of different hyperparameters on prediction accuracy. Taking a 120 t converter in a Chinese steel plant as an example, this paper explores the application of particle swarm optimization‐back propagation neural network (PSO‐BP) in converter temperature prediction. First, the Pauta criterion or Box plot method was used to preprocess the data by prescreening. Subsequently, the influence of the activation function, learning rate, and number of hidden layer nodes of BP on the prediction accuracy of the endpoint temperature were explored. Then we investigated the influence of PSO parameters on the optimal result of BP initial value. Comparing the temperature prediction hit rate before and after optimization, the BP model has hit rates of 63.64%, 79.22%, and 87.45% within ±10, ±15, and ±20 °C, respectively, and the PSO‐BP model has hit rates of 68.40%, 84.85%, and 94.81%, respectively. In comparison, PSO‐BP extracts data features more accurately, has higher stability, and has better accuracy in predicting the endpoint temperature of the converter.
Reference31 articles.
1. Review on the study of metallurgical process engineering
2. J.Kačur M.Laciak P.Flegner J.Terpák M.Durdán G.Tréfa inProc. 2019 20th Inter. Carpathian Control Conf.(ICCC) Krakow May2019 p.1.