Ocean bottom seismometer investigations in the Ormen Lange area offshore mid-Norway provide evidence for shallow gas layers in subsurface sediments
Ocean bottom seismometer investigations in the Ormen Lange area offshore mid-Norway provide evidence for shallow gas layers in subsurface sediments
A multi-component Ocean Bottom Seismometer (OBS) survey in the Ormen Lange area of the Storegga Slide constrained the existence of free gas and possibly gas hydrates in the shallow subsurface. The three investigated areas (A, B, C) lie in close vicinity to the slide scar above one of the largest deep-water gas reservoirs on the mid-Norwegian margin. Generally, P-wave and S-wave velocities are high compared to average velocities at a given burial depth due to an exposure of deeper sediments as a consequence of sediment mass movement by the Storegga slide. Indications for the presence of gas within the sediments exist for two of the three investigated areas. The gas accumulates beneath less permeable layers of glacigenic debris flow deposits. Average gas concentration of pore space in both areas is 0.9% (area A) and 0.15% (area B). The geophysical data do not allow a conclusive answer about the occurrence of gas hydrates. Their presence might be masked by high-velocity debris flow deposits, which occur in the subsurface. Nevertheless, gas hydrate concentrations of pore space have been estimated to about 9% in area A and 7% in area B.
shallow gas, gas hydrates, ocean bottom seismometer, Storegga Slide, mid-Norwegian margin, deep-water exploration
287-297
Mienert, J.
90ba1f28-5249-4663-ad09-b6abc8b46068
Bunz, S.
3969591c-f8ea-4035-a0ac-b8a4990bf362
Guidard, S.
92596f38-cd17-4a7d-9dee-d32baafc18aa
Vanneste, M.
37b5a71c-888c-4f29-8f7e-62b07b7fd81c
Berndt, C.
231544d4-f681-44a2-ae6e-74385e588bf6
2005
Mienert, J.
90ba1f28-5249-4663-ad09-b6abc8b46068
Bunz, S.
3969591c-f8ea-4035-a0ac-b8a4990bf362
Guidard, S.
92596f38-cd17-4a7d-9dee-d32baafc18aa
Vanneste, M.
37b5a71c-888c-4f29-8f7e-62b07b7fd81c
Berndt, C.
231544d4-f681-44a2-ae6e-74385e588bf6
Mienert, J., Bunz, S., Guidard, S., Vanneste, M. and Berndt, C.
(2005)
Ocean bottom seismometer investigations in the Ormen Lange area offshore mid-Norway provide evidence for shallow gas layers in subsurface sediments.
Marine and Petroleum Geology, 22 (1-2), .
(doi:10.1016/j.marpetgeo.2004.10.020).
Abstract
A multi-component Ocean Bottom Seismometer (OBS) survey in the Ormen Lange area of the Storegga Slide constrained the existence of free gas and possibly gas hydrates in the shallow subsurface. The three investigated areas (A, B, C) lie in close vicinity to the slide scar above one of the largest deep-water gas reservoirs on the mid-Norwegian margin. Generally, P-wave and S-wave velocities are high compared to average velocities at a given burial depth due to an exposure of deeper sediments as a consequence of sediment mass movement by the Storegga slide. Indications for the presence of gas within the sediments exist for two of the three investigated areas. The gas accumulates beneath less permeable layers of glacigenic debris flow deposits. Average gas concentration of pore space in both areas is 0.9% (area A) and 0.15% (area B). The geophysical data do not allow a conclusive answer about the occurrence of gas hydrates. Their presence might be masked by high-velocity debris flow deposits, which occur in the subsurface. Nevertheless, gas hydrate concentrations of pore space have been estimated to about 9% in area A and 7% in area B.
This record has no associated files available for download.
More information
Published date: 2005
Keywords:
shallow gas, gas hydrates, ocean bottom seismometer, Storegga Slide, mid-Norwegian margin, deep-water exploration
Identifiers
Local EPrints ID: 24028
URI: http://eprints.soton.ac.uk/id/eprint/24028
ISSN: 0264-8172
PURE UUID: 4c93c461-d185-4fde-a4a7-619cee6f07f3
Catalogue record
Date deposited: 17 Mar 2006
Last modified: 15 Mar 2024 06:51
Export record
Altmetrics
Contributors
Author:
J. Mienert
Author:
S. Bunz
Author:
S. Guidard
Author:
M. Vanneste
Author:
C. Berndt
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics