Research on Evolutionary Laws of Mechanical Properties and Pore Structure during CO2 Pre-Injection Fracturing in Shale Reservoirs

Tao, Jiaping; Meng, Siwei; Li, Dongxu; Jin, Xu; Liang, Lihao; Liu, He

doi:10.3390/en17112470

Energies

2024

DOI: 10.3390/en17112470

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Research on Evolutionary Laws of Mechanical Properties and Pore Structure during CO2 Pre-Injection Fracturing in Shale Reservoirs

Jiaping Tao,

Siwei Meng,

Dongxu Li

et al.

Abstract: CO2 pre-injection fracturing is a promising technology for shale reservoirs development, with multiple advantages for improving the complexity of fractures, the production of crude oil, and the sequestration of CO2. Previous research mostly focused on the CO2 effect on macroscopic mechanical properties of shale. However, there are many phenomena closely related to shale micro mechanical behavior. Therefore, this study presents a systematic investigation into the effects of CO2 on both macro and micro mechanica… Show more

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References 41 publications

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Study on CO2 Potential Damage to Fracture Conductivity and Matrix Permeability in Shale Reservoirs

Tao,

Meng,

et al. 2024

Apogce 2024

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CO2 fracturing is a promising unconventional reservoir fracturing technology that can effectively increase fracture complexity and supplement formation energy, thus improving oil production. However, during the development of continental shale reservoirs, some of the CO2 fracturing field tests were not as effective as expected. Therefore, targeted analysis is needed to clarify the CO2 potential damage to shale oil production. Based on nanoindentation experiments, the effect of CO2 treatment on the micro mechanical properties of the shale fracture surface is explored. Then, the effect of mechanical properties changes on the embedding of proppants is clarified. Based on physical simulation experiments, the damage law of fracture conductivity before and after CO2 treatment is analyzed. Finally, through the porosity and permeability analysis, the differential evolution law of shale porosity and permeability around the fractures is clarified. The results show that there is a significant effect of CO2 on the micro mechanical properties of the shale fracture surface. After CO2 treatment, the average hardness of the shale surface is reduced by 22.54%. This leads to a significant increase in the indentation depth of the indenter on the shale surface under the same load. The CO2 treatment can increase the average indentation depth by 15.83%, which will lead to a deeper embedding of the proppants under formation pressure, and consequently lead to a significant decrease in the fracture conductivity. Analysis of porosity and permeability shows that near the fracture areas, the permeability of the shale matrix is improved. However, in the deeper area, the permeability of the shale matrix shows significant damage, with permeability loss of up to more than 70% after CO2 treatment. Based on laboratory experiments, the effect of CO2 on the micromechanical properties of shale fracture surface is explored, the resulting damage to fracture conductivity by proppant embedment is elucidated, and the matrix permeability damage that exists around the fractures is clarified. Therefore, the possible formation damage of CO2 fracturing should be carefully considered in the development of high clay shale reservoirs.

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Study on CO2 Potential Damage to Fracture Conductivity and Matrix Permeability in Shale Reservoirs

Tao,

Meng,

et al. 2024

Apogce 2024

View full text Add to dashboard Cite

show abstract

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Research on Evolutionary Laws of Mechanical Properties and Pore Structure during CO2 Pre-Injection Fracturing in Shale Reservoirs

Cited by 1 publication

References 41 publications

Study on CO2 Potential Damage to Fracture Conductivity and Matrix Permeability in Shale Reservoirs

Study on CO2 Potential Damage to Fracture Conductivity and Matrix Permeability in Shale Reservoirs

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