Influence of Pore Structure Characteristics of Low Permeability Coal on Gas Nonlinear Seepage

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Min Yan, Fan Yang, Binbin Zhang, Haifei Lin, Shugang Li
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Abstract

Coalbed methane (CBM) mining has always been plagued by low mining efficiency. CBM-rich areas have high mining efficiency, but their formation is affected by CBM seepage. Through on-site mining, it is found that gas seepage in low-permeability areas presents nonlinear characteristics. In this paper, the causes and rules of nonlinear seepage are analyzed. The pore structure characteristic parameters such as pore size distribution, pore proportion and fractal dimension were obtained by nuclear magnetic resonance technology, and the pore structure characteristics of low permeability coal are analyzed. The results showed that the proportion of porosity was 6.30–11.02% and the proportion of percolation pores was 7.52–19.59%. Both total porosity and percolation pores had fractal characteristics. Aiming at the nonlinear problem of gas seepage law in low permeability coal, the permeability and gas flow data of coal samples under different gas pressures were measured by the self-designed coal core permeability automatic tester, and the gas seepage characteristics of low permeability coal samples are studied. The experiment showed that there was a starting pressure gradient in gas seepage in coal samples, and the relationship between gas permeability and gas pressure turned over at 1.25 MPa, indicating that there is a slip effect in coal pores. Considering the influence of pore structure parameters on the nonlinear seepage characteristics of CBM, the relationships between porosity, tortuosity, pore proportion, and fractal dimension and Kirschner permeability, slippage factor, and starting pressure gradient were fitted. The analysis showed that the pore size distribution characteristics with large proportion of micro-pores in low permeability coal made the pressure gradient required for the internal gas seepage larger, the influence of the slippage effect was enhanced, and the seepage of gas was nonlinear. To conclude, the influence of micro-pores developed in low permeability coal on nonlinear gas seepage was significant.

Abstract Image

低渗透性煤的孔隙结构特征对瓦斯非线性渗流的影响
煤层气开采一直受到开采效率低的困扰。煤层气富集区开采效率高,但其形成受煤层气渗流的影响。通过现场开采发现,低渗透区域的瓦斯渗流呈现非线性特征。本文分析了非线性渗流的成因和规律。利用核磁共振技术获得了孔径分布、孔隙比例和分形维数等孔隙结构特征参数,分析了低透气性煤的孔隙结构特征。结果表明,孔隙度比例为 6.30-11.02%,渗孔比例为 7.52-19.59%。总孔隙度和渗孔都具有分形特征。针对低透气性煤中瓦斯渗流的非线性规律问题,利用自行设计的煤芯透气性自动测试仪测量了不同瓦斯压力下煤样的透气性和瓦斯流量数据,研究了低透气性煤样的瓦斯渗流特征。实验表明,煤样中的瓦斯渗流存在起始压力梯度,瓦斯渗透率与瓦斯压力的关系在 1.25 MPa 时发生了转折,说明煤炭孔隙中存在滑移效应。考虑到孔隙结构参数对煤层气非线性渗流特性的影响,拟合了孔隙度、曲折度、孔隙比例、分形维数与克氏渗透率、滑移系数、起始压力梯度之间的关系。分析表明,低渗透煤中微孔比例较大的孔隙分布特征使得内部瓦斯渗流所需的压力梯度较大,滑移效应的影响增强,瓦斯渗流呈非线性。总之,低透气性煤中发育的微孔对非线性瓦斯渗流的影响是显著的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Natural Resources Research
Natural Resources Research Environmental Science-General Environmental Science
CiteScore
11.90
自引率
11.10%
发文量
151
期刊介绍: This journal publishes quantitative studies of natural (mainly but not limited to mineral) resources exploration, evaluation and exploitation, including environmental and risk-related aspects. Typical articles use geoscientific data or analyses to assess, test, or compare resource-related aspects. NRR covers a wide variety of resources including minerals, coal, hydrocarbon, geothermal, water, and vegetation. Case studies are welcome.
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