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适合漏斗型薄板坯连铸结晶器三孔水口的水模型优化 被引量:11

Water Model Optimization of Three-Port Submerged Entry Nozzle Feeding a Funnel-Shaped Thin Slab Mold
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摘要 采用1∶1的水模型研究了5种不同底孔直径(16~28mm)的三孔水口下漏斗型薄板坯结晶器内的流场、液面特征和卷渣行为。结果表明:在常规工艺参数下,5种三孔水口下结晶器内钢液的流场都是典型的"双辊流",且流场稳定;在5种三孔水口下结晶器液面波动都较平稳,且波动范围都在±(3~5)mm之间。5种不同水口下结晶器液面主要发生剪切卷渣,漩涡卷渣很少发生。试验得知:在水口浸入深度280mm,拉速为5m/min时,剪切卷渣发生的钢液临界表面速度是0.32m/s,与文献报道的模型计算值较吻合。在水口浸入深度280mm、拉速为5m/min的条件下,适合薄板坯连铸的最佳的三孔水口的底孔直径为22mm。 A full-scale funnel-shaped thin slab water model was built to investigate the fluid flow,meniscus fluctuation and slag entrapping behaviors when it were fed by five three-port submerged entry nozzles(SENs) with various diameters.The results shows that the fluid flow in the present mold is a typical steady "double roll flow" when using these five SENs.Furthermore,meniscus fluctuation is within ±(3-5) mm under regular casting parameters(SEN immersion depth and casting speed is 280 mm and 5 m/min,respectively).The mode of slag entrapping is mainly entrapment by shear flow,and the vortex-related entrapment hardly occurs.The critical meniscus velocity which cause slag entrapping is determined to be 0.32 m/s under the regular casting parameters mentioned above,which agrees well with the calculated value.The optimal bottom-hole diameter for this three-port SEN which is suitable for thin slab casting is 22 mm.
作者 邓小旋 王强强 钱龙 王新华 黄福祥
机构地区 北京科技大学冶金与生态工程学院 武钢股份条材总厂CSP分厂
出处 《钢铁》 CAS CSCD 北大核心 2012年第7期26-30,共5页 Iron and Steel
关键词 三孔水口 薄板坯 连铸 优化 结晶器 卷渣 three-port SEN thin slab continuous casting optimization mold slag entrapping
分类号 TF777 [冶金工程—钢铁冶金]
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参考文献14

  • 1王新华.采用薄板坯连铸生产高表面质量冷轧钢板的可行性分析[J].钢铁,2004,39(12):18-25. 被引量:31
  • 2Honeyands T, Herbertson J. Flow Dynamics in Thin Slab Caster Moulds[J]. Steel Research, 1995, 66 (7): 287.
  • 3王现辉,王新华,张炯明,景财良.CSP结晶器内钢液面动态失稳现象的水模型实验[J].北京科技大学学报,2009,31(2):234-239. 被引量:17
  • 4Kasai N, Iguchi M. Water-Model Experiment on Melting Powder Trapping by Vortex in he Continuous Casting Mold [J]ISIJ International, 2007, 47(7) 982.
  • 5Zhang L F, Yang S, Cai K, et al. Investigation of Fluid Flowand Steel Cleanliness in the Continuous Casting Strand[J]. Metallurgical and Material Transaction B, 2007, 38B (1) : 63.
  • 6Kubota J, Okimoto K, Suzuki M, et al. Mechanism o{ Level Fluctuation and Mold Powder Catching in Slab Continuous Casting at High Speeds[C]//The Sixth International Iron and Steel Congress. Nagoya: 1990.
  • 7Kubota J, Okimoto K, Shirayama A, et al. Menisucus Flow Control in the Mold by Travelling Magnetic Field for High Speed Slab Caster[C]//74th Steelmaking Conference Proceed- ings. Warrendale, PA : ISS, 1991 : 233.
  • 8Imamura A, Kusano A, Moritama N. A Hidrodynamical A- nalysis of the Molten Steel Flow in the Continuous Casting Mold[J]. Tetsu-to Hagane, 1992, 78(3): 439.
  • 9Teshima T, Kubota J, Suzuki M, et al. Influence of Casting Conditions on Molten Steel Flow in Continuous Casting Mold at High Speed Casting of Slabs[J]. Tetsu-to-Hagane, 1993, 79(5) : 576.
  • 10雷洪,朱苗勇,赫冀成.连铸结晶器内卷渣过程的数学模型[J].金属学报,2000,36(10):1113-1117. 被引量:18

二级参考文献26

  • 1陈芝会,王恩刚,王清成,刘全利,赫冀成.薄板坯连铸结晶器内涡流及卷渣行为的研究[J].炼钢,2005,21(5):37-41. 被引量:11
  • 2张慧,赵连刚,陶红标,刘爱强,李烈军.薄板坯连铸结晶器内流动传热行为的研究[J].钢铁,2006,41(5):24-28. 被引量:7
  • 3陆巧彤,杨荣光,王新华,张炯明,王万军.板坯连铸结晶器保护渣卷渣及其影响因素的研究[J].钢铁,2006,41(7):29-32. 被引量:63
  • 4Gupta D, Chakraborty S, Lahiri A K. Asymmetry and oscillation of the fluid flow pattern in a continuous casting mould: a water model study. ISIJ Int, 1997, 37(7) : 654
  • 5Yuan Q, Sivaramakrishnan S, Vanka S P, et al. Computational and experimental study of turbulent flow in a 0.4-scale water model of a continuous steel caster. Metall Mater Trans B, 2004, 35(10): 967
  • 6Sivaramakrishnan S, Thomas B G, Vanka S P. Large EMDDY simulation of turbulent flow in continuous casting of steel, materials processing in the computer age Ⅲ//Voller V, Henein H, eds. TMS Annual Meeting. Nashville, 2000:189
  • 7Morales R D, Palafox-Ramos J, Garcia-Demedices L, et al. A DPIV study of liquid steel flow in a wide thin slab caster using four ports submerged entry nozzles. ISU Int, 2004, 44 (8): 1384
  • 8Ramos-Banderas A, Sdnchez-Pfirez R. Mathematical simulation and physical modeling of unsteady fluid flows in a water model of a slab mold. Metall Mater Trans B, 2004, 6(35) : 449
  • 9Torres-Alonso E, Morales R D, Demedices L G, et al. Flow dynamics in thin slab molds driven by sustainable oscillating jets from the feeding SEN. ISIJ Int, 2007, 47(5): 679
  • 10Shen B Z, Shen H F, Liu B C. Instability of fluid flow and level fluctuation in continuous thin slab casting mold. ISIJ Int, 2007, 47(3) : 427

共引文献64

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引证文献11

二级引证文献123

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2012年 第7期

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