煤体中瓦斯和水微观层次的渗流规律对比分析

    Comparative Analysis of Seepage Law of Gas and Water in Coal Body at Microscopic Level

    • 摘要: 基于CT扫描获得长焰煤切片数据图像,用Avizo对其进行三维重构,截取大小为60 μm×80 μm×120 μm的目标区域,经处理获得具有真实孔隙结构的煤样模型,使用CFX流体仿真模拟建模的方法,设置其进出口压差为3 MPa,进行低压瓦斯和水渗流模拟,对比分析其渗流特性。结果表明:瓦斯和注水渗流的压力整体变化趋势一致,其流速以及质量流量也一致,xy切面的最大平均流速都出现在渗流出口附近,为第114个切面,最大质量流量都出现在进口切面,相比而言,瓦斯渗流的流速远大于水的,而水的质量流量远大于瓦斯的。

       

      Abstract: The long-flame coal slice data image was obtained by CT scanning, and the three-dimensional reconstruction was performed by Avizo. The target area of 60 μm×80 μm×120 μm was intercepted and processed to obtain the coal sample model with real pore structure. The method of the model, the inlet and outlet pressure difference is set to 3 MPa, the low pressure gas and water seepage simulation are carried out, and the seepage characteristics are compared and analyzed. The results show that the overall change trend of gas and water injection seepage is consistent, and the trend of flow velocity and mass flow rate is also consistent. The maximum average flow velocity of xy section appears near the seepage outlet, which is the 114th section. The maximum mass flow rate appears on the inlet section. In contrast, the flow rate of gas seepage is much larger than that of water, and the mass flow of water is much larger than that of gas.

       

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