Scientific Reports (Apr 2024)

Research on the mechanism of coal wall fragmentation and dust production characteristics in the perspective of differentiated discrete elements

  • Zhen Li,
  • Deji Jing,
  • Shaocheng Ge,
  • Xiangxi Meng,
  • Di Yang,
  • Shuaishuai Ren

DOI
https://doi.org/10.1038/s41598-024-60192-6
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract In order to efficiently and accurately control coal dust pollution in coal mining faces, this study addresses the insufficient research on the dust generation mechanism during cutting. Firstly, a similar experimental platform for simulating coal wall cutting with a drum cutter was used to investigate the changes in coal wall fragmentation and dust generation at drum speeds of 35 r/min, 50 r/min, 65 r/min, and 80 r/min. The experimental results revealed that the degree of coal wall fragmentation and dust generation increased with the increase in rotational speed, leading to a wider range of particle size distribution and an increase in the generation of fine dust particles. A 1:1 scale discrete element simulation of coal wall cutting with a drum cutter was conducted based on the experiments. The results indicated that, under the four rotational speeds, the cracks generated during coal wall fracture were predominantly tensile cracks, accounting for over 76% of the total crack count. The total number of cracks increased from 10,600 to 11,200, the number of free single particles increased from 2555 to 2728, and the fragmentation volume increased from 0.021607 to 0.023024 m3. The range and degree of coal wall fragmentation increased with the increase in drum speed.

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