Journal of Materials Research and Technology (May 2020)

Bubble behavior in the slab continuous casting mold: Physical and mathematical model

  • Paulo Luiz Santos, Jr., Dr.,
  • Johne Jesus Mol Peixoto, Dr.,
  • Carlos Antônio da Silva, PhD.,
  • Itavahn Alves da Silva, Dr.,
  • Clenice Moreira Galinari, Dr.

Journal volume & issue
Vol. 9, no. 3
pp. 4717 – 4726

Abstract

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A two phase population balance is used to predict the polydispersed bubble flow and size distribution in a slab continuous casting mold and Submerged Entry Nozzle (SEN) system. Multiple Size Group (MUSIG) with a suitable breakage and coalescence model (Ansys CFX) was adopted to account for the polydispersed gas flow. Initial bubble size distribution as determined for two industrial refractories have been taken in consideration. A two way coupling model including the effect of the drag force and non-drag forces such as virtual mass force and turbulent dispersion force was considered. The results are compared with gas distribution in a 1:1 scale water — air mold model running under conditions of fluidynamic similarity to validate the model. The simulations have then been extended to describe the actual steel — argon flow, considering a thermal expansion factor for argon bubbles. The effect of gas distribution on the flow field of liquid inside the mold and other metallurgical aspects are discussed.

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