Seismic characterization of a fluid escape structure in the North Sea: The Scanner Pockmark complex area
Seismic characterization of a fluid escape structure in the North Sea: The Scanner Pockmark complex area
Subsurface fluid escape structures are geological features which are commonly observed in sedimentary basins worldwide. Their identification and description have implications for various subsurface fluid flow applications, such as assuring integrity of overburden rocks to geological CO2 storage sites. In this study, we applied 3-D first-arrival traveltime tomography to a densely sampled wide-azimuth and wide-angle ocean bottom seismometer (OBS) data set collected over the Scanner Pockmark complex, a site of active gas venting in the North Sea. Seismic reflection data show a chimney structure underlying the Scanner Pockmark. The objective of this study was to characterize this chimney as a representative fluid escape structure in the North Sea. An area of 6$\times $6 km2 down to a depth of 2 km below sea level was investigated using a regularized tomography algorithm. In total, 182 069 manually picked traveltimes from 24 OBS were used. Our final velocity model contains compressional wave velocity perturbations ranging from -125 to +110 ms-1 relative to its average 1-D model and compares favourably with a coincident seismic reflection data set. The tomographic velocity model reveals that the chimney as observed in seismic reflection data is part of a larger complex fluid escape structure, and discriminates the genuine chimney from seismic artefacts. We find that part of the seeping gas migrates from a deep source, accumulates beneath the Crenulate Reflector unconformity at ∼250 m below seafloor (mbsf) before reaching the porous sediments of the Ling Bank and Coal Pit formation at <100 mbsf. In addition, the model shows that the venting gas at Scanner Pockmark is also being fed laterally through a narrow NW-SE shallow channel. Quantitative velocity analysis suggests a patchy gas saturation within the gas-charged sediments of the Ling Bank and the Coal Pit formations. Confined to the well-resolved regions, we estimate a base case average gas saturation of ∼9 per cent and in-situ gas volume of ∼1.64 × 106m3 across the Ling Bank and Coal Pit Fm. that can sustain the observed methane flux rate at the Scanner Pockmark for about 10 to 17 yr.
Controlled Source Seismology, Fluid Escape Structure, Inversion Theory, Seismic Tomography, wide-angle Seismic, Fluid escape structure, Inverse theory, Seismic tomography, Controlled source seismology, Wide-angle seismic data
597–619
Jedari Eyvazi, Farid
5162770a-6c62-43a0-8523-91b9f26f7855
Bayrakci, Gaye
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Minshull, Timothy
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Bull, Jonathan
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Henstock, Timothy
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Macdonald, Calum
c95795e1-abc8-45e9-80f3-780d7b88742c
Robinson, Adam
f5aea908-d884-465b-bfc1-ed67ca16ed85
1 July 2023
Jedari Eyvazi, Farid
5162770a-6c62-43a0-8523-91b9f26f7855
Bayrakci, Gaye
8717575b-4aa2-4046-9b6b-39b955c5a742
Minshull, Timothy
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Bull, Jonathan
974037fd-544b-458f-98cc-ce8eca89e3c8
Henstock, Timothy
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Macdonald, Calum
c95795e1-abc8-45e9-80f3-780d7b88742c
Robinson, Adam
f5aea908-d884-465b-bfc1-ed67ca16ed85
Jedari Eyvazi, Farid, Bayrakci, Gaye, Minshull, Timothy, Bull, Jonathan, Henstock, Timothy, Macdonald, Calum and Robinson, Adam
(2023)
Seismic characterization of a fluid escape structure in the North Sea: The Scanner Pockmark complex area.
Geophysical Journal International, 234 (1), .
(doi:10.1093/gji/ggad078).
Abstract
Subsurface fluid escape structures are geological features which are commonly observed in sedimentary basins worldwide. Their identification and description have implications for various subsurface fluid flow applications, such as assuring integrity of overburden rocks to geological CO2 storage sites. In this study, we applied 3-D first-arrival traveltime tomography to a densely sampled wide-azimuth and wide-angle ocean bottom seismometer (OBS) data set collected over the Scanner Pockmark complex, a site of active gas venting in the North Sea. Seismic reflection data show a chimney structure underlying the Scanner Pockmark. The objective of this study was to characterize this chimney as a representative fluid escape structure in the North Sea. An area of 6$\times $6 km2 down to a depth of 2 km below sea level was investigated using a regularized tomography algorithm. In total, 182 069 manually picked traveltimes from 24 OBS were used. Our final velocity model contains compressional wave velocity perturbations ranging from -125 to +110 ms-1 relative to its average 1-D model and compares favourably with a coincident seismic reflection data set. The tomographic velocity model reveals that the chimney as observed in seismic reflection data is part of a larger complex fluid escape structure, and discriminates the genuine chimney from seismic artefacts. We find that part of the seeping gas migrates from a deep source, accumulates beneath the Crenulate Reflector unconformity at ∼250 m below seafloor (mbsf) before reaching the porous sediments of the Ling Bank and Coal Pit formation at <100 mbsf. In addition, the model shows that the venting gas at Scanner Pockmark is also being fed laterally through a narrow NW-SE shallow channel. Quantitative velocity analysis suggests a patchy gas saturation within the gas-charged sediments of the Ling Bank and the Coal Pit formations. Confined to the well-resolved regions, we estimate a base case average gas saturation of ∼9 per cent and in-situ gas volume of ∼1.64 × 106m3 across the Ling Bank and Coal Pit Fm. that can sustain the observed methane flux rate at the Scanner Pockmark for about 10 to 17 yr.
Text
Seismic Characterisation of a Fluid Escape Structure in the North Sea
- Accepted Manuscript
Text
ggad078
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Accepted/In Press date: 13 February 2023
Published date: 1 July 2023
Additional Information:
Publisher Copyright:
© 2023 The Author(s). Published by Oxford University Press on behalf of The Royal Astronomical Society.
Keywords:
Controlled Source Seismology, Fluid Escape Structure, Inversion Theory, Seismic Tomography, wide-angle Seismic, Fluid escape structure, Inverse theory, Seismic tomography, Controlled source seismology, Wide-angle seismic data
Identifiers
Local EPrints ID: 475619
URI: http://eprints.soton.ac.uk/id/eprint/475619
ISSN: 0956-540X
PURE UUID: 5d60e2f2-1413-4143-9109-d92138833ea2
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Date deposited: 22 Mar 2023 17:44
Last modified: 17 Mar 2024 03:56
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Author:
Farid Jedari Eyvazi
Author:
Gaye Bayrakci
Author:
Calum Macdonald
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