新近系保德组沉积薄弱区红土阻水性能及资源开发意义

Water-blocking performance of laterite in weak deposition areas of Neogene Baode Formation and significance of resource exploitation

  • 摘要: 关键隔水层沉积薄弱区阻水性能的深入研究对于矿井生产安全和生态水资源保护均具有重要意义。基于区域沉积特征重新优化钻孔数据,研究榆神矿区红土沉积厚度的分布规律,并探讨与红土阻水性能相关的微观工程特性和控制因素。结果表明,红土沉积厚度从西北向东南逐渐增大,并且随着河流的演化,红土分布变得极不均匀,红土缺失区面积达到48.80%。在垂直方向上通过粒径分析和渗透试验表明,红土的阻水性能随着红土沉积深度的增加而增强;在水平方向上通过微观结构和物质组成分析表明,红土的隔水性能与其沉积厚度并非简单的线性关系,随着红土沉积厚度的减小,薄弱区的红土隔水性能急剧下降。基于稳定达西流速概念计算了非完全阻水的红土薄弱区临界厚度,通过多源数据融合,得到了榆神矿区红土阻水性能的划分。榆神矿区红土工程特性及阻水性能的系统研究可为红土薄弱区内矿井查清隐蔽致灾地质因素、实现关键隔水层保护及再建和指导煤水双资源协同共采工程实践等方面提供重要的理论依据。

     

    Abstract: The in-depth study on the water-blocking performance of red clay in the weak deposition areas of the key aquiclude is of significant importance for mine production safety and ecological water resource protection. Specifically, the borehole data were reoptimized based on the regional sedimentary characteristics, the thickness distribution pattern of laterite deposit in Yushen mine area was studied, and the micro-engineering characteristics and control factors related to the water-blocking performance of laterite were explored. The results show that the deposition thickness of laterite gradually increases from northwest to southeast, the distribution of laterite becomes extremely uneven with the evolution of rivers, and the area of laterite missing zone reaches 48.80%. The particle size analysis and permeability test show that the water-blocking performance of laterite increases vertically with the increase of laterite deposition depth. The microstructure and material composition analysis show that the water-blocking performance of laterite is not in a simple linear relationship with its deposition thickness in the horizontal direction, and the water-blocking performance of laterite in the weak zone decreases sharply with the decrease of its deposition thickness. Based on the concept of stable Darcy flow rate, the critical thickness of laterite in the weak zone with non-complete water-blocking performance was calculated, and the waterblocking performance of laterite in Yushen mine area was classified through multi-source data fusion. The systematic study of engineering characteristics and water-blocking performance of laterite in Yushen mine area could provide important theoretical basis for identifying the potential geological factors that may cause hacards in the mines within the weak laterite area, realizing the protection and reconstruction of key aquiclude and guiding the practice of coal-water dual-resource cooperative co-mining engineering.

     

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