Numerical Simulation of Zinc Flow in Different Layouts of Galvanization Pot

Vieira, Ronaldo Rodrigues; Eleutério, Henrique Lacerda; Oliveira, Thalisson Gustavo de; Bagatini, Maurício Covcevich; Tavares, Roberto Parreiras

doi:10.1590/1980-5373-mr-2020-0477

Cited by 6 publications

(2 citation statements)

References 16 publications

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“…The results of the liquid zinc flow lines from the pot with the electrical inductors that maintain the temperature of the zinc bath and which, which when in operation change the flow behavior, were compared with the results already known in the literature to confirm the flow pattern 12 .…”

Section: Computer Simulationmentioning

confidence: 92%

Trajectory of Top-Dross Particles During the Melting of Zinc Ingot in Galvanizing Pot

Vieira¹,

Duarte²,

Eleutério

et al. 2022

Mat. Res.

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The production of hot-dip galvanized steel presents great challenges, because it is currently the main raw material in the manufacturing of automobiles, and its surface quality is fundamental for the construction of automobiles. Obtaining the best surface appearance in galvanized steels is directly related to understanding the phenomena involved in the galvanizing process. In this process, achieving thermal and chemical stability of the galvanizing pot means keeping topdross formation under control. The top-dross is the main problem to be controlled, because it impacts the surface quality of coated steel. Some studies have been conducted to understand the formation of top-dross particles into the zinc bath, but little is known about the path of the particles formed from the melting ingots. In this study, the trajectories of these particles were simulated. It has been found that, depending on the immersion depth, dross particles may have different destinations.

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Section: Computer Simulationmentioning

confidence: 92%

Trajectory of Top-Dross Particles During the Melting of Zinc Ingot in Galvanizing Pot

Vieira¹,

Duarte²,

Eleutério

et al. 2022

Mat. Res.

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“…Similar research [5] has shown that the width of the strip has an obvious impact on the zinc ash deposition direction. Vieria et al [6] studied the particle trajectory in a galvanizing bath and found that large particles settle more quickly in the galvanizing bath, while small particles move longer before settling. Dong et al [7] found that the scheme of using baffles and exhaust ducts was the most effective in suppressing zinc ash diffusion.…”

Section: Introductionmentioning

confidence: 99%

Numerical study of gas-solid two-phase flow in the snout of continuous hot-dip galvanizing process

Sun,

Lin,

Cao

et al. 2024

J. Phys.: Conf. Ser.

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In the hot-dip galvanizing process for strip steel, zinc vapor oxidizes and forms zinc ash in the snout. Given that the snout connects the annealing furnace, the zinc ash will return to the annealing furnace with the gas, affecting the upstream process. The gas-solid two-phase flow regularity in the snout is the key issue for zinc ash control. In this paper, the snout of a hot-dip galvanizing production line was taken as the physical model. The two-phase flow was simulated by the Euler-Lagrange method and the zinc ash particles were simulated via the discrete phase model (DPM). The results show that several vortex regions exist in the snout due to the forced convection caused by the moving strip and changes in flow channel sizes. There exist differences in the movement of zinc ash with different diameters. Small zinc ash has a strong tracking performance with the gas. Large zinc ash is easy to remain in the snout. In addition, orthogonal analysis was conducted to determine the optimal parameter combination. The research results provide theoretical guidance for the operation scheme of the gas circulation system.

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Study of Flow and Thermal Evolution in Zinc Bath During Galvanisation Using a 3D CFD Model

Muhammed Anas,

Bhattacharya

2024

Lecture Notes in Mechanical Engineering

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Numerical Simulation of Zinc Flow in Different Layouts of Galvanization Pot

Cited by 6 publications

References 16 publications

Trajectory of Top-Dross Particles During the Melting of Zinc Ingot in Galvanizing Pot

Trajectory of Top-Dross Particles During the Melting of Zinc Ingot in Galvanizing Pot

Numerical study of gas-solid two-phase flow in the snout of continuous hot-dip galvanizing process

Study of Flow and Thermal Evolution in Zinc Bath During Galvanisation Using a 3D CFD Model

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