Characteristics of micro- and nano-pores in shale oil reservoirs

Porosity is the most common form of reservoirs, and its size, shape, and connectivity directly affect the capacity of oil and gas storage and production. To study the micro-nano-pore structure characteristics of shale oil reservoirs and quantitatively characterize its heterogeneity, this work uses high-precision high-pressure mercury intrusion (HPMI) experimental techniques to study the micro-nano-pore structure characteristics of shale oil, and based on the experimental data, fractal theory is used to quantitatively characterize its heterogeneity. The results of the study show that the micro-nano-pores in the shale oil reservoir are concentrated and continuous, and the pore radius is mainly distributed among the range of 30-500 nm, nanoscale pores are an important part of the pores of the shale oil reservoir. The fractal dimension of the shale oil reservoir is larger than the fractal dimension of typical tight oil reservoirs, indicating that the heterogeneity of shale oil reservoir is stronger. The research results have some theoretical and practical significance for the production of inter-salt shale oil reservoirs.

Automated summary

This study used high-precision high-pressure mercury intrusion experimental techniques and fractal theory to analyze the micro-nano-pore structure characteristics and heterogeneity of shale oil reservoirs. The research found that the micro-nano-pores in the shale oil reservoir are concentrated and continuous, distributed in the range of 30-500 nm, with a larger fractal dimension indicating stronger heterogeneity.