2021
DOI: 10.1002/srin.202000582
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Large Eddy Simulation of Transient Flow, Particle Transport, and Entrapment in Slab Mold with Double‐Ruler Electromagnetic Braking

Abstract: To study the transient transport and capture of inclusions and argon bubbles simultaneously in slab mold with double-ruler electromagnetic braking (EMBr), a transient large eddy simulation model coupling molten steel flow, solidification, electromagnetic field, and particle motion is constructed. In this model, momentum transfer between argon bubbles and molten steel is implemented by two-way coupling. The results indicate that the EMBr changes the molten steel transient flow pattern in the liquid pool. Due to… Show more

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Cited by 24 publications
(17 citation statements)
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“…The first is that realizable k-ε turbulence model contains an alternative formula of the turbulent viscosity, as given in Equation ( 16). Second, a modified equation of the dissipation rate (ε) is derived from the exact equation for the transport of the mean-square vorticity fluctuation in Equation (13). As the realizable k-ε turbulence model considers the influence of mean rotation in the definition of turbulent viscosity, as given in Equation ( 17), it is expected to have better performance than standard k-ε turbulence model in simulating rotating homogeneous shear flow, separated flow, and free flow.…”
Section: Numerical Models To Simulate Swirling Flowmentioning
confidence: 99%
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“…The first is that realizable k-ε turbulence model contains an alternative formula of the turbulent viscosity, as given in Equation ( 16). Second, a modified equation of the dissipation rate (ε) is derived from the exact equation for the transport of the mean-square vorticity fluctuation in Equation (13). As the realizable k-ε turbulence model considers the influence of mean rotation in the definition of turbulent viscosity, as given in Equation ( 17), it is expected to have better performance than standard k-ε turbulence model in simulating rotating homogeneous shear flow, separated flow, and free flow.…”
Section: Numerical Models To Simulate Swirling Flowmentioning
confidence: 99%
“…In past years, steel casting process especially continuous casting has made enormous progress. These are realized by optimizing the submerged entry nozzle (SEN) structure, [3][4][5] casting speed, [6][7][8] argon blowing in nozzle, [9][10][11] electromagnetic braking, [12][13][14] mold electromagnetic stirring (M-EMS), [15][16][17] second-cooling segment electromagnetic stirring (S-EMS), [18][19][20] final electromagnetic stirring (F-EMS), [21][22][23] and so on. To further improve the steel flow field in mold, as early as 1994, Yokoya et al [24] first proposed the swirling flow nozzle casting technology, which aims to induce a rotational steel flow inside SEN.…”
mentioning
confidence: 99%
“…Argon gas injection (AGI) is widely employed to prevent submerged entry nozzle (SEN) clogging in the slab mold. [1,2] After entering the mold, argon bubbles alter the flow pattern, promote inclusion floating, and improve the melting of mold flux. [1][2][3][4] However, a large amount of argon gas can lead to increased level fluctuations, uneven distribution of mold flux, and even slag entrainment.…”
mentioning
confidence: 99%
“…[1,2] After entering the mold, argon bubbles alter the flow pattern, promote inclusion floating, and improve the melting of mold flux. [1][2][3][4] However, a large amount of argon gas can lead to increased level fluctuations, uneven distribution of mold flux, and even slag entrainment. [1,3,5] Moreover, argon bubbles may be captured by the solidified shell and become surface defects.…”
mentioning
confidence: 99%
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