INFLUENCES OF CASTING SPEED AND SEN DEPTH ON FLUID FLOW IN THE FUNNEL TYPE MOLD OF A THIN SLAB CASTER 被引量：1

INFLUENCES OF CASTING SPEED AND SEN DEPTH ON FLUID FLOW IN THE FUNNEL TYPE MOLD OF A THIN SLAB CASTER

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摘要 In recent years, thin slab continuous casting technology has been widely used to improve the quality of the product and to reduce the cost. One of the challenges faced by this technology is to design reasonable flow patterns, which strongly affect the surface and inner properties of the final slab in the mold. With the fixed scales and complex geometrical structures of nozzle and funnel type mold, a series of numerical simulations are made to analyze the flow patterns in melt steel using finite volume method based on structured body fitted coordinate grids. The CFD （computational fluid dynamics） package is validated first using one typical case described in previously published studies, and then it is developed to study the effect of operational parameters on fluid flow in thin slab caster. Two operational parameters, casting speed and SEN （submerged entry nozzle） depth, are mainly considered for numerical analysis. On the basis of present simulations, the reasonable SEN submergence depths corresponding to different casting speeds are suggested according to fluid flow characteristics like, flow jet impingement on the narrow side of the mold, flow speed of the melt steel beneath the meniscus and the recirculation region. This is the first stage of study on the numerical analysis of the whole thin slab casting process with electromagnetic brake. In recent years, thin slab continuous casting technology has been widely used to improve the quality of the product and to reduce the cost. One of the challenges faced by this technology is to design reasonable flow patterns, which strongly affect the surface and inner properties of the final slab in the mold. With the fixed scales and complex geometrical structures of nozzle and funnel type mold, a series of numerical simulations are made to analyze the flow patterns in melt steel using finite volume method based on structured body fitted coordinate grids. The CFD （computational fluid dynamics） package is validated first using one typical case described in previously published studies, and then it is developed to study the effect of operational parameters on fluid flow in thin slab caster. Two operational parameters, casting speed and SEN （submerged entry nozzle） depth, are mainly considered for numerical analysis. On the basis of present simulations, the reasonable SEN submergence depths corresponding to different casting speeds are suggested according to fluid flow characteristics like, flow jet impingement on the narrow side of the mold, flow speed of the melt steel beneath the meniscus and the recirculation region. This is the first stage of study on the numerical analysis of the whole thin slab casting process with electromagnetic brake.

作者 B.W. Li X.Y. Tian E.G. Wang J.C. He

机构地区 Key Laboratory of National Education Ministry for Electromagnetic Processing of Materials

出处《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2007年第1期15-26,共12页 金属学报（英文版）

关键词 continuous casting thin slab submerged entry nozzle （SEN） numerical analysis funnel type mold standard k-ε model RNG （renormalization group） k-ε model continuous casting thin slab submerged entry nozzle （SEN） numerical analysis funnel type mold standard k-ε model RNG （renormalization group） k-ε model

分类号 TG241 [金属学及工艺—铸造]

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参考文献1

1J.P. Hu (Chongqing Iron and Steel Designing Research Institute, Chongqing 400013, China) J. Y. Zhuang, J.H. Du, Q. Deng, D. Feng and Z. Y. Zhong (Central Iron and Steel Research Institute, Beijing 100081, China) P. Janschek and J. Kramer (Thyssen Umformte.MICROSTRUCTURAL MODEL OF GATORIZED WASPALOY IN THE ISOTHERMAL FORGING PROCESS[J].Acta Metallurgica Sinica(English Letters),2001,14(3):205-211. 被引量：61

二级参考文献10

1[1]J.M.Zhang,L.Z.Ma,J.Y.Zhang,Q.Deng,J.H.Du,Z.Y.Zhong and Z.W.Zhang,Superalloys 718,625,706 and Various Derivatives ed.E.A.Loria (The Minerals,Metals and Materials Society,1997)p.183.
2[2]J.M.Zhang,Z.Y.Gao,J.Y.Zhuang and Z.Y.Zhong,Metall.Mater.Trans.A 30A (1999) 2701.
3[3]C.M.Sellars,Mater.Sci.Technol.6 (1990) 1072.
4[4]C.M.Sellars,Int.Conf.on THERMEC 88,Tokyo,ed.Ⅰ.Tamura Iron Steel Inst.Jpn.June 6-10(1998) 448.
5[5]C.M.Sellars and G.J.Davies,TMS,London,1979,p.3.
6[6]R.Kopp,K.Karhausen and R.Schneidars,Proc.of 4th ICTP (Beijing,September,1993) p.1203.
7[7]Y.V.R.K.Prasad and T.Seshacharyulu,Inter.Mater.Rev.43 (1998) 243.
8[8]C.Devas,I.V.Samarasekera and E.B.Hawbolt,Metall.Trans.A 22A (1991) 335.
9[9]G.S.Shen,S.L.Semitin and R.Shivpuri,Metall.Mater.Trans.A 26A (1997) 1795.
10[10].J.H.Beynon,P.R.Brown,S.I.Mizban,A.R.S.Ponter and C.M.Sellars,Proc.of NUMIFORM Conf.eds.K.Mattiasson,A.Samuelsson,R.D.Wood,O.C.Zienkiewicz and A.A.Balkerna (Gothenburg,Sweden,Aug.2529,1986,Rotterdam,Holland) p.213.

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1JIANG,Zhao-Qin,LU,Jun,ZHOU,Min-Feng,JI,Shun-Jun.Facile Ionic Liquids-Promoted One-Pot Synthesis of Polyhydroquinoline Derivatives under Solvent Free Conditions[J].有机化学,2004,24(z1):257-258. 被引量：1
2LIN Shenglu1, LI Hongyun1, WANG Dehua2, ZHAO Wenli1 & GAO Feng1 1. Department of Physics, Shandong Normal University, Jinan 250014, China,2. Department of Mathematics and Physics, Shandong Institute of Architecture and Engineering, Jinan 250014, China.Recurrence spectra of He atoms in strong external fields[J].Science China(Physics,Mechanics & Astronomy),2004,47(4):477-484. 被引量：2
3刘靖平,任周阳,赵元鸿,张洪彬.几种新型离子液体的合成[J].有机化学,2004,24(9):1091-1094. 被引量：12
4王贵,张世亮,赵仑,罗毅涌,叶彪,黄焦宏,金培育,刘金荣,徐来自.磁致冷材料研究进展[J].稀有金属材料与工程,2004,33(9):897-901. 被引量：10
5邓友全.离子液体介质与材料研究进展[J].中国科学院院刊,2005,20(4):297-300. 被引量：18
6FANG Jian-Ping,ZHENG Chun-Long,ZHU Hai-Ping,REN Qing-Bao,CHEN Li-Qun.New Family of Exact Solutions and Chaotic Soltions of Generalized Breor-Kaup System in （2＋1）-Dimensions via an Extended Mapping Approach[J].Communications in Theoretical Physics,2005,44(2X):203-208. 被引量：11
7李前荣,沙里海,丁毅,尹浩,郭庆祥.5-乙酰(苯甲酰)基-4-芳基-3,4-二氢嘧啶-2(1H)-酮的质谱裂解规律(英文)[J].Chinese Journal of Chemical Physics,2005,18(4):577-584. 被引量：1
8李明,郭维斯,文丽荣,张秀丽.新型无毒离子液体催化“一锅煮”合成3,4-二氢嘧啶-2(1H)-酮[J].有机化学,2005,25(9):1062-1065. 被引量：20
9寇拴虎,代振宇.降低我国车用汽油烯烃含量的措施探讨[J].现代化工,2005,25(8):4-8.
10沙里海,李前荣,尹浩,郭庆祥,薛松.5-乙氧羰基-4-取代-6-甲基-3,4-二氢嘧啶-2(1H)-酮的电子轰击飞行时间质谱表征(英文)[J].Chinese Journal of Chemical Physics,2005,18(5):786-792. 被引量：1

同被引文献11

1张瑞忠,路占宝,刘俊山,张志克.邯钢薄板坯连铸机电磁制动的应用效果[J].钢铁研究学报,2005,17(B08):144-146. 被引量：3
2朱苗勇,刘家奇,肖泽强.板坯连铸结晶器内钢液流动过程的模拟仿真[J].钢铁,1996,31(8):23-27. 被引量：51
3Wang Y F, Zhang L F. Fluid flow-related transportphenomena in steel slab continuous casting strands underelectromagnetic brake [ J ]. Metallurgical and MaterialsTransactions:5,2011,42(6) ; 1319 - 1351.
4Ha M Y, Lee H G, Seong S H. Numerical simulation ofthree-dimensional flow, heat transfer, and solidification ofsteel in continuous casting mold with electromagnetic brake[J]. Journal of Materials Processing Technology,2003 ,133?3) :322 -339.
5Yu H Q,Zhu M Y. Numerical simulation of the effects ofelectromagnetic brake and argon gas injection on the three-dimensional multiphase flow and heat transfer in slabcontinuous casting mold [ J ]. ISIJ International, 2008 , 48(5):584 -591.
6Harada H, Toh T, Ishii T, et al. Effect of magnetic fieldconditions on the electromagnetic braking efficiency[ J]. ISIJInternational,2001,41 (10) : 1236 - 1244.
7Tian X Y,Zou F, Li B W, et al. Numerical analysis ofcoupled fluid flow, heat transfer and macroscopicsolidification in the thin slab funnel shape mold with a newtype EMBr [ J ]. Metallurgical and Materials Transactions :S,2010,41(1) :112 -120.
8Timmel K, Eckert S, Gerbeth G. Experimental investigationof the flow in a continuous-casting mold under the influenceof a transverse,direct current magnetic field [ J ].Metallurgical and Materials Transactions: B, 2011,42 (1):68-80.
9Zhang L S,Zhang X F,Wang B,et al. Numerical analysis ofthe influences of operational parameters on braking effect ofEMBR in CSP funnel type mold [ J ]. Metallurgical andMaterials Transactions :B ,2014,45 (1) :295 - 306.
10Tian X Y,Li B W,He J C. Electromagnetic brake effects onthe funnel shape mold of a thin slab caster based on a newtype magnet[ J]. Metallurgical and Materials Transactions:2009,40(4) :596 -604.

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Acta Metallurgica Sinica(English Letters)

2007年第1期

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