ISSN:1003-8620

CN:42-1243/TF

Governed by: CITIC Pacific Special Steel Group Co., LTD

Sponsored by: Daye Special Steel Co., LTD.

Special Steel ›› 2014, Vol. 35 ›› Issue (6): 20-23.

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Application and Establishment of a Model for Sulphur Partition Ratio between Slag-Steel in Ladle Furnace (LF) Based on Ion-Molecule Coexistence Theory

Chu Ying1, Guo Hanjie2 , Quan Yongzhi1   

  1. 1 Beijing Guoxin Alike Technology Co Ltd, Beijing General Research Institute of Mining and Metallurgy, Beijing 100160;
    2 School of Metallurgical and Ecological Engineering, University of Science and Technology, Beijing 100083
  • Received:2014-06-18 Online:2014-12-01 Published:2022-08-19

基于共存理论的钢包炉(LF)渣硫分配比模型的建立和应用

储莹1,郭汉杰2,全永志1   

  1. 1北京矿冶研究总院,北京国信安科技术有限公司,北京100160 ;
    2北京科技大学冶金与生态工程学院,北京100083
  • 作者简介:储 莹(1986-),女,硕士(北京科技大学),工程师,2007年华北科技学院(本科)毕业,冶炼过程动力学和工艺研究。

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Abstract: Based on ion-molecule coexistence theory, a thermodynamic model for calculation of sulphur partition ratio between 57CaO-10SiO2 -8 MgO-25 Al2O3 quaternary slag series and liquid steel has been established by calculating the mass action concentration of ladle furnace (LF) refining slag structural units to get the sulphur partition ratio between slag-steel of this slag series Ls=1115 in end LF refining at 1 630 ℃. The measure results of 9 heats 210 t double bottom nozzle argon blowing LF refining slag samples show that to subtract the existing definite system deviation due to restriction on conditions including worksite and oxygen level of slag series, the model is available to reflect the LF refining slag sulphur partition ratio in commercial steelmaking production.

摘要: 基于离子与分子共存理论,通过计算钢包炉(LF)精炼渣结构单元的质量作用浓度,建立了一种计算57CaO-10SiO2-8MgO-25Al2O3四元渣系与钢液硫分配比的热力学模型,计算得出1630℃LF精炼结束时,该渣系的渣-钢间的硫分配比LS=1115。通过9炉210 t双孔底吹氩LF渣样检测结果表明,当减去因现场和渣系的氧势等条件限制,所存在的定值系统偏差,该模型可有效反映工业生产的LF精炼渣硫分配比。

关键词: 钢包炉, 精炼渣, 热力学模型, 硫分配比

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