Piv Method and Numerical Computation for Prediction of Liquid Steel Flow Structure in Tundish

Cwudziński, A.

doi:10.1515/amm-2015-0002

Cited by 4 publications

(5 citation statements)

References 16 publications

(16 reference statements)

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“…The previously presented results on the flow hydrodynamics for the analysed tundish showed that in the current configuration of the tundish equipment, there are two areas of vertical recirculation distributed more or less symmetrically with respect to the longitudinal axis. In addition, in earlier works, it was observed that in the central part of the tundish, the hydrodynamic field is subject to periodic fluctuation [35,47]. Therefore, in the current work, the flow fields at the interaction site of water with the tracer were recorded and the fluctuation level was recorded.…”

Section: Experiments Results and Discussionmentioning

confidence: 85%

“…The physical glass model of tundish was made on a scale of 2:5 (Figure 1(b)). The linear scale of the model ensures geometric similarity to the real facility, whereas the dynamic similarity was ensured by Froude criterion generally applied to traditional investigations for the development of continuous casting technology [34][35][36][37][38][39][40][41]. Within the project being implemented, the test stand has been retrofitted with the planar laser-induced fluorescence system (PLIF), sCMOS camera and third harmonic optics supplied by Dantec Dynamics.…”

Section: Methodology and Experiments Conditionsmentioning

confidence: 99%

See 1 more Smart Citation

Physical modelling of fluids’ interaction during liquid steel alloying by pulse-step method in the continuous casting slab tundish

Cwudziński

Jowsa

Gajda

et al. 2020

Ironmaking & Steelmaking

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The continuous steel casting process is characterised by physico-chemical phenomena that are considered in the macro-and microscale. This paper attempts to assess the impact of local changes in the hydrodynamics of liquid steel flow in a one-strand slab tundish on the behaviour of the alloy addition, and consequently, the chemical homogenisation of the liquid steel entering the mould. Four variants of feeding the alloy addition to the liquid steel were considered. Water glass model was used for laboratory experiments. A tracer was fed into the water using the pulse-step method. Based on the mixing curves, the mixing time was calculated. Based on the laboratory experiments carried out, it has been found that, the alloy addition feeding site affects the mixing time, both for symmetric and asymmetric feeding relative to the longitudinal axis of the tundish.

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Section: Experiments Results and Discussionmentioning

confidence: 85%

Section: Methodology and Experiments Conditionsmentioning

confidence: 99%

Physical modelling of fluids’ interaction during liquid steel alloying by pulse-step method in the continuous casting slab tundish

Cwudziński

Jowsa

Gajda

et al. 2020

Ironmaking & Steelmaking

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“…Digital image measurement technology can not only achieve the overall structure and transient image field, but also obtain the velocity data of the whole flow field quantitatively. Some researchers [7][8][9] have measured the flow field in the tundish by the particle image velocimetry (PIV), thus that the overall structure and transient image of a planar flow field was obtained quantitatively.…”

Section: Of 10mentioning

confidence: 99%

Flow Characteristics for Two-Strand Tundish in Continuous Slab Casting Using PIV

Huang

Yuan

Shi

et al. 2019

Metals

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With the development of continuous casting technology, there has been an increase in the stringent requirements for the cleanliness and quality of steel being produced. The flow state of molten steel in tundish is the key to: Optimizing the residence time of molten steel in the tundish; homogenizing the temperature of molten steel; and removing inclusions by floatation. Hence, from theoretical and practical aspects, it is imperative to examine and analyze the flow field of molten steel in the tundish in order to ensure the desired molten steel flow. In this study, a two-strand tundish with 650 mm × 180 mm slab casting is considered as the subject for this research. According to the similarity theory, combined with the geometrical shape and dimension of the prototype tundish, a tundish model with a geometric similarity ratio of 2:3 is established in the laboratory. Digital particle image velocimetry (PIV) is employed to measure and examine the flow fields at different casting speeds for a tundish containing different flow control devices. The flow in the tundish is typically turbulent and also consists of a vortex motion; it exhibits both random and ordered characteristics. Results reveal that the presence of baffles with 15° holes can cause an upward-directed flow in the outlet section and give rise to a large circulation. When the casting speed is doubled, the overall velocity of the flow field and turbulent intensity increase, leading to an increase in the molten steel surface velocity.

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“…Therefore, tin, like major industrial metals with abundance in the earth’s crust below 0.0002%, required additional insight into fundamental knowledge on tin metallurgy [ 22 , 23 ]. This research work presents results related to hydrodynamic structures developing in batch reactors, different in shape, recorded by means of the particle image velocimetry (PIV) method [ 24 , 25 , 26 , 27 ]. Particle image velocimetry is the non-invasive method for predicting hydrodynamics wherever the testing objects and fluids are transparent.…”

Section: Introductionmentioning

confidence: 99%

Particle Image Velocimetry Method for Prediction Hydrodynamic Conditions during Leaching Process on the Basis of Sn–NaOH System

Cwudziński

Gajda

2021

Materials

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In leaching processes controlled by diffusion and convectional transport of mass, the hydrodynamic structure formed in the reactor’s working volume is an additional factor affecting the process. This research work presents results related to hydrodynamic structures developing in batch reactors, different in shape, recorded by means of the particle image velocimetry (PIV) method. The movement of the distilled water and leaching solution was analyzed during investigations. Next, the system hydrodynamics and the process of tin leaching were analyzed. Finally, the leaching is affected by the reactor geometry and the hydrodynamic structure developed in its working volume, especially when a convectional or diffusion mass transport decides the process efficiency.

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Piv Method and Numerical Computation for Prediction of Liquid Steel Flow Structure in Tundish

Cited by 4 publications

References 16 publications

Physical modelling of fluids’ interaction during liquid steel alloying by pulse-step method in the continuous casting slab tundish

Physical modelling of fluids’ interaction during liquid steel alloying by pulse-step method in the continuous casting slab tundish

Flow Characteristics for Two-Strand Tundish in Continuous Slab Casting Using PIV

Particle Image Velocimetry Method for Prediction Hydrodynamic Conditions during Leaching Process on the Basis of Sn–NaOH System

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