期刊
ENERGIES
卷 14, 期 5, 页码 -出版社
MDPI
DOI: 10.3390/en14051468
关键词
normal stress of fault plane; strike slip fault; sealing of faults; displacement pressure; numerical simulation of stress
资金
- Strategic Priority Research Program of the Chinese Academy of Sciences [XDA14010301]
- National Natural Science Foundation of China [41872143]
This study focuses on evaluating the sealing capacity of strike-slip faults by utilizing the displacement pressure difference, considering the impacts of gravity and horizontal stress on fault rocks. The quantitative relationship between the displacement pressure of rocks, burial depth, and clay content is revealed, highlighting the importance of normal stress magnitude, stress regime, and clay content in controlling the sealing capacity of strike-slip faults.
The sealing of a fault zone has been a focus for geological studies in the past decades. The majority of previous studies have focused on the extensional regimes, where the displacement pressure difference between fault rock and reservoir was used to evaluate the fault-sealing property from the basic principle of fault sealing. When considering the displacement pressure difference, the impact of gravity on the fault rock was considered, whereas the impact of horizontal stress was ignored. In this study, we utilize the displacement pressure difference as an index to evaluate the sealing capacity of strike-slip faults, in which both the impacts of gravity and horizontal stress on the fault rocks are all integrated. By calculating the values of sigma(H)/sigma(V) and sigma(h)/sigma(V) in the vicinity of fault planes, the coefficient K of compaction impacts on fault rocks between normal stress to fault planes and gravity was then determined. By revealing the quantitative relationship between the displacement pressure of rocks, burial depth and clay content, the displacement pressure difference between fault rocks and reservoirs were calculated. The results suggest that the sealing capacity of a strike-slip fault is not only related to the magnitude of normal stress to the fault plane, but also to the stress regime. The clay content is also an important factor controlling the sealing capacity of strike-slip faults.
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