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Numerical Simulation of Effects of Impeller Immersion Depth and Diameter on Flow Fields and Particle Dispersion in KR Stirring Desulfurization in Qingdao Steel

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ã€Authorã€‘ JIN Wenchao;YANG Shishan;LIU Siwen;ZHU Min;LU Wei;ZHANG Haitao;School of Metallurgical and Ecological Engineering, University of Science and Technology Beijing;The Steelmaking Plant of Qingdao Special Steel Co., Ltd.;

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ã€Abstractã€‘ Based on Fluent software, numerical simulation on desulfurization with KR stirring was carried out to analyze the effect of impeller immersion depth and diameter on flow field and particle dispersion. The results showed that the immersion of the impeller should be not too deep nor too shallow, otherwise it will have a bad influence on the global velocity of the flow and particle dispersion. It is suitable to maintain the immersion depth at 750-900 mm. An excessively small diameter of the impeller will make low-velocity flow or incomplete particle dispersion. An excessively big diameter of the impeller will make a limited improvement of mixing, uneven particle dispersion, and increasing consumption of refractory and power. It is suitable for the impeller to keep the top diameter at 1 180-1 280 mm.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ KR stirring desulfurizationï¼› immersion depthï¼› impeller diameterï¼› flow fieldï¼› particle dispersionï¼› numerical simulationï¼›

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Numerical Simulation of Effects of Impeller Immersion Depth and Diameter on Flow Fields and Particle Dispersion in KR Stirring Desulfurization in Qingdao Steel

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