A Water Experiment Benchmark to Evaluate Numerical Models for the Motion of Particles in Continuous Casting Tundish

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A Water Experiment Benchmark to Evaluate Numerical Models for the Motion of Particles in Continuous Casting Tundish. / Vakhrushev, Alexander; Wu, Menghuai; Ludwig, Andreas et al.
in: Steel research international, Jahrgang 88.2017, Nr. 1, 1600276, 2017.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{45acd80ed6bf45d5a4528d9de825b2cd,
title = "A Water Experiment Benchmark to Evaluate Numerical Models for the Motion of Particles in Continuous Casting Tundish",
abstract = "This paper presents a water experiment benchmark for evaluation of the numerical models for the particle motion in a continuous casting tundish. The particles are optically tracked in the model tundish and additionally are captured by instrumented wooden frames at the water surface. In the meantime, an attempt is made to simulate the water flow and motion of the particles by using the Eulerian–Lagrangian approach. It is shown that for the experiment with large particles (ϕ3.5 mm) the experimentally determined distribution of the particles as captured by the wooden frames can be numerically simulated, but for the small particles (with a diameter distribution between 50 and 600 μm) there is still relative large mismatch between the simulation and the experiment. Some modeling options and parameters must be tuned carefully. This raises concern for the future application of the models in real engineering process where experimental calibration and evaluation are not possible. Therefore, the goal of this paper is to (i) call contributions from researchers to propose their models and evaluate them against the same benchmark; (ii) verify the agreement of the numerical solutions obtained by different contributors, and (iii) comment on further improvements and modifications to the existing models.",
author = "Alexander Vakhrushev and Menghuai Wu and Andreas Ludwig and Gerald Nitzl and Yong Tang and Gernot Hackl",
year = "2017",
doi = "10.1002/srin.201600276",
language = "English",
volume = "88.2017",
journal = "Steel research international",
issn = "0177-4832",
publisher = "Verlag Stahleisen GmbH",
number = "1",

}

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TY - JOUR

T1 - A Water Experiment Benchmark to Evaluate Numerical Models for the Motion of Particles in Continuous Casting Tundish

AU - Vakhrushev, Alexander

AU - Wu, Menghuai

AU - Ludwig, Andreas

AU - Nitzl, Gerald

AU - Tang, Yong

AU - Hackl, Gernot

PY - 2017

Y1 - 2017

N2 - This paper presents a water experiment benchmark for evaluation of the numerical models for the particle motion in a continuous casting tundish. The particles are optically tracked in the model tundish and additionally are captured by instrumented wooden frames at the water surface. In the meantime, an attempt is made to simulate the water flow and motion of the particles by using the Eulerian–Lagrangian approach. It is shown that for the experiment with large particles (ϕ3.5 mm) the experimentally determined distribution of the particles as captured by the wooden frames can be numerically simulated, but for the small particles (with a diameter distribution between 50 and 600 μm) there is still relative large mismatch between the simulation and the experiment. Some modeling options and parameters must be tuned carefully. This raises concern for the future application of the models in real engineering process where experimental calibration and evaluation are not possible. Therefore, the goal of this paper is to (i) call contributions from researchers to propose their models and evaluate them against the same benchmark; (ii) verify the agreement of the numerical solutions obtained by different contributors, and (iii) comment on further improvements and modifications to the existing models.

AB - This paper presents a water experiment benchmark for evaluation of the numerical models for the particle motion in a continuous casting tundish. The particles are optically tracked in the model tundish and additionally are captured by instrumented wooden frames at the water surface. In the meantime, an attempt is made to simulate the water flow and motion of the particles by using the Eulerian–Lagrangian approach. It is shown that for the experiment with large particles (ϕ3.5 mm) the experimentally determined distribution of the particles as captured by the wooden frames can be numerically simulated, but for the small particles (with a diameter distribution between 50 and 600 μm) there is still relative large mismatch between the simulation and the experiment. Some modeling options and parameters must be tuned carefully. This raises concern for the future application of the models in real engineering process where experimental calibration and evaluation are not possible. Therefore, the goal of this paper is to (i) call contributions from researchers to propose their models and evaluate them against the same benchmark; (ii) verify the agreement of the numerical solutions obtained by different contributors, and (iii) comment on further improvements and modifications to the existing models.

U2 - 10.1002/srin.201600276

DO - 10.1002/srin.201600276

M3 - Article

VL - 88.2017

JO - Steel research international

JF - Steel research international

SN - 0177-4832

IS - 1

M1 - 1600276

ER -