Gas drainage and optimal arrangement of boreholes based on permeability anisotropy

IF 4.5 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geomatics Natural Hazards & Risk Pub Date : 2023-10-24 DOI:10.1080/19475705.2023.2272573

Minke Duan, Meijuan Lu, Ke Yang, Ruiqi Ban, Xuelong Hu, Changbao Jiang, Xin Lyu

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Abstract

Based on the true triaxial dynamic anisotropic permeability model of coal and rock, a multi field coupling mathematical model of structurally anisotropic coal seams under true triaxial stress was established, and a numerical simulation experiment of porous dry gas drainage in anisotropic coal seams was conducted using the COMSOL Multiphysics numerical simulation software. It was found that with an increase in the permeability anisotropy ratio, the greater the ratio of the long and short axes of the elliptical pressure isoline was, the denser was the gas streamline in the dominant seepage direction. As the permeability anisotropy ratio increased, the gas extraction volume and rate decreased. When the permeability was isotropic, the gas drainage volume of the uniformly arranged rectangular boreholes was the largest. However, when the permeability was anisotropic, the gas extraction volume and rate were the largest along the y-direction layout (perpendicular to the dominant seepage direction), followed by the rhombus layout, and the smallest along the x-direction layout. Based on the test results, an optimal arrangement principle of multi holes pumping boreholes along the vertical dominant seepage direction was proposed.

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基于渗透率各向异性的瓦斯抽放及井眼优化布置

基于煤岩真三轴动态各向异性渗透率模型，建立了真三轴应力作用下结构各向异性煤层的多场耦合数学模型，并利用COMSOL Multiphysics数值模拟软件进行了各向异性煤层多孔干瓦斯抽采数值模拟实验。研究发现，随着渗透率各向异性比的增大，椭圆压力等值线长、短轴线之比越大，优势渗流方向的气体流线密度越大。随着渗透率各向异性比的增大，瓦斯抽采体积和抽采速率减小。渗透率各向同性时，均匀排列的矩形钻孔瓦斯抽放体积最大。渗透率为各向异性时，沿y方向(垂直于优势渗流方向)的瓦斯抽采体积和抽采速率最大，其次为菱形，沿x方向最小。根据试验结果，提出了沿垂直优势渗流方向多孔抽孔的优化布置原则。

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来源期刊

Geomatics Natural Hazards & Risk GEOSCIENCES, MULTIDISCIPLINARY-METEOROLOGY & ATMOSPHERIC SCIENCES

CiteScore

7.70

自引率

4.80%

发文量

117

审稿时长

>12 weeks

期刊介绍： The aim of Geomatics, Natural Hazards and Risk is to address new concepts, approaches and case studies using geospatial and remote sensing techniques to study monitoring, mapping, risk mitigation, risk vulnerability and early warning of natural hazards. Geomatics, Natural Hazards and Risk covers the following topics: - Remote sensing techniques - Natural hazards associated with land, ocean, atmosphere, land-ocean-atmosphere coupling and climate change - Emerging problems related to multi-hazard risk assessment, multi-vulnerability risk assessment, risk quantification and the economic aspects of hazards. - Results of findings on major natural hazards