Seismic anisotropy in deforming halite: evidence from the Mahogany salt body

Prasse, Philipp; Wookey, James; Kendall, J.‐M.; Roberts, Dan; Dutko, M.

doi:10.1093/gji/ggaa402

Geophysical Journal International

2020

DOI: 10.1093/gji/ggaa402

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Seismic anisotropy in deforming halite: evidence from the Mahogany salt body

Philipp Prasse

James Wookey

J.‐M. Kendall

et al.

Abstract: Summary We present unambiguous evidence that the Mahogany salt body, located in the Northern part of the Gulf of Mexico, is seismically anisotropic. Evidence of anisotropy comes from shear-wave splitting data obtained from a vertical seismic profile VSP. The dataset consists of 48 vertically aligned receivers in a borehole drilled through the salt body. Splitting analysis is performed on shear wave phases that are converted from compressional waves at the top and bottom of the salt body. The pha… Show more

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Cited by 2 publications

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Spatiotemporal variation in upper crustal seismic anisotropy and VP/VS ratio in Groningen gas field, Netherlands: insights from shear wave splitting

Kim

2022

Geophysical Journal International

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Summary We investigated pore fluid characteristics of reservoir at the Groningen gas field, Netherlands using seismic anisotropy from shear wave splitting. We obtained 663 high-quality splitting parameters, such as delay time (δt) and fast-axis direction (φ), from local induced earthquakes that occurred during 2014–2020. We then conducted δt tomography and spatial averaging of φ to probe the spatiotemporal changes in the parameters. Our results demonstrate that crustal anisotropy in Groningen is closely related to changes in fluid flow and compaction of the reservoir. Low anisotropy strength (normalized delay time, δtn) was detected near shut-in wells where considerable reservoir compaction has occurred, whereas high anisotropy strength occurred near operating wells with less compaction. The temporal variation in δtn further shows that the long-term trend is distinctly different between the shut-in and production wells: while δtn near the shut-in wells remained nearly constant at < 6 ms/km during the entire period, δtn near the operating wells notably showed high values exceeding 10 ms/km in 2015 and a decreasing trend until 2017. In addition to this long-term variation, short-term δtn variation was observed, which can be related to fluid flow perturbations owing to seasonal gas production fluctuations. The φ values along the NNW-SSE, WNW-ESE, and E-W directions could be related to not only the in-situ maximum horizontal stress direction but also the gas flow direction near the extraction wells. The observed negative relationship between the spatial distribution of P-to-S velocity ratio and the anisotropy strength can potentially indicate that gas-filled pore spaces are dominant in the reservoir.

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Spatiotemporal variation in upper crustal seismic anisotropy and VP/VS ratio in Groningen gas field, Netherlands: insights from shear wave splitting

Kim

2022

Geophysical Journal International

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Investigating seismic mode conversions from an ultra-high-velocity caprock by physical modelling, numerical simulations and a Gulf of Mexico salt proximity VSP survey

Zong

Stewart

Yang

et al. 2023

Geophysical Journal International

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Summary Salt structures are widely distributed in many basins worldwide and play an important role in understanding tectonic movements, offering underground storage, and sealing hydrocarbon traps. In addition to the acknowledged difficulties in mapping complex salt structures through seismic methods, when an evaporitic layer, such as anhydrite, forms over salt, it can introduce strong multi-mode conversions that can couple with the primary compressional wavefields and generate artifacts in resulting acoustic images. From two well-log suites from the Gulf of Mexico, we identify thin evaporitic caprocks on top of their salt bodies and analyze their elastic properties. Through controlled experiments, including physical and numerical modeling with a vertical seismic profiling survey geometry, we observe significant shear-mode conversions at the top of the ultra-high-velocity caprock, which further result in a family of prominent S- and P- (converted from S-wave) modes across the top of the salt region. Similarly, in a field survey, we identify evident converted S-waves and a multi-mode P-wave (converted S-wave in the anhydrite layer, and P-wave elsewhere) following the primary P-transmission inside the salt body. While separating the converted S-modes at the receiver end is more unambiguous, the multi-mode P-waves could behave very similarly to the primary P-modes and are more difficult to suppress. Under the common acoustic assumption of seismic velocity model building and imaging, complex mode conversions on top of the salt are generally ignored. Through controlled experiments and a field survey, we analyze the pitfalls associated with this omission. We emphasize the importance of understanding the physics of wave partitioning in the presence of a thin ultra-high-velocity layer on the top of the salt.

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Seismic anisotropy in deforming halite: evidence from the Mahogany salt body

Cited by 2 publications

References 50 publications

Spatiotemporal variation in upper crustal seismic anisotropy and VP/VS ratio in Groningen gas field, Netherlands: insights from shear wave splitting

Spatiotemporal variation in upper crustal seismic anisotropy and VP/VS ratio in Groningen gas field, Netherlands: insights from shear wave splitting

Investigating seismic mode conversions from an ultra-high-velocity caprock by physical modelling, numerical simulations and a Gulf of Mexico salt proximity VSP survey

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