Stress-sensitivity analysis of rock mechanical and petrophysical properties of fractured tight sandstone under true-triaxial stresses in the laboratory

“…Shale oil is widely distributed in the world, and the statistics of resource potential evaluation results from 116 basins worldwide reveal that the total technically recoverable resources of shale oil are about 251.2 billion tons, with huge development potential. − The development process of such tight reservoir is subject to the coupling effect of multiple factors, resulting in the deformation of nanopores. − Shale oil reservoir nanoscale pore deformation is mainly under the coupling effect of stress motivation and adsorption motivation deformation. − The indoor experimental analysis, numerical simulation methods, and micromechanical analytical equation analysis are the stress motivation pore deformation research field. − The experimental analysis method is mainly based on the results of experiments. Moreover, the empirical mathematical model of porosity and permeability variation with pore pressure at the macroscopic scale is obtained by fitting the data. − However, such models still contain certain empirical parameters and have a relatively poor applicability for microscopic scales.…”

“… 7 − 9 The indoor experimental analysis, numerical simulation methods, and micromechanical analytical equation analysis are the stress motivation pore deformation research field. 10 − 13 The experimental analysis method is mainly based on the results of experiments. Moreover, the empirical mathematical model of porosity and permeability variation with pore pressure at the macroscopic scale is obtained by fitting the data.…”

Study on the Nanopore Deformation Mechanisms in Shale Oil Reservoir: Insights from the Molecular Simulation

“…Shale oil is widely distributed in the world, and the statistics of resource potential evaluation results from 116 basins worldwide reveal that the total technically recoverable resources of shale oil are about 251.2 billion tons, with huge development potential. − The development process of such tight reservoir is subject to the coupling effect of multiple factors, resulting in the deformation of nanopores. − Shale oil reservoir nanoscale pore deformation is mainly under the coupling effect of stress motivation and adsorption motivation deformation. − The indoor experimental analysis, numerical simulation methods, and micromechanical analytical equation analysis are the stress motivation pore deformation research field. − The experimental analysis method is mainly based on the results of experiments. Moreover, the empirical mathematical model of porosity and permeability variation with pore pressure at the macroscopic scale is obtained by fitting the data. − However, such models still contain certain empirical parameters and have a relatively poor applicability for microscopic scales.…”

“… 7 − 9 The indoor experimental analysis, numerical simulation methods, and micromechanical analytical equation analysis are the stress motivation pore deformation research field. 10 − 13 The experimental analysis method is mainly based on the results of experiments. Moreover, the empirical mathematical model of porosity and permeability variation with pore pressure at the macroscopic scale is obtained by fitting the data.…”

Study on the Nanopore Deformation Mechanisms in Shale Oil Reservoir: Insights from the Molecular Simulation