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滇东黔西地区煤岩裂缝渗透率应力敏感性试验研究

Experimental study on stress sensitivity of coal and rock fracture permeability ineastern Yunnan and western Guizhou

  • 摘要: 滇东黔西地区煤岩渗透率普遍较低但地应力较高,煤层有效应力的变化会显著地影响储层渗透率,为了研究滇东黔西地区煤岩裂缝渗透率的应力敏感机制,针对该地区煤样开展了渗透率应力敏感性试验,并结合扫描电镜(SEM)技术分析了煤样裂缝结构特征。试验结果表明:煤岩裂缝渗透率与有效应力呈现负指数关系。当有效应力小于10 MPa时,随着有效应力增大,煤层裂缝渗透率急剧下降,渗透率损害主要发生在此阶段;当有效应力大于10 MPa时,裂缝越来越难被压缩,裂缝渗透率下降趋势减缓。煤岩天然和人工裂缝均具有很强的应力敏感性。扫描图片显示,天然裂缝表面粗糙度较小,缝内存在填充物可用来支撑裂缝闭合,人工裂缝的应力敏感程度强于天然裂缝。在煤层气开发过程中需要合理控制生产压差,以减轻应力对渗透率的伤害,确保煤层气井的高效生产。

     

    Abstract: The permeability of coal and rock is generally low in eastern Yunnan and western Guizhou, but the in-situ stress is high. The change of effective stress of coal seam will significantly affect permeability of reservoir. In order to study the stress sensitivity mechanism of coal fracture permeability, the stress sensitivity experiment was carried out for coal samples collected from the region of eastern Yunnan and western Guizhou, and the structure characteristics of coal samples were analyzed by scanning electron microscopy (SEM). The test results show that the fracture permeability of coal and rock and the effective stress show a negative exponential relationship. When the effective stress is less than 10 MPa, the fracture permeability of the coal seam decreases sharply with the increase of the effective stress, and the permeability damage mainly occurs at this stage; when the effective stress is greater than 10 MPa, the fracture becomes more and more difficult to be compressed, the downward trend of fracture permeability slows down. Both natural and artificial fractures of coal rock have strong stress sensitivity. Microscopic images show that the surface roughness of natural fractures is smaller, and the filler can be used to support the fracture closure. The stress sensitivity of artificial fracture is stronger than that of natural fractures. In the process of CBM development, it is necessary to control the production pressure difference reasonably to reduce the damage of stress to permeability, and ensure the efficient production of CBM wells.

     

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