Scientific Reports (Jan 2024)

Precise detection of coal and gangue based on natural γ-ray

  • Ningbo Zhang,
  • Changyou Liu,
  • Chuanqi Zhu,
  • Baobao Chen,
  • Zhongbin Wang,
  • Xiaojie Wu

DOI
https://doi.org/10.1038/s41598-024-51424-w
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract To address the technical limitations of automatic coal and gangue detection technology in fully mechanized top coal caving mining operations, the low radiation level radioactivity measurement method is utilized to assess the degree of coal-gangue mixture in top coal caving process. This approach is based on the distinguishing radiation characteristics of natural γ-rays between coal and gangue. This study analyzed the distribution characteristics of natural γ-rays in coal and rock layers of thick coal seams and the applicability of this method, introduced the basic principle of coal-gangue detection technology based on natural γ-ray, developed the test system about automatic coal-gangue detection, studied the radiation characteristics of coal and gangue, proposed determination model of the coal-gangue mixed degree, combined with the time sequence characteristics of the top coal’s releasing flow and the energy spectrum characteristics of different layers of rock, realized the precise coal-gangue detection technology in complex structure thick coal seam with multiple gangue. Field tests were conducted in Lilou, Xiaoyu and Tashan Coal Mine. The test results were well corroborated with the research results and achieved the expected results, which laid the foundation for the field application of intelligent coal mining.