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A Numerical Simulation of the Coal Dust Migration Law in Directional Air Drilling in a Broken Soft Coal Seam.

Authors :
Zhang, Jie
Han, Zichen
Chen, Tianzhu
Yao, Ningping
Yang, Xianyu
Chen, Chan
Cai, Jihua
Source :
Processes; Feb2024, Vol. 12 Issue 2, p309, 16p
Publication Year :
2024

Abstract

Abundant industrial experiences have shown that directional air drilling technology is effective for gas drainage when drilling broken and soft coal seams. In this paper, the Eulerian–Eulerian model was used to simulate the gas–solid two-phase flow behavior of compressed air transporting coal dust in broken soft coal seams. The relationship between the degree of coal dust deposition, annular air pressure law, transportation of coal dust, aforementioned factors of rotational speed, particle size, and air volume could be determined. The results indicate that the particle size plays a significant role in the transport capacity of coal dust. Smaller particle sizes and a higher airflow result in a lower deposition degree of coal dust. When the particle size of coal dust is 1.69 mm and the airflow is 300 m<superscript>3</superscript>/h, in the case of coal dust generation at a rate of 0.24 m<superscript>3</superscript>/h, the deflection angle of the coal dust collection zone is increased by 130% as the rotational speed of the drill rod is increased from 0 to 120 rpm. Similarly, the deflection angle of the coal dust collection zone is increased by 12.8% in a 500 m<superscript>3</superscript>/h airflow under the same condition. Additionally, fine particle-sized coal dust is transported in a spiral line. The coal dust with larger particle sizes tends to be in the middle and lower parts of the hole and move along a specific trajectory. Industrial experiences of medium-air-pressure drilling confirm that a rotary drilling speed between 80 and 120 rpm, with a minimum air volume of 400 m<superscript>3</superscript>/h and preferably 500 m<superscript>3</superscript>/h, can promote a smooth hole drilling effect and enhance the construction safety in the gas drainage process. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
22279717
Volume :
12
Issue :
2
Database :
Complementary Index
Journal :
Processes
Publication Type :
Academic Journal
Accession number :
175656401
Full Text :
https://doi.org/10.3390/pr12020309