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End-point dynamic control of basic oxygen furnace steelmaking based on improved unconstrained twin support vector regression 被引量:1

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摘要 In order to improve the end-point hit rate of basic oxygen furnace steelmaking,a novel dynamic control model was proposed based on an improved twin support vector regression algorithm.The controlled objects were the end-point carbon content and temperature.The proposed control model was established by using the low carbon steel samples collected from a steel plant,which consists of two prediction models,a preprocess model,two regulation units,a controller and a basic oxygen furnace.The test results of 100 heats show that the prediction models can achieve a double hit rate of 90%within the error bound of 0.005 wt.%C and 15℃.The preprocess model was used to predict an initial end-blow oxygen volume.However,the double hit rate of the carbon con tent and temperature only achieves 65%.Then,the oxygen volume and coolant additi ons were adjusted by the regulation units to improve the hit rate.Finally,the double hit rate after the regulation is reached up to 90%.The results indicate that the proposed dynamic control model is efficient to guide the real production for low carbon steel,and the modeling method is also suitable for the applications of other steel grades.
出处 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2020年第1期42-54,共13页
基金 This work was supported by Liaoning Province PhD Start-up Fund(No.201601291) Liaoning Province Ministry of Education Scientific Study Project(No.2O17LNQN11).
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