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构造作用与瓦斯突出和超量煤层气

The effect of tectonic deformation on gas outburst and excess coalbed methane

  • 摘要: 统计表明,煤矿瓦斯突出几乎都发生于剪切带(构造煤)中,与构造变形关系非常密切。构造煤中可能蕴藏着远超出最大吸附量的超量煤层气,正确认识其赋存状态,将是瓦斯突出机理和煤层气赋存理论的重要突破。作者及所在课题组近年来对两淮、沁水等地的构造煤进行了一系列的实验对比和研究。初步研究结果显示,韧性变形作用可以导致结构单元缺陷增加,不到10%的应变就足以使煤结构中的含氧基团或醚键发生降解并生成气态小分子。因此,含有大量低键能烷烃侧链的低煤阶煤,在构造变形作用下更容易发生降解,产生大量气体,当气体聚集到一定程度时就会发生瓦斯突出。另外,强变形煤纳米级孔隙的比表面积和孔容远大于原生结构煤,也可为超量煤层气提供可能的赋存空间。

     

    Abstract: Statistical data show that gas outburst has a very close relationship with tectonic deformation because it often occurs in shear zones where deformed coals are widely developed.The amounts of outburst gas are usually much higher than the maximum adsorptions that are supposed to be in coal, which means that excess coalbed methane may exist in deformed coals. Therefore,a correct understanding of the occurrence of excess gas may lead to an important breakthrough in explaining the gas outburst mechanism and gas occurrence theory. Deformed coals collected from Huainan-Huaibei and the Qinshui Basin of China have been studied through a series of experiments over the past few years in our research group. Preliminary results show that ductile deformation could increase the structure defects of basic structural units. Oxygen-containing groups or ether bonds are degraded by less than 10% strain energy, and generate gas micromolecules. As a result, lower rank coals that contain many alkane chains which have low bond energy could easily degrade under tectonic deformation. This process could generate large quantities of gas which will result in gas outburst when aggregated to a certain amount. Furthermore, the surface area and volume of nanopores in strongly deformed coal are greater than in primary structure coal, which could provide more space for gas accumulation.

     

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