超临界CO2作用下煤体渗透性与孔隙压力–有效体积应力–温度耦合规律试验研究

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摘要针对我国高瓦斯煤层渗透性普遍差、瓦斯抽采率低的难题，结合超临界CO2具有提高孔隙介质渗透性的特性，通过正交设计不同温度、孔隙压力、轴压和围压工况，对低渗透煤层煤样注入超临界CO2的流动规律进行试验研究，结果表明：超临界CO2作用前后煤体渗透率和渗透系数与有效体积应力均表现为负指数规律；渗透系数与孔隙压力呈现正指数递增规律；渗透率和渗透系数均随着温度升高呈现负指数下降趋势；并得到了有效体积应力和温度及孔隙压力共同作用下煤体渗透系数指数关系式，在有效体积应力一定的条件下，超临界孔隙压力对煤样渗透性的提高起主导作用；超临界CO2密度和动力黏度均随着温度的升高呈现负指数的递减趋势，与孔隙压力呈现线性递增规律，在临界点附近对温压变化敏感；超临界CO2作用后，煤样出现蜂窝似的孔隙和裂隙，煤的渗透性得到显著地提高，超临界CO2对提高煤层渗透性具有良好的效果。

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关键词 ：岩石力学, 超临界CO2, 渗透性, 温度, 孔隙压力, 有效体积应力

Abstract：According to the difficult problems of the generally low permeability in Chinas high gas seam and low gas extraction efficiency，using the characteristic of supercritical CO2 which could improve the permeability of porous media，research the flow rule of supercritical CO2 after injected into the low permeability coal seam sample by designing the conditions orthogonally with different temperature，pore pressure，axial compression and confining pressure. The results show that：the permeability and the permeability coefficient of the coal sample trend to be a negative exponential declining rule with the effective volume stress after the action of supercritical CO2；the permeability coefficient and pore pressure trend to be a positive exponential increasing rule；the permeability and the permeability coefficient both trend to be a negative exponential declining rule with the temperatures increasing；under the action of effective volume stress，temperature and pore pressure，the permeability coefficient satisfies the relation：，the supercritical CO2 pore pressure plays a leading rule in improving the coal samples permeability when the effective volume stress is a unchanged；the density and dynamic viscosity of supercritical CO2 present a negative exponential decreasing trend with temperatures increasing，and present a linear increasing change rule with pore pressure，and is sensitive to temperature and pressure around the critical point；after the action of supercritical carbon dioxide，intensive honeycomb like pore and fracture appears，the permeability of coal improved significantly，supercritical CO2 has a better influence on improving the permeability of the coal seam.

Key words： rock mechanics supercritical CO2 permeability temperature pore pressure effective volume stress

引用本文:

孙可明，吴迪，粟爱国，陈治宇，任硕，岳立新，谈健. 超临界CO2作用下煤体渗透性与孔隙压力–有效体积应力–温度耦合规律试验研究[J]. 岩石力学与工程学报, 2013, 32(s2): 3760-3767.
SUN Keming，WU Di，SU Aiguo，CHEN Zhiyu，REN Shuo，YUE Lixin，TAN Jian. COUPLING EXPERIMENTAL STUDY OF COAL PERMEABILITY WITH PORE PRESSURE-EFFECTIVE VOLUME STRESS-TEMPERATURE UNDER SUPERCRITICAL CARBON DIOXIDE ACTION. , 2013, 32(s2): 3760-3767.

链接本文:

https://rockmech.whrsm.ac.cn/CN/Y2013/V32/Is2/3760

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