Abstract
The presence of sand injections has been shown to enhance the likelihood of hydrocarbon traps within siliciclastic successions. Through the development of large interconnected networks of sills and dykes, sand injection complexes provide a volume of porous and permeable rocks within the low permeability host units. Overall, the formation of sand injection complexes requires extensive fracturing and hydrofracturing, which can be particularly pronounced when sand injections are coupled with brittle tectonic deformation. In some circumstances, this process may threaten the integrity of the reservoir top seal thereby preventing further hydrocarbon accumulation. Studying exceptional exposures along the coastal area of Santa Cruz in California, we report evidence for top seal failure associated with injection episodes. Two distinct sand injection episodes are proposed. The first event, datable to the Late Miocene, resulted in large volumes of sand being emplaced within the top-seal units, and was followed by accumulation of hydrocarbons within the newly injected sandstones. Later, a series of brittle tectonic events, associated with the San Andreas/San Gregorio Fault System, caused remobilization and accumulation of sand along newly formed fault planes. Our case study documents this combination of pervasive brittle deformation and sandstone injection along fault structures, which can ultimately disrupt the integrity of a host unit leading top seal failure and leakage of hydrocarbons.
Highlights
Fracturing and faulting processes associated with emplacement of sandstone intrusions in the shallow crust are caused either by an excess of pore-fluid pressure, or regional tectonic stresses, and are among the main mechanisms responsible for top seal failure in sedimentary successions where sands alternate with low-permeability mudstones (Hurst et al, 2011)
Brittle deformation processes associated with emplacement of sandstone intrusions can lead to either the partial or the complete breaching of the sealing sequence, with two contrasting outcomes for oil retention: i) partial top seal breaching generally will result in enhanced reservoir capacity, as fault and fracture apertures, together with highly-permeable sandstone intrusions, provide new capacity for hydrocarbon accumulation; ii) alternatively, complete breaching of the sealing sequence will prevent hydrocarbons accumulation due to bypass mechanisms or, in the case that hydrocarbons are already accumulated in the reservoir, lead to leakage phenomena (Cartwright et al, 2007)
The main aims of this work are: i) to present evidence for two different sandstone injection stages leading to the building of the Santa Cruz Injection Complex (SCIC); ii) to discuss the relationships between tectonic structures and sandstone intrusions, and provide clear field descriptions about the cross-cutting relationships occurring between the two recognised events; iii) to propose an evolutionary model showing the initiation, development and the successive failure of the of Santa Cruz petroleum system
Summary
Fracturing and faulting processes associated with emplacement of sandstone intrusions in the shallow crust are caused either by an excess of pore-fluid pressure, or regional tectonic stresses, and are among the main mechanisms responsible for top seal failure in sedimentary successions where sands alternate with low-permeability mudstones (Hurst et al, 2011). Hydrofracturing and faulting processes related to fluid overpressure commonly initiate at the interface between the reservoir rocks and top seal strata, when fluid pressure exceeds the fracture gradient and propagates throughout the top seal sequence (Jolly and Lonergan, 2002). Fractures and faults related to regional tectonic stresses commonly involve the entire reservoir/top seal system and, cut through the interface separating the two different portions (Palladino et al, 2018).
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