[Oral Presentation]Study of rapid gas desorption induced microstructural alteration in deep coals from the Sydney Basin
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[Oral Presentation]Study of rapid gas desorption induced microstructural alteration in deep coals from the Sydney Basin

Study of rapid gas desorption induced microstructural alteration in deep coals from the Sydney Basin
ID:262 Submission ID:329 View Protection:ATTENDEE Updated Time:2024-05-15 17:40:20 Hits:514 Oral Presentation

Start Time:2024-05-31 13:50 (Asia/Shanghai)

Duration:10min

Session:[S2] Safety Engineering and Occupational Health » [S2-6] Afternoon of May 31st

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Abstract
Rapid gas desorption plays a critical role in the development of coal and gas outbursts. This study explores the impacts of rapid gas desorption on structural alterations in deep coal samples from the Sydney Basin, utilizing a novel methodology that integrates advanced computed tomography (CT) scanning for qualitative analysis with void volume measurement for quantitative evaluation. The research thoroughly examines the impact of the rapid desorption of methane (CH4) and carbon dioxide (CO2) on the development and expansion of fractures within the coal matrix across a range of equilibrium pressures and saturated contents. The findings indicate that rapid desorption can facilitate the expansion of existing fractures and the creation of new ones, however, the overall structural integrity of the intact coal sample predominantly remains preserved, even under extreme desorption pressures of up to 10 MPa. A notable increase in void volume following the rapid desorption of CH4 and CO2 suggests structural alterations due to the formation or expansion of fractures. Notably, CH4 desorption was observed to have a more significant impact on the coal structure than CO2, attributed to its higher equilibrium pressures and faster initial desorption rates. Furthermore, the study identifies a direct correlation between gas equilibrium pressure and the extent of fracture volume alteration, highlighting the crucial role of gas pressure in influencing the structural integrity of coal during mining operations. This detailed analysis of the impacts of CH4 and CO2 rapid desorption provides profound insights into the mechanisms underlying rapid gas desorption damage to coal structures. It advances the understanding of coal and gas outburst phenomena, offering valuable knowledge for the enhancement of mining safety and the promotion of more sustainable mining practices.
 
Keywords
methane,carbon dioxide,rapid gas desorption,microstructural alteration,CT scanning,void volume measurement
Speaker
Zhongbei Li
PhD candidate University of Wollongong

Submission Author
Zhongbei Li University of Wollongong
Ting Ren University of Wollongong
Ming Qiao University of Wollongong
Lihai Tan University of Wollongong
Dennis Black South32 - Illawarra Metallurgical Coal
Jan Nemcik University of Wollongong
Xueqiu He University of Science and Technology, Beijing
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