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Volume 18 Issue 5
Oct.  2011
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Sabin Kumar Mishra, Pradeep Kumar Jha, Satish Chandra Sharma,  and Satish Kumar Ajmani, Numerical investigation of the effect of transitory strand opening on mixing in a multistrand tundish, Int. J. Miner. Metall. Mater., 18(2011), No. 5, pp. 535-542. https://doi.org/10.1007/s12613-011-0474-1
Cite this article as:
Sabin Kumar Mishra, Pradeep Kumar Jha, Satish Chandra Sharma,  and Satish Kumar Ajmani, Numerical investigation of the effect of transitory strand opening on mixing in a multistrand tundish, Int. J. Miner. Metall. Mater., 18(2011), No. 5, pp. 535-542. https://doi.org/10.1007/s12613-011-0474-1
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Numerical investigation of the effect of transitory strand opening on mixing in a multistrand tundish

  • 通讯作者:

    Pradeep Kumar Jha    E-mail: pkjhafme@iitr.ernet.in

  • In a multistrand, the outlet near the inlet produces short circuiting flow. This leads to the formation of dead zones inside the tundish, and consequently, the mean residence time decreases. In the present study, numerical investigation of mixing inside a delta shaped tundish with sloping boundaries was carried out by solving the Navier-Stokes equation and employing the standard turbulence model. To decrease the dead zone volume inside the tundish, the effect of closing the outlet near the inlet for a small amount of time and further opening it on the mixing behavior of the tundish was studied. The outlets near the inlet were closed for varying amount of time, and the transient analysis of fluid flow and the tracer dispersion study were carried out to find the mixing parameters of the tundish, namely, mean residence time and the ratio of mixed to dead volume of the tundish. An optimum closure time of the near outlet has been found, which yields best mixing inside the tundish. The numerical code was validated against the experimental observation by performing the tracer dispersion study inside a multistrand tundish and the reasonably good match between the experimental and numerical results in terms of residence time distribution (RTD) curves. The results obtained from the present study confirm the strong role of choosing the right time for opening and closing the outlets to get improved characteristics for the fluid flow and mixing behavior of the tundish. The educational version of computational fluid dynamics (CFD) software PHOENICS was used to solve the governing equations and interpret the results in different forms.
  • Numerical investigation of the effect of transitory strand opening on mixing in a multistrand tundish

    + Author Affiliations
    • In a multistrand, the outlet near the inlet produces short circuiting flow. This leads to the formation of dead zones inside the tundish, and consequently, the mean residence time decreases. In the present study, numerical investigation of mixing inside a delta shaped tundish with sloping boundaries was carried out by solving the Navier-Stokes equation and employing the standard turbulence model. To decrease the dead zone volume inside the tundish, the effect of closing the outlet near the inlet for a small amount of time and further opening it on the mixing behavior of the tundish was studied. The outlets near the inlet were closed for varying amount of time, and the transient analysis of fluid flow and the tracer dispersion study were carried out to find the mixing parameters of the tundish, namely, mean residence time and the ratio of mixed to dead volume of the tundish. An optimum closure time of the near outlet has been found, which yields best mixing inside the tundish. The numerical code was validated against the experimental observation by performing the tracer dispersion study inside a multistrand tundish and the reasonably good match between the experimental and numerical results in terms of residence time distribution (RTD) curves. The results obtained from the present study confirm the strong role of choosing the right time for opening and closing the outlets to get improved characteristics for the fluid flow and mixing behavior of the tundish. The educational version of computational fluid dynamics (CFD) software PHOENICS was used to solve the governing equations and interpret the results in different forms.
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