P- and S- wave velocities of consolidated sediments from a seafloor seismic survey in the North Celtic Sea Basin, offshore Ireland
P- and S- wave velocities of consolidated sediments from a seafloor seismic survey in the North Celtic Sea Basin, offshore Ireland
A geophysical survey was conducted over a hydrocarbon prospect in the North Celtic Sea Basin using a small array of ocean-bottom seismographs (OBSs). The purpose of this study was to determine the ratio of (P) compressional- to (S) shear-wave velocity of consolidated sedimentary rocks in order to constrain possible subsurface variations in pore-fluid content. The ratio of VP and VS- is known to be particularly sensitive to lithology, porosity and pore-fluid content, making it a useful parameter for evaluating hydrocarbon prospects. OBSs offer a relatively cheap and time-effective means of acquiring multi-component data compared with ocean-bottom cables. In this contribution, we demonstrate the ability of an OBS survey comprising three pairs of two OBSs spaced at 1.6 km to recover lateral variations in the VP/VS ratio. A key requirement of this type of study is that S-waves will be generated by mode conversions in the subsurface, since they cannot be generated in nor travel through fluids. In this survey, the contrast in physical properties of the hard seabed of the North Celtic Sea Basin provided a means of generating converted S-waves. Two-dimensional ray-tracing and forward modeling was used to create both VP and VS models along a profile crossing the Blackrock prospect in the North Celtic Sea Basin. These models comprise four layers and extend to a maximum depth of 1.1 km. The observed northward decrease in the VP/VS ratio at depths of 500-1000 m below the seafloor in the study area is interpreted to represent lateral variation in the amount of gas present in the pore space of Upper Cretaceous chalks and shales overlying the prospective reservoir.
multicomponent sensors, ocean bottom seismographs, VP/VS ratio, velocity modeling
197-211
Shillington, Donna J.
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Minshull, Timothy A.
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Peirce, Christine
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O'Sullivan, John M.
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March 2008
Shillington, Donna J.
e53cb591-7124-4886-88a5-1b92f65fb199
Minshull, Timothy A.
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Peirce, Christine
1e6e8c67-672e-4b65-a0f0-360f9aac48d5
O'Sullivan, John M.
633ad626-00c7-4dd3-9191-8b9feb7ef8ba
Shillington, Donna J., Minshull, Timothy A., Peirce, Christine and O'Sullivan, John M.
(2008)
P- and S- wave velocities of consolidated sediments from a seafloor seismic survey in the North Celtic Sea Basin, offshore Ireland.
Geophysical Prospecting, 56 (2), .
(doi:10.1111/j.1365-2478.2007.00669.x).
Abstract
A geophysical survey was conducted over a hydrocarbon prospect in the North Celtic Sea Basin using a small array of ocean-bottom seismographs (OBSs). The purpose of this study was to determine the ratio of (P) compressional- to (S) shear-wave velocity of consolidated sedimentary rocks in order to constrain possible subsurface variations in pore-fluid content. The ratio of VP and VS- is known to be particularly sensitive to lithology, porosity and pore-fluid content, making it a useful parameter for evaluating hydrocarbon prospects. OBSs offer a relatively cheap and time-effective means of acquiring multi-component data compared with ocean-bottom cables. In this contribution, we demonstrate the ability of an OBS survey comprising three pairs of two OBSs spaced at 1.6 km to recover lateral variations in the VP/VS ratio. A key requirement of this type of study is that S-waves will be generated by mode conversions in the subsurface, since they cannot be generated in nor travel through fluids. In this survey, the contrast in physical properties of the hard seabed of the North Celtic Sea Basin provided a means of generating converted S-waves. Two-dimensional ray-tracing and forward modeling was used to create both VP and VS models along a profile crossing the Blackrock prospect in the North Celtic Sea Basin. These models comprise four layers and extend to a maximum depth of 1.1 km. The observed northward decrease in the VP/VS ratio at depths of 500-1000 m below the seafloor in the study area is interpreted to represent lateral variation in the amount of gas present in the pore space of Upper Cretaceous chalks and shales overlying the prospective reservoir.
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Published date: March 2008
Keywords:
multicomponent sensors, ocean bottom seismographs, VP/VS ratio, velocity modeling
Identifiers
Local EPrints ID: 48702
URI: http://eprints.soton.ac.uk/id/eprint/48702
ISSN: 0016-8025
PURE UUID: d53a5b02-2be0-435c-9f51-5d6c742964a2
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Date deposited: 09 Oct 2007
Last modified: 16 Mar 2024 03:11
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Contributors
Author:
Donna J. Shillington
Author:
Christine Peirce
Author:
John M. O'Sullivan
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