Supercritical carbon
dioxide (SC-CO2) has been progressively
used in the development of shale oil and gas. However, the interaction
between CO2 and shale can change the mineral composition
and the pore structure, thus affecting the mechanical properties of
shale. To study the influence of SC-CO2 on shale, shale
samples collected from the Songliao Basin in China are treated with
SC-CO2 at various time intervals. Then, a series of tests
are performed, such as the mineral composition analysis test, the
pore structure analysis test, and the macro mechanics test. The results
show that the mechanical properties of shale gradually decrease exponentially
with the increase of SC-CO2 treatment time. The loss of
elastic modulus reaches about 47% after the treatment of 14 d. X-ray
diffraction analysis shows that the mineral (except quartz) content
decreases after SC-CO2 treatment, and in particular, the
proportions of carbonate minerals significantly decrease by about
12%. The primary pores and fractures are eroded through dissolution,
and new pores and fracture structures are developed on the surface
microstructure. In addition, the proportion of micropores and mesopores
decreases, while the proportion of macropores increases after SC-CO2 treatment. The specific surface area and average pore size
present upward trends during SC-CO2 treatment. The changes
of mineral assemblage and pore structure lead to the obvious decline
of mechanical properties in shale reservoirs. This study contributes
to understanding the evolution characteristics of mechanical properties
under SC-CO2 treatment, which is of great significance
for the efficient exploitation in shale reservoirs.
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