Mechanical behavior of sandstone specimens saturated in brine: Experimental study and particle mechanics approach
编号:77 稿件编号:278 访问权限:仅限参会人 更新:2022-05-12 16:42:58 浏览:878次 口头报告

报告开始:2022年05月27日 10:50 (Asia/Shanghai)

报告时间:15min

所在会议:[S10] Resource Development and Utilization of Underground Space » [S10-2] Resource Development and Utilization of Underground Space-2

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摘要
The strength and deformation behavior of reservoir rock saturated in brine is of great interest to scientists and engineers in geological carbon dioxide (CO2) sequestration in deep saline aquifers. However, the mechanical behavior of brine-saturated sedimentary sandstone under triaxial compression with respect to different confining pressures has not been fully investigated, in particular in view of the numerical simulation. In this study, experimental study and numerical simulation were carried out on brine-saturated sandstone specimens to explore the mechanical properties, micro-crack or acoustic emission and energy dissipation in sandstone with various salinities of brine. First, laboratory uniaxial compression tests were conducted on brine-saturated sandstone specimens and the enhancement in strength and elastic modulus were observed with increasing brine salinity. The scanning electron microscopy results showed NaCl crystals deposited in the pore space, which provides an evidence of strength and modulus variation of sandstone after brine saturation. Second, micro parameters in PFC3D numerical model were calibrated for each brine salinity condition, and the numerically simulated results were compared with the experimental results. The numrical results agreed well with the triaxial compression test results, indicating the rightness and reasonability of calibrated models. Finally, the entire evolution of number of micro crack, cracking and energy dissipation in the numerical specimen were analyzed in PFC3D.
关键字
Sandstone; brine saturation; strength; micro crack; PFC3D
报告人
Yanhua HUANG
China University of Mining and Technology

稿件作者
彦华 黄 中国矿业大学
圣奇 杨 中国矿业大学力土学院
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