液氮循环处理对不同含水率煤样渗流特性的影响

Effect of liquid nitrogen cycle treatment on seepage characteristics of coal samples with different water contents

  • 摘要: 我国煤炭储层渗透率普遍较低,需要煤层增透技术强化煤层气开采。液氮致裂煤体技术因其环保、增透效果强等优点成为近年来煤层增透技术研究的热点。水-冰相变冻胀作用是液氮致裂含水煤体的主要作用机理。故利用真空饱水容器制备含水率分别为0%,2%,4%及6%的4组煤样,分别对煤样进行液氮循环冻融处理,直至煤体整体发生破碎或完成5次循环冻融处理。期间使用摄像机定点拍摄,观察煤样各循环处理表面宏观裂隙的演化;使用受载煤体注气驱替瓦斯测试试验系统进行氮气渗流试验得出不同压力点下煤样渗透率的变化规律;并使用渗透率增长幅度及渗透率平均增长幅度表征煤体渗透率增长水平。试验结果表明:①相同致裂次数下,煤样含水率越高表面裂隙发育越明显。②液氮致裂能提高煤体渗透率水平,且与含水率成正比。围压一定时,渗透率平均增长幅度随含水率呈指数上升。③增加循环次数也会提高煤样渗透率。随着液氮循环次数的增加,煤样的渗透率整体呈上升趋势,渗透率增长幅度与含水率成正比。除含水率2%煤样第3次液氮处理后的渗透率大幅度增加外,煤样的渗透率增长幅度近似以倍数增加,单次致裂平均渗透增长率略有减小。④在液氮致裂煤层过程中,综合考虑提高煤层含水率与适当增加液氮循环致裂次数才能取得良好的增透效果。

     

    Abstract: The permeability of reservoir is generally low in China, so it is necessary to strengthen the exploitation of coalbed methane by anti-reflection technology.In recent years, the technology of liquid nitrogen cracking coal has become a hot spot in the research of coal seam anti-reflection technology due to its environmental protection, strong anti-reflection effect and so on.The frost heave of water-ice phase change is the main action mechanism of liquid nitrogen cracking water-bearing coal.In this paper, the coal samples with water content of 0%,2%,4% and 6% were prepared using a saturated water container, and were subjected to a liquid nitrogen cycle freeze-thaw cyclic treatment until the coal was broken or the five cycles of freeze-thaw treatment were completed.During this period, a camera was used to take photos at a fixed point for observing the evolution of the macroscopic cracks on the surface of the coal samples treated.The change law of coal sample permeability under different pressure points was obtained by nitrogen seepage experiment using the gas injection displacement test system of the coal bearing body.The experimental results show that① compared with the same number of fracture initiation, the higher water content of coal sample is, the more obvious the surface fracture development.② Liquid nitrogen cracking can't change the seepage characteristics of coal, but only improve it.In the axial seepage experiment, the permeability of coal sample under constant confining pressure presents a “U” shaped trend with the increase of gas pressure due to the Klinkenberg effect, effective stress and other influencing factors, which conforms to the quadratic function distributions.Under the influence of effective stress, permeability's average value decreases with the increase of confining pressure, and the relationship is negative exponential.③ The increases of the moisture content of coal sample and the number of cycles will enhance the permeability of coal samples.With the increase of the number of liquid nitrogen cycles, the permeability of coal sample is on the rise.With the same number of cycles, the permeability growth is directly proportional to the water content.Except for the permeability of coal sample after the third liquid nitrogen treatment with water content of 2%,the growth range of permeability of coal sample increases approximately by multiple times, and the growth rate of single average permeability decreases slightly.④ In the process of liquid nitrogen cracking coal seam, a good anti-reflection effect can be obtained by combining the increase of water content of coal seam and the appropriate increase of liquid nitrogen cycle cracking times.

     

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