Multiphase flow inside a four-strand continuous casting tundish using three types of ladle shrouds  被引量:3

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作  者:Jiang-shan Zhang Bang-ming Qin Yu-hong Liu Quan-hui Li Xiao-tan Zuo Chao Wang Shu-feng Yang Qing Liu 

机构地区:[1]State Key Laboratory of Advanced Metallurgy,University of Science and Technology Beijing,Beijing 100083,China [2]Research Institute,Nanjing Iron and Steel Co.,Ltd.,Nanjing 210035,Jiangsu,China [3]Wuhu Xinxing Ductile Iron Pipes Co.,Ltd.,Wuhu 241002,Anhui,China [4]School of Advanced Engineering,University of Science and Technology Beijing,Beijing 100083,China

出  处:《Journal of Iron and Steel Research International》2023年第6期1171-1181,共11页

基  金:The funding of National Natural Science Foundation of China(No.52004024)is highly appreciated.

摘  要:Numerical and physical models have been built and validated to study the multiphase flow inside three ladle shrouds and a four-strand tundish.A conventional straight ladle shroud and two types of trumpet-shaped ladle shroud(TLS)have been comparatively investigated.The maximum velocity at ladle shroud outlet reduces from 1.3 to 0.5 m/s,which indicates a quieter tundish pool.It is demonstrated that the use of a TLS can also decrease the maximum surface velocity from 0.16 to 0.13 m/s,which reduces the tendency of forming tundish open eye.The flow pattern and mixing behavior are improved inside the tundish,especially in enlarging the plug volume from 6.61%to 9.04%.The difference between the near and far outlets is narrowed when the TLS is applied.A computational program was developed to calculate characteristic parameters of different ladle shroud designs,and a dimensionless index was proposed to evaluate their mass and inner volume.Plant trials have been carried out,and the results showed that TLS can reduce level fluctuation in the pouring zone,which is beneficial to promoting better protective performance from secondary contamination and heat loss during continuous casting.

关 键 词:Tundish metallurgy Multiphase flow Ladle shroud Modeling Plant trial 

分 类 号:TF777[冶金工程—钢铁冶金]

 

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