Evolution of Broken Coal’s Permeability Characteristics under Cyclic Loading–Unloading Conditions

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Natural Resources Research Pub Date : 2024-07-11 DOI:10.1007/s11053-024-10377-7
Liang Luo, Lei Zhang, Jianzhong Pan, Mingxue Li, Ye Tian, Chen Wang, Songzhao Li
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Abstract

This study conducted a cyclic loading–unloading (CLU) test on broken coal samples with three particle sizes (0–5 mm, 5–10 mm, and 10–15 mm) under four different stress path conditions. The evolution permeability characteristics of samples during repeated compaction were investigated. The dimensionless permeability and the porosity variation law were obtained under CLU conditions. The permeability loss difference (PID) index was defined, and the permeability damage was analyzed. The permeability evolution model under mining influence conditions was constructed. Results indicate that an increase in maximum loading stress (MLS) exacerbates the seepage network channel destruction of broken coal. As the MLS increases, there is a decrease in permeability recovery rate during the unloading stage and an increase in permeability loss rate during the loading stage. The first stress loading results in a rapid reduction in the porosity, while the subsequent CLU has a minor impact on porosity variation. Results of the PID analysis show positive correlation between the permeability attenuation degree and the MLS. Furthermore, both the permeability recovery rate and the permeability loss rate increase with increase in particle size, indicating that the effects of pressure relief and stress recovery have a greater influence on larger particles. Theoretical permeability values of model were verified with test results, and their high consistency proves the permeability evolution model’s feasibility. The results will help provide theoretical guidance for gas extraction in goaf.

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循环加载-卸载条件下破碎煤渗透特性的演变
本研究在四种不同的应力路径条件下,对三种粒度(0-5 毫米、5-10 毫米和 10-15 毫米)的破碎煤样进行了循环加载-卸载(CLU)试验。研究了样品在反复压实过程中的渗透率演变特征。在 CLU 条件下获得了无量纲渗透率和孔隙度变化规律。定义了渗透率损失差(PID)指数,并分析了渗透率损伤。构建了采矿影响条件下的渗透率演化模型。结果表明,最大加载应力(MLS)的增加加剧了碎煤渗流网络通道的破坏。随着最大加载应力的增加,卸载阶段的渗透恢复率下降,而加载阶段的渗透损失率增加。第一次应力加载导致孔隙率迅速降低,而随后的 CLU 对孔隙率变化影响较小。PID 分析结果表明,渗透率衰减程度与 MLS 呈正相关。此外,渗透率恢复率和渗透率损失率都随着颗粒尺寸的增大而增加,这表明压力释放和应力恢复对较大颗粒的影响更大。模型的理论渗透率值与试验结果进行了验证,其高度一致性证明了渗透率演化模型的可行性。这些结果将有助于为煤层气开采提供理论指导。
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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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