Numerical investigation of the mixed flow characteristics on non-spherical particles in the blast furnace raceway by CFD-DEM
ID:2 View Protection:ATTENDEE Updated Time:2024-04-09 20:33:09 Hits:643 Oral Presentation

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Abstract
Abstract
The intricate interplay of physical and chemical phenomena within the raceway constitutes a significant determinant influencing both the stable operation and energy consumption management of blast furnaces. However, there still lacks of research on the gas-solid flow characteristics and interaction mechanisms of non-spherical particles in the raceway. Many fundamental dynamics problems, such as the movement mechanism of non-spherical particles and the effect of mixing ratio of varied multi-shape particles on the evolution process of the raceway, have not been comprehensively analyzed. The effects of four different volume fraction of non-spherical particles mixed on the evolution morphology and microstructure of the raceway in the mixed particle system were systematically studied and analyzed. The numerical simulation results indicate that as the volume fraction of non-spherical particles increases from 0 to 9%, the width and height of the raceway increase by 96% and 67%, respectively. The drag force acted on particles increases with the increase in the volume fraction of non-spherical particles. The probability density function distribution of the normal contact force between particle shifts leftward, and the peak decreases as the volume fraction of non-spherical particles increases. Additionally, when mixing non-spherical particles, the peak of the coordination number probability density function distribution is smaller compared to the case when there is no mixing. The percentage of non-spherical particles in a mixture has a substantial impact on the shape and internal structure of the blast furnace raceway.
Keywords: CFD-DEM; Raceway; Non-spherical particles; Mixed particle system
 
Keywords
CFD-DEM;,Raceway;,Non-spherical particles;,Mixed particle system;
Speaker
刘宇文龙
江西理工大学

Submission Author
刘宇文龙 江西理工大学
鄂殿玉 江西理工大学
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Important Date
  • Conference Date

    May 31

    2024

    to

    Jun 03

    2024

  • Jun 03 2024

    Abstract Submission Deadline

  • Jun 03 2024

    Draft paper submission deadline

  • Jun 03 2024

    Registration deadline

Sponsored By
Panel of Computational Mechanics on Granular Materials
Working Party of Computational Mechanics
Chinese Society of Theoretical and Applied Mechanics
Organized By
Hohai University
Dalian University of Technology
Chinese Society of Particuology
Jiangsu Society of Theoretical and Applied Mechanics
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