煤矿安全2025,Vol.56Issue(3):12-20,9.DOI:10.13347/j.cnki.mkaq.20241437
吸附条件下含裂隙煤体渗透率演化规律数值模拟分析
Numerical simulation of permeability evolution of fractured coal under adsorption condition
摘要
Abstract
Matrix-fracture interaction is a key factor affecting the non-uniform evolution of coal permeability.In order to explore the real evolution process of fracture permeability behavior under adsorption condition,a reconstruction model based on two-dimension-al CT scan images of fractured coal was used to compare the long-term experimental data of permeability evolution under adsorption,and the reliability of the numerical model was verified.The visual observation of matrix-fracture interaction guided by fracture struc-ture is realized.The results show that the adsorption caused by gas injection leads to the local expansion of the matrix near the crack.The adsorption expansion behavior extends from near fracture region to far fracture region with gas permeation.When adsorption equilibrium is reached,the local expansion effect decreases,and a new matrix-fracture equilibrium state is formed.When the matrix expands and causes the cracks to compact,the volume of the cracks decreases.The heterogeneous expansion behavior leads to a four-stage evolution process of permeability enhancement,decline,rebound and stability;the increase of injection pressure can inhibit the decrease of permeability and increase the final permeability;Langmuir strain constant is positively correlated with the fracture per-meability decreasing process during expansion;the lower the initial permeability of matrix,the greater the decrease of fracture per-meability caused by local expansion,and the longer the permeability rebound period.关键词
瓦斯吸附解吸/渗透率/非均匀变形/裂隙煤体/CT二维重构Key words
gas adsorption and desorption/permeability/non-uniform deformation/fractured coal/CT 2D reconstruction分类
矿业与冶金引用本文复制引用
刘啸..吸附条件下含裂隙煤体渗透率演化规律数值模拟分析[J].煤矿安全,2025,56(3):12-20,9.基金项目
国家自然科学基金区域创新发展联合基金资助项目(U23A20601) (U23A20601)
国家自然科学基金面上资助项目(52374075) (52374075)
