单流中间包底吹氩气去除夹杂物的数值模拟研究
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摘要
以宝钢特钢提供的单流板坯连铸机的梯形中间包为原型,在中间包结构内部加装吹气装置,运用FLUENT软件进行了气-液两相流动、热传输和夹杂物去除的数值模拟研究。结果表明,当吹气量为0.3 m~3/h,吹气位置距离入口1 700 mm时,中间包内钢水流动状态得到明显改善,钢液流动更加合理,增加了钢液在中间包内的停留时间,促进夹杂物的上浮去除,夹杂物的总去除率为66.9%。
Gas blowing device was added according to the structure of continuous casting single-tundish of Testeel.Numerical simulation of gas-liquid flow,heat transport and inclusion removal by using the FLUENT software in the single-tundish was investigated.The results showed that when argon flow rate was 0.3 m~3/h and the gas blowing position was 1 700 mm from inlet axis,the flowing state of molten steel in tundish was improved significantly,the flow field was more reasonable,which prolonged the fluid residence time and improved the removal of inclusions.The total removal rate of inclusions was 66.9%.
Gas blowing device was added according to the structure of continuous casting single-tundish of Testeel.Numerical simulation of gas-liquid flow,heat transport and inclusion removal by using the FLUENT software in the single-tundish was investigated.The results showed that when argon flow rate was 0.3 m~3/h and the gas blowing position was 1 700 mm from inlet axis,the flowing state of molten steel in tundish was improved significantly,the flow field was more reasonable,which prolonged the fluid residence time and improved the removal of inclusions.The total removal rate of inclusions was 66.9%.
引文
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[7]赵利荣,王保军,钟云波,等.电磁净化中间包中钢液流场及传输行为的水模拟研究[J].上海金属,2009,31(1):43-47.
[8]朱苗勇.连铸中间包内钢液流动与传热耦合过程的计算机模拟[J].金属学报,1997,33(9):933-938.
[9]盛东源,倪满森,邓开文,等.中间包内钢液流动,温度控制和夹杂物行为的数学模拟[J].金属学报,1996,32(7):742-748.
[10]KUMAR A,MAZUMDAR D,KORIA S C.Modeling of fluid flow and residence time distribution in a four-strand tundish for enhancing inclusion removal[J].ISIJ International,2008,48(1):38-47.
[11]OETERS F.Metallurgy of steelmaking,verlag stahleisen mb H[M].Berlin:Verlag Stahleisen,1994.
[12]SAHAI Y,EMI T.Melt flow characterization in continuous casting tundishes[J].ISIJ International,1996,36(6):667-672.
[2]张美杰,汪厚植,顾华志,等.中间包底吹氩行为的数值模拟[J].钢铁研究学报,2007,19(2):16-19.
[3]CWUDZINSKI A.Numerical simulation of liquid steel flow and behaviour of non-metallic inclusions in one-strand slab tundish with subflux turbulence controller and gas permeable barrier[J].Ironmaking&Steelmaking,2010,37(3):169-180.
[4]ZHAN S H,OU J P,XIAO Z Q.Numerical simulation on gasliquid two phase flow in continuous casting tundish with bottom gas blowing[J].Chinese Journal of Process Engineering,2005,5(3):233-240.
[5]ZHANG L,TANIGUCHI S,CAI K.Fluid flow and inclusion removal in continuous casting tundish[J].Metallurgical and Materials Transactions B,2000,31(2):253-266.
[6]梁新腾,张捷字,刘旭峰,等.连铸中间包内湍流控制器控流过程的数值模拟[J].上海金属,2007,29(3):49-53.
[7]赵利荣,王保军,钟云波,等.电磁净化中间包中钢液流场及传输行为的水模拟研究[J].上海金属,2009,31(1):43-47.
[8]朱苗勇.连铸中间包内钢液流动与传热耦合过程的计算机模拟[J].金属学报,1997,33(9):933-938.
[9]盛东源,倪满森,邓开文,等.中间包内钢液流动,温度控制和夹杂物行为的数学模拟[J].金属学报,1996,32(7):742-748.
[10]KUMAR A,MAZUMDAR D,KORIA S C.Modeling of fluid flow and residence time distribution in a four-strand tundish for enhancing inclusion removal[J].ISIJ International,2008,48(1):38-47.
[11]OETERS F.Metallurgy of steelmaking,verlag stahleisen mb H[M].Berlin:Verlag Stahleisen,1994.
[12]SAHAI Y,EMI T.Melt flow characterization in continuous casting tundishes[J].ISIJ International,1996,36(6):667-672.
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