Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea

A series of complex experimental histories have been performed on two specimens of Nordland Shale from the cap rock of the Sleipner CO2 injection site in the North Sea. By simultaneously applying a confining back pressure, specimens were isotropically consolidated and fully water saturated under rea...

Full description

Bibliographic Details
Main Authors: Harrington, J. F., Noy, D. J., Horseman, S. T., Birchall, D. J., Chadwick, R. A.
Format: Book Part
Language:English
Published: American Association of Petroleum Geologists 2009
Subjects:
Sleipner
Nordland
Online Access:https://oceanrep.geomar.de/id/eprint/29329/
https://oceanrep.geomar.de/id/eprint/29329/1/Harrington.pdf
id ftoceanrep:oai:oceanrep.geomar.de:29329
record_format openpolar
spelling ftoceanrep:oai:oceanrep.geomar.de:29329 2023-05-15T17:24:37+02:00 Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea Harrington, J. F. Noy, D. J. Horseman, S. T. Birchall, D. J. Chadwick, R. A. 2009 text https://oceanrep.geomar.de/id/eprint/29329/ https://oceanrep.geomar.de/id/eprint/29329/1/Harrington.pdf en eng American Association of Petroleum Geologists https://oceanrep.geomar.de/id/eprint/29329/1/Harrington.pdf Harrington, J. F., Noy, D. J., Horseman, S. T., Birchall, D. J. and Chadwick, R. A. (2009) Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea. In: Carbon dioxide sequestration in geological media - state of the Science. . AAPG Studies in Geology, 59 . American Association of Petroleum Geologists, Tulsa, pp. 521-543. info:eu-repo/semantics/closedAccess Book chapter NonPeerReviewed 2009 ftoceanrep 2023-04-07T15:20:15Z A series of complex experimental histories have been performed on two specimens of Nordland Shale from the cap rock of the Sleipner CO2 injection site in the North Sea. By simultaneously applying a confining back pressure, specimens were isotropically consolidated and fully water saturated under realistic conditions of effective stress. Ingoing and outgoing fluxes were monitored at all times. Multistep consolidation and hydraulic tests were performed prior to gas injection to determine baseline hydraulic properties. Both specimens were found to be relatively compressible with a general trend of reducing compressibility with increasing effective stress. Hydraulic permeability, anisotropy ratio, and specific storage were quantified by inverse modeling using an axisymmetric two-dimensional finite element model. Estimates for elastic deformation parameters were derived from the analysis of consolidation transients. Both specimens yielded comparable intrinsic permeabilities of around 4 times 10minus19 m2 (43 times 10minus19 ft2) perpendicular to bedding and 10minus18 m2 parallel to it. Specific storage was found to vary with effective stress within the range of 2–6 times 10minus5 mminus1 (0.6–1.8 times 10minus5 ftminus1). Gas transport properties were determined by multistep constant pressure test stages, using nitrogen as the permeant. Analysis of the flux data indicates gas entry and breakthrough pressures under initially water-saturated conditions of 3.0 and 3.1 MPa, respectively. Using a stepped pressure history, flow rate through the specimen was varied to examine the underlying flow law and the possible effects of desaturation. With the injection pump stopped, gas pressure declined with time to a finite value, providing a measure of the apparent threshold capillary pressure, which ranged from 1.6 to 1.9 MPa. Numerical modeling of the gas data, using the TOUGH2 code, suggests that anisotropy to gas flow is greater than hydraulic flow. Fits to the pressure data were obtained, but matching the magnitude of the ... Book Part Nordland Nordland Nordland OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel) Sleipner ENVELOPE(-41.417,-41.417,63.883,63.883)
institution Open Polar
collection OceanRep (GEOMAR Helmholtz Centre für Ocean Research Kiel)
op_collection_id ftoceanrep
language English
description A series of complex experimental histories have been performed on two specimens of Nordland Shale from the cap rock of the Sleipner CO2 injection site in the North Sea. By simultaneously applying a confining back pressure, specimens were isotropically consolidated and fully water saturated under realistic conditions of effective stress. Ingoing and outgoing fluxes were monitored at all times. Multistep consolidation and hydraulic tests were performed prior to gas injection to determine baseline hydraulic properties. Both specimens were found to be relatively compressible with a general trend of reducing compressibility with increasing effective stress. Hydraulic permeability, anisotropy ratio, and specific storage were quantified by inverse modeling using an axisymmetric two-dimensional finite element model. Estimates for elastic deformation parameters were derived from the analysis of consolidation transients. Both specimens yielded comparable intrinsic permeabilities of around 4 times 10minus19 m2 (43 times 10minus19 ft2) perpendicular to bedding and 10minus18 m2 parallel to it. Specific storage was found to vary with effective stress within the range of 2–6 times 10minus5 mminus1 (0.6–1.8 times 10minus5 ftminus1). Gas transport properties were determined by multistep constant pressure test stages, using nitrogen as the permeant. Analysis of the flux data indicates gas entry and breakthrough pressures under initially water-saturated conditions of 3.0 and 3.1 MPa, respectively. Using a stepped pressure history, flow rate through the specimen was varied to examine the underlying flow law and the possible effects of desaturation. With the injection pump stopped, gas pressure declined with time to a finite value, providing a measure of the apparent threshold capillary pressure, which ranged from 1.6 to 1.9 MPa. Numerical modeling of the gas data, using the TOUGH2 code, suggests that anisotropy to gas flow is greater than hydraulic flow. Fits to the pressure data were obtained, but matching the magnitude of the ...
format Book Part
author Harrington, J. F.
Noy, D. J.
Horseman, S. T.
Birchall, D. J.
Chadwick, R. A.
spellingShingle Harrington, J. F.
Noy, D. J.
Horseman, S. T.
Birchall, D. J.
Chadwick, R. A.
Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
author_facet Harrington, J. F.
Noy, D. J.
Horseman, S. T.
Birchall, D. J.
Chadwick, R. A.
author_sort Harrington, J. F.
title Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
title_short Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
title_full Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
title_fullStr Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
title_full_unstemmed Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea
title_sort laboratory study of gas and water flow in the nordland shale, sleipner, north sea
publisher American Association of Petroleum Geologists
publishDate 2009
url https://oceanrep.geomar.de/id/eprint/29329/
https://oceanrep.geomar.de/id/eprint/29329/1/Harrington.pdf
long_lat ENVELOPE(-41.417,-41.417,63.883,63.883)
geographic Sleipner
geographic_facet Sleipner
genre Nordland
Nordland
Nordland
genre_facet Nordland
Nordland
Nordland
op_relation https://oceanrep.geomar.de/id/eprint/29329/1/Harrington.pdf
Harrington, J. F., Noy, D. J., Horseman, S. T., Birchall, D. J. and Chadwick, R. A. (2009) Laboratory study of gas and water flow in the Nordland Shale, Sleipner, North Sea. In: Carbon dioxide sequestration in geological media - state of the Science. . AAPG Studies in Geology, 59 . American Association of Petroleum Geologists, Tulsa, pp. 521-543.
op_rights info:eu-repo/semantics/closedAccess
_version_ 1766115714409693184

Similar Items