超临界CO2作用下无烟煤渗透性及力学特性演化规律研究OA
Study on evolution laws of permeability and mechanical properties of anthracite under supercritical CO2 action
为探究超临界 CO2 作用下无烟煤物理力学性质的演化规律,分别对经不同时间超临界CO2 浸泡的干燥/饱水无烟煤煤样开展了渗透性测试和单轴压缩试验.研究结果表明,超临界CO2 会显著影响无烟煤的物理力学性质.随着浸泡时间的延长,无烟煤的渗透率逐渐增大,而抗压强度和弹性模量则逐渐减小;煤样劣化度与浸泡时间近似呈对数函数关系,与渗透率呈线性关系.水分是影响无烟煤物理力学性质的重要因素,与干燥煤样相比,相同浸泡时间下饱水煤样的抗压强度和弹性模量更小,渗透率更大;浸泡 5 d 时,由水分引起的煤样物理力学参数的差异度达到最大值;随着浸泡时间的持续增加,由水分引起的煤样物理力学参数的差异度整体呈下降趋势.
To investigate the evolution of the physical and mechanical properties of anthracite under the action of supercritical CO2,permeability tests and uniaxial compression experiments were conducted on dry and water-saturated anthracite specimens immersed in supercritical CO2 for different durations.The results show that supercritical CO2 significantly affects the physical and mechanical properties of anthracite.With increasing immersion time,the permeability of anthracite gradually increases,while its compressive strength and elastic modulus gradually decrease.The degradation degree of coal specimens approximately follows a logarithmic function with immersion time and a linear relationship with permeability.Water content is an important factor influencing the physic-al and mechanical properties of anthracite.Compared with dry specimens,water-saturated specimens exhibit lower compressive strength and elastic modulus but higher permeability under the same immersion time.The difference in physical and mechanical parameters caused by water content reaches its maximum at an immersion time of 5 days.With a further increase in immersion time,the overall difference in physical and mechanical parameters induced by water content shows a decreasing trend.
张凌云;胡跃飞;刘礼
山西能源学院,山西 晋中 030600山西能源学院,山西 晋中 030600山西省矿产资源调查监测中心,山西 太原 030024
矿业与冶金
无烟煤CO2地质封存超临界CO2渗透性力学特性
anthraciteCO2 geological storagesupercritical CO2permeabilitymechanical properties
《煤矿安全》 2026 (5)
10-18,9
山西省基础研究计划资助项目(202303021211196)山西省基础研究计划青年科学研究资助项目(202403021212324)
评论