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The correlationbetween crushed coalporosity andpermeability undervarious methanepressure gradients: acase study usingJincheng anthracite Zhen LiGuorui FengHaina Jiang2018 год

The correlation between crushed coal porosity and permeability under various methane pressure gradients: a case study using Jincheng anthracite
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Аннотация: Abstract As a greenhouse gas (GHG), methane (CH 4 ) emitted from underground mines contributes 17% to total anthropogenic greenhouse gas emissions. Gas drainage is the main measure to resolve this problem, and knowledge of methane flow in surrounding coal and rocks greatly influences our thinking and handling strategies for reducing CH 4 emissions. However, due to the lack of matched testing systems, current studies are generally confined to considering methane flow properties in porous and fractured coal and rocks, whereas methane flow behaviors in crushed coal have not been extensively studied and understood yet. In this study, the relationships between crushed coal porosity and permeability under various methane pressures are investigated using a self‐designed gas permeation testing system, and continuous measurements of methane pressure and flow rate have been conducted. The results show that the permeability properties of crushed coal are closely related to the coal porosity, methane pressure, and axial stress. Darcy flow transfers to slip flow in crushed coal in the latter stage of coal‐mine methane drainage in crushed coal, and the permeability of crushed coal has a magnitude of 10 −12 –10 −11 m 2 , which is rather larger than that of porous and fractured coals. The pseudo‐threshold pressure gradient (TPG) decreases with the growth of porosity, and it is rather smaller than that of lower permeability reservoirs (LPR). With an increase in methane pressure, the permeability of crushed coal presents a logarithmic growth trend; by contrast, it displays an exponential growth trend with an increase in porosity. © 2018 Society of Chemical Industry and John Wiley & Sons, Ltd.
Год издания: 2018
Авторы: Zhen Li, Guorui Feng, Haina Jiang, Shengyong Hu, Jiaqing Cui, Cheng Song, Qiang Gao, Tingye Qi, Xiangqian Guo, Chao Li, Kang Li-xun
Издательство: Wiley
Источник: Greenhouse Gases Science and Technology
Ключевые слова: Coal Properties and Utilization, Hydrocarbon exploration and reservoir analysis, Rock Mechanics and Modeling