Litcius/Paper detail

Continuous Prediction Model of Carbon Content in 120 t Converter Blowing Process

Dazhi Wang, Fang Gao, Lidong Xing, Jianhua Chu, Yanping Bao

2022Metals14 citationsDOIOpen Access PDF

Abstract

A continuous prediction model of carbon content of 120 t BOF is established in this paper. Based on the three-stage decarburization theory and combined with the production process of 120 t converter, the effects of oxygen lance height and top blowing oxygen flow rate are also considered in the model. The explicit finite difference method is used to realize continuous prediction of carbon content in the converter blowing process. The model parameters such as ultimate carbon content in molten pool are calculated according to the actual data of 120 t BOF, which improves the hit rate of the model. Process verification and end-point verification for the continuous prediction model have been carried out, and the results of process verification indicate that the continuous prediction model established in the paper basically accords with the actual behavior of decarburization. Moreover, the hit ratio of the continuous prediction model reached 85% for the prediction of end-point carbon content within a tolerance of ±0.02%.

Topics & Concepts

DecarburizationProcess (computing)Content (measure theory)Carbon fibersBasic oxygen steelmakingContinuous flowVolumetric flow rateProcess engineeringComputer scienceSteelmakingMaterials scienceThermodynamicsMathematicsAlgorithmEngineeringMetallurgyBiochemical engineeringPhysicsOperating systemComposite numberMathematical analysisMetallurgical Processes and ThermodynamicsMetallurgy and Material FormingIron and Steelmaking Processes