Discrete Particle Simulation of Solid Flow in a Model Blast Furnace
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概要
- 論文の詳細を見る
This paper reports a numerical study of solid flow in a model blast furnace under simplified conditions by means of discrete particle simulation (DPS). The applicability of the proposed DPS approach is validated from its good agreement with the experiment in terms of solid flow patterns. It is shown that the DPS is able to generate a stagnant zone without any need for any arbitrary treatment, and capture the main features of solid flow within the furnace at a microscopic level. The results confirm that the solid flow in a blast furnace can be divided into four different flow regions. However, the flow is strongly influenced by the front and rear walls in a 2D slot model furnace whereas the predicted stagnant zone decreases significantly with wall sliding friction. In a 3D model with periodic boundary conditions incorporated, a smaller stagnant zone is obtained. The effects of solid flow rate, particle properties such as sliding and rolling friction coefficients on the solid flow are also investigated. The results are analysed in terms of solid flow patterns, solid velocity field, porosity distribution and normal force structure. The implication to blast furnace operation is discussed.
- 社団法人 日本鉄鋼協会の論文
- 2005-12-15
著者
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Yu Aibing
Centre For Simulation And Modelling Of Particulate Systems School Of Materials Science And Engineeri
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Zulli Paul
Bluescope Steel Research
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ZHOU Zongyan
Centre for Simulation and Modelling of Particulate Systems, School of Materials Science and Engineer
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ZHU Haiping
Centre for Simulation and Modelling of Particulate Systems, School of Materials Science and Engineer
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WRIGHT Bryan
Bluescope Steel Research
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PINSON David
Bluescope Steel Research
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Zhu Haiping
Laboratory For Simulation And Modelling Of Particulate Systems School Of Materials Science And Engin
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Zhou Zongyan
Laboratory For Simulation And Modelling Of Particulate Systems School Of Materials Science And Engin
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YU Aibing
Centre for Computer Simulation and Modelling of Particulate Systems, School of Materials Science and Engineering, University of New South Wales
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