Role of diffusion osmosis on the mechanical and petrophysical alterations of shale when interacting with aqueous solutions

IF 1.5 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosystem Engineering Pub Date : 2022-03-04 DOI:10.1080/12269328.2022.2081623
Hawra Al-Sarraf, Talal Albazali, A. Garrouch
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引用次数: 1

Abstract

ABSTRACT Several experimental procedures were employed to investigate the impact of salt type and concentration on shale’s effective porosity and compressive strength. The use of a special gravimetric technique made it possible to quantify water and ion transport into shale when interacting with NaCl, KCl, and CaCl2 solutions. Results showed an increase in shale’s effective porosity when dilute solutions (less than 5% w/w) interacted with shale. On the other hand, a decrease in shale’s effective porosity was observed when the concentration of salt increased to 10%, 15% and 20% w/w. It is argued that the increase in porosity at low salt concentrations was due to cementation degradation caused by ionic invasion without loss of grain cohesion and mechanical stability. Decrease in porosity when higher concentrations of salts were used was apparently due to loss of grain cohesion and pore structure integrity caused by the combined effects of ionic diffusion and diffusion osmosis. These observations were confirmed by shale’s compressive strength measurements. The results showed a negligible change in compressive strength of shale when it interacted with 5% NaCl, KCl, and CaCl2 solutions. In contrast, a considerable reduction in shale’s compressive strength was recorded for higher salt concentrations (10%, 15% and 20% w/w).
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当与水溶液相互作用时,扩散渗透在页岩的机械和岩石物理变化中的作用
采用多种实验程序研究了盐类型和浓度对页岩有效孔隙度和抗压强度的影响。当与NaCl、KCl和CaCl2溶液相互作用时,使用特殊的重量分析技术可以量化水和离子进入页岩的传输。结果表明,当稀溶液(小于5%w/w)与页岩相互作用时,页岩的有效孔隙度增加。另一方面,当盐的浓度增加到10%、15%和20%w/w时,观察到页岩的有效孔隙度降低。有人认为,在低盐浓度下孔隙率的增加是由于离子入侵引起的胶结降解,而没有损失颗粒的内聚力和机械稳定性。当使用更高浓度的盐时,孔隙率的降低显然是由于离子扩散和扩散-渗透的联合作用导致的颗粒内聚力和孔结构完整性的损失。页岩抗压强度测量结果证实了这些观测结果。结果表明,当页岩与5%NaCl、KCl和CaCl2溶液相互作用时,其抗压强度变化可忽略不计。相反,盐浓度越高(10%、15%和20%w/w),页岩的抗压强度就会显著降低。
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来源期刊
Geosystem Engineering
Geosystem Engineering GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
0.00%
发文量
11
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