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六流T形连铸中间包内控流装置优化的水模试验研究 被引量:7

Water Modeling Study on Optimization of Flow Control Devices in "T" Type Continuous Casting Tundish of Six-Strand
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摘要 通过水模试验研究,对六流T形连铸中间包内的控流装置进行了优化。通过试验选择了控流较好的多孔挡墙形状,优化了多孔挡墙的开孔方向;研究了不同形状的湍流抑制器对中间包内钢液的控流效果。 Optimization of flow control devices of six-strand tundish was actualized by water modeling study.Shape of the porous baffle wall was selected to obtain a preferable flow and opening directions of porous baffle wall were optimized.In addition,influence of turbulence inhibitors with different shapes on flow was investigated.
出处 《连铸》 2010年第1期4-6,12,共4页 Continuous Casting
关键词 连铸 中间包 水模 continuous casting tundish water modeling
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  • 1李丽颖,钟良才,朱英雄,姜茂发,任子平,孟劲松,张富强,姜振生.板坯连铸中间包结构的优化[J].钢铁,2004,39(z1):502-505. 被引量:2
  • 2祝明妹,文光华,张立峰,唐萍,苏振江,顾武安,赵克文,宋国菊.六流大方坯中间包内钢液流动、传热及夹杂物去除的数理模拟研究[J].钢铁,2004,39(z1):164-169. 被引量:4
  • 3郑淑国,朱苗勇,姜桂连,宋嘉鹏.四流矩形中间包冲击碗应用水模实验研究[J].钢铁,2004,39(5):23-25. 被引量:14
  • 4Chiang L K,Steelmaking Conference Proceedings,1992年,437页
  • 5白新桂,数据分析与试验优化设计,1989年
  • 6白新桂.数据分析与实验优化设计[M].北京:清华大学出版社,1989..
  • 7Morales R D,De Barreto J,López-Ramírez S,et al.Melt Flow Control in a Multistrand Tundish Using a Turbulence Inhibitor[J].Metall.Trans.B,2000,31B(6):1505-1515.
  • 8Knoepke J,Mastervich J.Water Modeling Inland Steel's No.3Combination Caster Tundish[A].Warrendale.Steelmaking Conference Proceedings[C].Washington DC:ISS-AIME,1986.777-788.
  • 9Godiwalla K M,Sinha S K,Sivaramakrishnan C S.Water Model Simulation of Tundish Flow under Varying Conditions[J].Steel Res.,1994,65(7):267-272.
  • 10Godiwalla K M,Sinha S K,Sivaramakrishnan C S.Statistical Analysis of Residence Time Distribution of Fluid Elements in Continuous Casting Water Model Tundish with One Side Entry[A].Warrendale.Steelmaking Conference Proceedings[C].Chicago:ISS-AIME,1994.703-712.

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  • 1陈登福,胡锐,王青峡,靳星,严锡九,李金柱,周开成.连铸中间包多孔挡墙设置优化的数学物理模拟[J].过程工程学报,2008,8(S1):49-53. 被引量:13
  • 2黄社清,茆勇,潘远望,文光华.马钢CSP中间包水模实验研究[J].安徽冶金科技职业学院学报,2005,15(3):1-5. 被引量:1
  • 3郑淑国,朱苗勇.多流连铸中间包内钢液流动特性的分析模型[J].金属学报,2005,41(10):1073-1076. 被引量:47
  • 4齐新霞,包燕平.六流方坯中间包流场的物理模拟和冶金效果[J].钢铁研究学报,2006,18(1):11-15. 被引量:16
  • 5Launder B, Spalding D. The Numerical Computation of Turbulent Flows [J]. Computer Methods in Applied Mechanics and Engineering, 1974, 3(2): 269-289.
  • 6Chankraborty S, Sahai Y. Mathematical Modeling of Transport Phenomena in Continuous Casting Tundish (Part 2) [J]. Ironmaking Steelmaking, 1992, 19(6): 488-494.
  • 7Yeh J, Hwang W, Chou C. Three-dimensional Mathematical Modeling of Fluid Flow in Slab Tundishes and Its Verification with Water Model Experiments [J]. Journal of Materials Engineering and Performance, 1992, 1(5): 625-636.
  • 8Vargas-Zamora A, Palafox-Ramos J, Morales R, et al. Inertial and Buoyancy Driven Water Flows under Gas Bubbling and ThermalStratification Conditions in a Tundish Model [J]. Metall. Mater. Trans. B, 2004, 35(4): 247-257.
  • 9Kumar A, Mazumdar D, Koria S. Modeling of Fluid Flow and Residence Time Distribution in a Four-strand Tundish for Enhancing Inclusion Removal [J]. ISIJ Int., 2008, 48(1): 38-47.
  • 10Sheng D, Jonsson L. Investigation of Transient Fluid Flow and Heat Transfer in a Continuous Casting Tundish by Numerical Analysis Verified with Non-isothermal Water Model Experiments [J]. Metall. Mater. Trans. B, 1999, 30(10): 979-985.

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