A Minireview of the Influence of CO2Injection on the Pore Structure of Reservoir Rocks: Advances and Outlook

Autor: Gao, Hui, Xie, Yonggang, Cheng, Zhilin, Wang, Chen, Li, Teng, Zhu, Xiulan, Luo, Kaiqing, Cao, Jiangfeng, Li, Ning
Zdroj: Energy & Fuels; January 2023, Vol. 37 Issue: 1 p118-135, 18p
Abstrakt: The recoverable hydrocarbon reserves of conventional oil and gas resources are very limited in China. As important alternative resources, unconventional oil and gas have become a research hotspot. Though tight reservoirs have great potential to alleviate the increasing demand, issues during the development process, such as the rapid pressure depletion, fast decline in production, low productivity, and difficulties in water injection, are usually encountered due to poor physical properties like small pore throats and strong heterogeneity of the pore structure. The CO2flooding technique could effectively replace crude oil from micro-nanopores, which is considered as a promising way to enhance the development performance of tight oil. However, precipitation and dissolution phenomena usually occur along with the CO2injection process into reservoirs, affecting the pore structure evolution and oil displacement efficiency. In addition, artificial and natural fractures will even make this process more complicated. This paper presents the commonly used experimental approaches for CO2injection into tight reservoirs and summarizes the main methods for investigating the influence of CO2injection on the pore structure of reservoir rocks. Based on this, we highlighted that more attention should be paid to the influence of fractures and their dynamic changes on the evolution of pore structure during CO2injection and the study of the solid–liquid interactions. To establish a method that could quantitatively evaluate the full-scale evolution of pore throats after CO2injection is necessary. Meanwhile, the interaction strength of precipitation and dissolution and their effects on pore structure also remain open. Finally, a rigorous framework that could reveal the evolution mechanism and characterize the multiscale pore structure involving multiple influencing factors is urgently warranted.
Databáze: Supplemental Index