A three-dimensional mathematical model was established to predict the multiphase flow, motion and dispersion of desulfurizer particles, and desulfurization of hot metal during the Kanbara reactor (KR) process. The turbulent kinetic energy–turbulent dissipation rate (k–ε) turbulence model, volume-of-fluid multiphase model, discrete-phase model, and unreacted core model for the reaction between the hot metal and particles were coupled. The measured sulfur content of the hot metal with time during the actual KR process was employed to valid-ate the current mathematical model. The distance from the lowest point of the liquid level to the bottom of the ladle decreased from 3170 to 2191 mm when the rotation speed increased from 30 to 110 r/min, which had a great effect on the dispersion of desulfurizer particles. The crit-ical rotation speed for the vortex to reach the upper edge of the stirring impeller was 70 r/min when the immersion depth was 1500 mm. The desulfurization rate increased with the increase in the impeller rotation speed, whereas the influence of the immersion depth was relatively small. Formulas for different rotation parameters on the desulfurization rate constant and turbulent energy dissipation rate were proposed to evaluate the variation in sulfur content over time.

Yanyu Zhao;Wei Chen;Shusen Cheng;Lifeng Zhang

School of Metallurgical and Ecological Engineering,University of Science and Technology Beijing,Beijing 100083,China;School of Mechanical Engineering,Yanshan University,Qinhuangdao 066004,China;School of Mechanical and Materials Engineering,North China University of Technology,Beijing 100144,China

矿物冶金与材料学报

[1]Yanyu Zhao;Wei Chen;Shusen Cheng;Lifeng Zhang-.Mathematical simulation of hot metal desulfurization during KR process coupled with an unreacted core model)[J].矿物冶金与材料学报,2022(04):758-766

Kanbara

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