2007
DOI: 10.1306/08010605177
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Quantitative analysis of slip-induced dilation with application to fault seal

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Cited by 32 publications
(15 citation statements)
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“…However, active faulting in the brittle upper crust is associated with the generation of dilatant strains and consequently increased porosity & permeability. Whether leakage occurs due to critical stressing of faults or fault zone fractures (Barton et al, 1995), slip-induced dilation (Wilkins and Naruk, 2007) or is intimately linked to the build-up and release of geopressured fluids (e.g. Sibson, 1992Sibson, , 1996Sleep and Blanpied, 1992) is uncertain, but documentation of up-dip, fault-related fluid flow in seismically active terranes demonstrate a clear link between active faulting and vertical fluid flow.…”
Section: Discussionmentioning
confidence: 99%
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“…However, active faulting in the brittle upper crust is associated with the generation of dilatant strains and consequently increased porosity & permeability. Whether leakage occurs due to critical stressing of faults or fault zone fractures (Barton et al, 1995), slip-induced dilation (Wilkins and Naruk, 2007) or is intimately linked to the build-up and release of geopressured fluids (e.g. Sibson, 1992Sibson, , 1996Sleep and Blanpied, 1992) is uncertain, but documentation of up-dip, fault-related fluid flow in seismically active terranes demonstrate a clear link between active faulting and vertical fluid flow.…”
Section: Discussionmentioning
confidence: 99%
“…In summary, poor trap integrity may be mitigated in dynamic cases where traps access active and prolific charge (e.g. Cusiana Field, Columbia; Eugene Island, Gulf of Mexico; Wilkins and Naruk, 2007).…”
Section: Discussionmentioning
confidence: 99%
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“…Although in this process the controlled fracturing of the reservoir is desirable, such stress changes may induce irreversible effects into the rock strata, thus causing possible reactivation of the existing faults. Moreover, the effects of active faults on the process of leakage are an area where more research has to be performed; scientists generally suggest that the existence of seismogenic faults affects the permeability structure of the zone enhancing fluid transport [32]. In the process of hydraulic fracturing, the latter may lead to possible leakage of liquefied CO 2 [33] or flowback water, thus resulting in potential hazards.…”
Section: Hazards In Hydraulic Fracturingmentioning
confidence: 99%
“…However the whole process requires a considerable pressure in order to introduce liquefied CO 2 underground, thus causing redistribution of the in-situ effective stresses within the reservoir. Although in EOR fracturing of the oil reservoir is desirable, such stress changes may induce irreversibility to the rock strata, thus causing possible reactivation of the existing faults leading to possible leakage of CO 2 (IEAGHG 2011b;Wilkins and Naruk 2007). Therefore valid estimates of the mechanical behaviour of the rock material under intense injection conditions are crucial to the efficient planning and operation of petroleum reservoirs.…”
Section: Introductionmentioning
confidence: 99%