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70 t顶底复吹转炉石灰石双渣脱磷工艺实践

Practice of Limestone Double Slag Dephosphorization Process in 70 t Top-Bottom Combined Blowing Converter
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摘要 70 t顶底复吹转炉石灰石双渣脱磷工艺实践表明:转炉石灰石双渣工艺一次倒炉最佳温度控制范围为1370℃~1420℃,碱度范围1.7~2.1,w(FeO)范围17%~21%,一倒脱磷率平均为54.2%;脱碳阶段使用石灰石造渣,产生的CO2提高熔池搅拌强度优化脱磷动力学条件;终渣碱度控制在3.2~3.5,w(FeO)含量控制在13.8%~14.9%,出钢温度在1640℃~1660℃时,脱磷率平均73.5%;相比脱磷期加入石灰石,脱碳期加石灰石双渣工艺钢铁料消耗降低约0.9 kg/t;与石灰双渣法相比,石灰石双渣工艺降本约7.31元/t。 The practice of Limestone double slag dephosphorization process in 70 t top-bottom combined blowing converter shows that the optimal first deslagging temperature range was 1370˚C~1420˚C, when the basicity was controlled at 1.7~2.1, the w(FeO) in slag at 17%~21%, the average dephosphorization rate was 54.2% in limestone double slag dephosphorization process. The CO2 generated in decarburization period in which adding limestone improved the stirring intensity of bath and dephosphorization kinetic conditions. The average dephosphorization rate was 73.5% when the basicity of final slag was controlled at 3.2~3.5, the w(FeO) in slag at 13.8%~14.9%, and the tapping temperature was 1640˚C~1660˚C. Compared with adding limestone in dephosphorization period, the consumption of hot metal and scrap of double slag, adding limestone in the process of decarburization period was reduced by about 0.9 kg/t;Compared with lime double slag process, the cost of limestone double slag process was reduce about 7.31 yuan per ton steel.
作者 薛顺 赵滨 潘军
机构地区 马鞍山钢铁股份特钢公司 马鞍山钢铁股份公司长材事业部
出处 《冶金工程》 2021年第4期222-229,共8页 Metallurgical Engineering
关键词 一次倒炉温度 w(FeO) 碱度 石灰石造渣 脱磷率
分类号 TF7 [冶金工程—钢铁冶金]
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  • 1朱志红.低磷钢生产工艺研究[J].重型机械科技,2005(3):14-19. 被引量:12
  • 2黄希祜.钢铁冶金原理[M].3版.北京:冶金工业出版社,2004.
  • 3Turkdogan E T,Pearson J. Activities of Constituents of Iron and Steelmaking Slags[J], Journal of the Iron and Steel Insti- tute, 1953(3) :217.
  • 4Turkdogan E T. Assessment of P205 Activity Coefficients in Molten Slags[J]. ISIJ International,2000,40(10) : 964.
  • 5Suito H, Inoue R. Phosphorus Distribution Between MgO- Saturated CaO-FeO-SiO2-P2O5-MnO Slags and Liquid Iron [J]. Transactions ISIJ, 1984,24 : 40.
  • 6Ban-ya B. Mathematical Expression of Slag-Metal Reactions in Steelmaking Process by Quadratic Formalism Based on the Regular Solution Model[J]. ISIJ International, 1993,33 ( 1 ) : 2.
  • 7Suito H, Inoue R, Takada M. Phosphorus Distribution Be- tween Liquid Iron and MgO Saturated Slags of the System CaO-MgO-FeOx-SiO2[J]. Transactions ISIJ, 1981,21: 250.
  • 8Selin R. Studies on the MgO Solubility in Complex Steelmak- ing Slags in Equilibrium With Liquid Iron and Distribution of Phosphorus and Vanadium Between Slag and Metal at MgO Saturation. Part II. the Total System Including Al2O3, SiO2, and TiO2[J]. Seand J Metallurgy, 1991, 20: 318.
  • 9Winkler B, Chipman J. An Equilibrium Study of the Distri- bution of Phosphorus Between Liquid Iron and Basic Slags [J]. A. I. M. E, 1946(4):111.
  • 10Lee C M, Fruehan R J. Phosphorus Equilibrium Between Hot Metal and Slag[J]. Ironmaking and Steelmaking, 2005, 32 (6) : 503.

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