Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8046149 | Applied Clay Science | 2018 | 13 Pages |
Abstract
Water is considered ubiquitous within the shale reservoirs and mainly stored in the hydrophilic clay minerals. The water distribution characteristics and its effect on pore structure are important for the gas-in-place of shale systems. In this work, water vapor adsorption on montmorillonite (Mt), kaolinite (Kaol) and illite (Il) were performed to investigate the behaviors of water adsorption on shale clay. Subsequently, the moisture-equilibrated samples were conducted with N2 gas-adsorption techniques to investigate the effect of adsorbed water on pore structure characteristics, such as apparent pore size distribution (APSD), N2 BET specific surface area (N2-BET SSA) and pore volume (PV). The results show that the water uptake isotherms of our samples have the sigmoidal-shaped profiles and GAB model provides a good fit for the adsorption behavior. In addition, The APSD curves under different relative humidity (RH) conditions have validated the condensation effect and indicated that the small pores (approximately smaller than 5Â nm) are blocked by the capillary water and will disappear on the APSD curves at RH of 98% while the large nanopores (>Â 5Â nm) are covered with water film, these effects will lead dramatically decrease of N2-BET SSA. Taking Mt and Il samples as the examples, the N2-BET SSA has declined to 33.51% and 33.66% compared with the dry conditions when Sw approaches to 50%. Meanwhile, these effects also indicate that the gas storage for clay minerals is massively overestimating under dry condition, the contribution to methane adsorption might be negligible in the actual shale reservoir.
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
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Authors
Dong Feng, Xiangfang Li, Xiangzeng Wang, Jing Li, Fengrui Sun, Zheng Sun, Tao Zhang, Peihuan Li, Yu Chen, Xu Zhang,