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三流连铸中间包钢水流场的数学物理模拟 被引量:9

Mathematical and Physical Simulation Study on Flow Field of Molten Steel in Three-Strand Tundish
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摘要 应用商业软件CFX及水力学模型,对三流连铸中间包钢水流场进行了模拟研究,分析比较了原型中间包和改造后中间包内钢水的流动状态。结果表明:数值模拟与水力学模型结果相符;原型中间包内存在明显的短路流,死区比例大,均超过了50%;通过改造中间包控流装置后,中间包内钢水流动状态得到了明显改善,死区体积比例大大降低,死区比例均控制在20%以内,最低的仅为9.41%。通过现场试验发现:中部水口出口与边部水口出口的钢水温差最大值由改造前的5℃减小到2℃;事故率明显降低,达到了预期的冶金效果。 The flow field of molten steel in the three-strand tundish was studied by the commercial software CFX and the water simulation.After analyzing and comparing the flow state of the original and improved tundish,the results are obtained as follows:The results of numerical simulation are the same as that of hydraulic model.The apparent short road flow is found in the original tundish and the proportion of dead zone is large,which is more than 50%.After transforming the tundish,the flow performance of the molten steel in the tundish has been improved significantly and the dead volume fraction is reduced sharply to less than 20%,the minimum value is only 9.41%.The field experiment shows that the maximum temperature differences of molten steel between middle and side nozzle outlet has been reduced from 5℃ to 2℃.The accident rate has been decreased obviously so as to reach the expected metallurgical results.
作者 曹立军 王静松 孙伟 黄书友 薛庆国
机构地区 北京科技大学冶金与生态工程学院
出处 《连铸》 2010年第5期1-6,共6页 Continuous Casting
关键词 中间包 流场 数学物理模拟 tundish flow field mathematical-physical simulation
分类号 TF777.3 [冶金工程—钢铁冶金]
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  • 1张炯明,邓凤琴,王文科,王新华,牟济宁,唐海波,汪宁.连铸中间包钢水夹杂物浓度的数值模拟[J].北京科技大学学报,2004,26(3):247-250. 被引量:21
  • 2[1]Bolger D, Saylor K. Development of a Turbulence InhibitingPouring Pad/Flow Control Device for Tundish [A]. Iron andSteel Society Inc eds. Steelmaking Conference Proceedings[C]. Chicago: Slater C E,1994.225-233. 被引量:1
  • 3[2]Sahai Y, Burval M D. Validity of Renolds and Froude Sim-ilarity Criteria for Water Modeling of Melt Flow in Tundish-es [A]. Iron and Steel Society Inc eds. Proc of the ElectricFurnace Conf [C]. Atlanta: Catanzarite K A,1992.469-474. 被引量:1
  • 4[3]Koria S C, Singh S. Physical Modeling of the Effects of theFlow Modifier on the Dynamics of Molten Steel Flowing in aTundish [J]. ISIJ Int,1994,34(10):784-793. 被引量:1
  • 5[4]Singh S, Ahuja R. Fluid Dynamics of Continuous CastingTundishes-Physical Modeling [J]. Ironmaking and Steelmak-ing,1986,13(5):241-247. 被引量:1
  • 6Miki Y,Thomas B G.Modeling of inclusion removal in a tundish.Metall Trans B,1999,30B(4):639 被引量:1
  • 7张利君,程树森,成国光.连铸中间包非等温钢液流场的研究∥ 2005中国钢铁年会论文集(第3卷).北京,2005:465 被引量:1
  • 8张美杰,黄奥,汪厚植,等.底吹中间包的流场及夹杂物运动轨迹的数值模拟研究∥2005中国钢铁年会论文集(第3卷).北京,2005:426 被引量:2
  • 9Morales R D,Lopez-Ramirez S,Palafox-Ramos J,et al.Numerical and modeling analysis of fluid flow and heat transfer of liquid steel in a tundish with different flow control devices.ISIJ Int,1999,39(5):455 被引量:1
  • 10Ramos-Banderas A,Morales R D,Garcia-Demedices L,et al.Mathematical simulation and modeling of steel flow with gas bubbling in trough type tundishes.ISIJ Int,2003,43(5):653 被引量:1

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