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Grane Field

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Journal Article

Joint PP-PS angle-stack analysis and AVA inversion in Grane Field, offshore Norway

Tim Jenkinson, Rishi Bansal, Alex Martinez, Mike Matheney, Vijay Khare, Vincent Cornaglia
Journal: The Leading Edge
Published: 01 October 2010
The Leading Edge (2010) 29 (10): 1228–1239.
DOI: https://doi.org/10.1190/1.3496913
.... In subsequent years, more 4C OBC surveys with similar objectives were undertaken. One of the more notable of these was acquired over the Grane Field license in the Norwegian North Sea ( Figure 1 ). Grane is a significant resource, with an expected ultimate recovery of more than 800 million b/o. At the 2006...
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Journal Article

Attenuation of seismic water-column noise, tested on seismic data from the Grane field

M. Landrø
Journal: Geophysics
Published: 04 June 2007
Geophysics (2007) 72 (4): V87–V95.
DOI: https://doi.org/10.1190/1.2740020
... the difference in water depth and reservoir depth to subtract water-column noise. The proposed subtraction method works well where water depth is constant. The method was tested on a multicomponent seismic data set from the Grane field (North Sea). In this location, the water depth is fairly constant over...
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Generalized lithostratigraphy of the <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span> area. Modified from Mange...

Generalized lithostratigraphy of the Grane Field area. Modified from Mange...

Published: 01 December 2021
Fig. 4. Generalized lithostratigraphy of the Grane Field area. Modified from Mangerud et al. (1999) . The Heimdal Formation is the main reservoir unit in the Grane Field.
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Location, log response and a seismic cross-section of the <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span>, Nort...

Location, log response and a seismic cross-section of the Grane Field, Nort...

Published: 01 December 2021
Fig. 2. Location, log response and a seismic cross-section of the Grane Field, North Sea. (a) Location of the Grane Field and the three available wells. (b) Gamma-ray logs from the three available wells, where encountered sand injectites above the reservoir are highlighted. MD, measured depth. (c
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Conceptual illustration of the <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span> reservoir and surrounding shales...

Conceptual illustration of the Grane Field reservoir and surrounding shales...

Published: 01 December 2021
Fig. 5. Conceptual illustration of the Grane Field reservoir and surrounding shales, with corresponding core photographs and seismic sections showing the reservoir and small-scale sand injectites observed above it. Core photographs were acquired from the Norwegian Petroleum Directorate ( https
Image
Comparison of a real seismic line from the <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span> and synthetic seismi...

Comparison of a real seismic line from the Grane Field and synthetic seismi...

Published: 01 December 2021
Fig. 16. Comparison of a real seismic line from the Grane Field and synthetic seismic images with and without sand injectites above the main reservoir sand. ( a ) Real seismic line from the Grane Field. Location of the cross-section can be seen in Figure 2a . ( b ) Synthetic seismic image
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Array information for the PRM system deployed over the <span class="search-highlight">Grane</span> <span class="search-highlight">field</span> in the N...

Array information for the PRM system deployed over the Grane field in the N...

Published: 01 October 2021
Figure 1. Array information for the PRM system deployed over the Grane field in the Norwegian North Sea. The array is separated into “inline” sections as represented by the color scale. (a) The array geometry overlaid on the field’s polygon with the black triangle indicating the location
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<span class="search-highlight">Grane</span> <span class="search-highlight">Field</span> is the largest of several deepwater sand reservoirs shown here....

Grane Field is the largest of several deepwater sand reservoirs shown here....

Published: 01 October 2010
Figure 1. Grane Field is the largest of several deepwater sand reservoirs shown here. The reservoir depth is approximately 1700 m below sea level and is being produced under a unitized license agreement. Development to date has been achieved by long-reach horizontal wells drilled from a single
Image
Depth map of <span class="search-highlight">Grane</span> <span class="search-highlight">field</span> showing the location of inline 5120 from the 3D OB...

Depth map of Grane field showing the location of inline 5120 from the 3D OB...

Published: 04 June 2007
Figure 2. Depth map of Grane field showing the location of inline 5120 from the 3D OBC data (dashed line).
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<span class="search-highlight">Grane</span> <span class="search-highlight">Field</span> is in the Norwegian sector of the North Sea.

Grane Field is in the Norwegian sector of the North Sea.

Published: 01 June 2004
Figure 1. Grane Field is in the Norwegian sector of the North Sea.
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3-D map (traveltime) of <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span>.

3-D map (traveltime) of Grane Field.

Published: 01 April 2001
Figure 1. 3-D map (traveltime) of Grane Field.
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Map of <span class="search-highlight">Grane</span> <span class="search-highlight">Field</span>. The reservoir extent is based on conventional seismic i...

Map of Grane Field. The reservoir extent is based on conventional seismic i...

Published: 01 April 2001
Figure 2. Map of Grane Field. The reservoir extent is based on conventional seismic interpretation. Black lines indicate 2-D seismic lines considered in this article. They intersect well 1, well 3, and well 4. (Color represents traveltime depth. Red and yellow are relatively shallow compared
Journal Article

Recognition and characterization of small-scale sand injectites in seismic data: implications for reservoir development

Alma Dzozlic Bradaric, Trond Andersen, Isabelle Lecomte, Helge Løseth, Christian Haug Eide
Published: 01 December 2021
Journal of the Geological Society (2022) 179 (2): jgs2021-041.
DOI: https://doi.org/10.1144/jgs2021-041
...Fig. 4. Generalized lithostratigraphy of the Grane Field area. Modified from Mangerud et al. (1999) . The Heimdal Formation is the main reservoir unit in the Grane Field. ...
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Journal Article

Time-lapse full-waveform inversion as a reservoir-monitoring tool — A North Sea case study

Erik Hicks, Henning Hoeber, Marianne Houbiers, Séverine Pannetier Lescoffit, Andrew Ratcliffe, Vetle Vinje
Journal: The Leading Edge
Published: 01 October 2016
The Leading Edge (2016) 35 (10): 850–858.
DOI: https://doi.org/10.1190/tle35100850.1
... reflection data? Also, what algorithmic developments may be needed to achieve robust 4D FWI results? Time-lapse data sets acquired with highly repeatable permanent-reservoir-monitoring (PRM) acquisition systems, such as the one deployed over the Grane Field in the Norwegian North Sea, are well suited to help...
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Journal Article

Source Rock Quality and Hydrocarbon Migration Pathways within the Greater Utsira High Area, Viking Graben, Norwegian North Sea

Gary H. Isaksen, K. Haakan I. Ledje
Journal: AAPG Bulletin
Published: 01 May 2001
AAPG Bulletin (2001) 85 (5): 861–883.
DOI: https://doi.org/10.1306/8626CA23-173B-11D7-8645000102C1865D
... of Paleocene and Eocene age. These sands (Balder, Heimdal, and Ty formations) pinch out to the east in blocks 25/8 (Jotun field) and 25/11 (Balder and Grane fields) and along the western margin of the Utsira High to form a combination of stratigraphic and structural traps. Marine sands of Middle and Late...
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Sand injectite models where the structures are downscaled according to well...

Sand injectite models where the structures are downscaled according to well...

Published: 01 December 2021
Fig. 14. Sand injectite models where the structures are downscaled according to well observations from the Grane Field. ( a , b ) Geological input model and corresponding synthetic seismic image without sand injectites above the reservoir. ( c , d ) Geological model and synthetic seismic image
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Close-up comparison of seismic signatures observed in the synthetic seismic...

Close-up comparison of seismic signatures observed in the synthetic seismic...

Published: 01 December 2021
Fig. 17 Close-up comparison of seismic signatures observed in the synthetic seismic and real seismic data from the Grane Field.
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<span class="search-highlight">Grane</span> reservoir is located in the North Sea (coast of Norway) with a modern...

Grane reservoir is located in the North Sea (coast of Norway) with a modern...

Published: 12 May 2021
Figure 1. Grane reservoir is located in the North Sea (coast of Norway) with a modern permanent reservoir monitoring (PRM) system. Dashed lines across the Grane field show the PRM cables (top right). The figure at the bottom is the area of interest marked with a black box in the top‐right figure
Journal Article

A deep resistivity logging-while-drilling device for proactive geosteering

Jean Seydoux, Jacques Tabanou, Yves De Laet, Dzevat Omeragic, Jean-Michel Denichou, Luca Ortenzi, Marianne Iverson, Morten Fejerskov
Journal: The Leading Edge
Published: 01 June 2004
The Leading Edge (2004) 23 (6): 581–586.
DOI: https://doi.org/10.1190/1.1766233
...Figure 1. Grane Field is in the Norwegian sector of the North Sea. ...
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Summary of the different challenges associated with small-scale sand inject...

Summary of the different challenges associated with small-scale sand inject...

Published: 01 December 2021
Fig. 1. Summary of the different challenges associated with small-scale sand injectites overlying the main reservoir sandstone at the Grane Field. Note that the amount, size, geometry and distribution of overlying sand injectites is generally unknown before drilling, because these are too thin