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Volve Field

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Journal Article
Journal: Geophysics
Published: 16 May 2022
Geophysics (2022) 87 (4): B233–B245.
... developed a workflow to fully use seismic amplitudes, well-log properties, and interpreted seismic structures to build geologically reasonable models. We take the Volve field data as an example and apply our workflow step by step as follows. First, we perform some preprocessing on the provided Volve seismic...
FIGURES | View All (22)
Series: Society of Exploration Geophysicists
Published: 01 January 2010
EISBN: 9781560802174
... data sets are imaged using the same velocity model and imaging algorithm. We have therefore implemented a simultaneous PP/PS prestack depth-migration workflow that resolves many of the above issues, and here we describe its application to OBS data from the Volve field in the Norwegian Central North Sea...
Image
(a) <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> shown in a map located in the offshore North Sea area and (...
Published: 09 October 2019
Figure 8. (a) Volve field shown in a map located in the offshore North Sea area and (b) seismic data along with a well trajectory from the Volve field.
Image
(a) Location of <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> in the North Sea (figure courtesy of Statoil) a...
Published: 11 September 2013
Figure 13. (a) Location of Volve field in the North Sea (figure courtesy of Statoil) and (b) a representative geologic cross-section of Volve field (after Akalin et al., 2010 ).
Image
(a) The <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> located at approximately 200 km west of Stavanger at th...
Published: 16 May 2022
Figure 2. (a) The Volve field located at approximately 200 km west of Stavanger at the southern end of the Norwegian sector (modified from Equinor, 2018 ). (b) The geometry of seismic exploration.
Image
(a) The 3D seismic image in the <span class="search-highlight">Volve</span> <span class="search-highlight">field</span>. (b) The horizons provided alon...
Published: 16 May 2022
Figure 4. (a) The 3D seismic image in the Volve field. (b) The horizons provided along with the seismic image, which are laterally incomplete and are not accurate enough to consistently follow seismic reflections. (c) A cropped seismic image where the shallow part and bad traces are removed. (d
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The PSDM (time) seismic data from the <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> and the CNN impedance inv...
Published: 09 October 2019
Figure 10. The PSDM (time) seismic data from the Volve field and the CNN impedance inversion are plotted along with a geobody extracted based on the low values of the inverted impedance. The blue color in the seismic section denotes positive amplitude, and the red color denotes negative amplitude.
Image
Elastic LSRTM images obtained from the <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> data: without filtering ...
Published: 28 August 2018
Figure 20. Elastic LSRTM images obtained from the Volve field data: without filtering for the (a) P and (b) S images, with filtering for the (c) P and (d) S images.
Image
Elastic RTM images of <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> data: without filtering for the (a) P and...
Published: 28 August 2018
Figure 19. Elastic RTM images of Volve field data: without filtering for the (a) P and (b) S images, with filtering for the (c) P and (d) S images.
Image
<span class="search-highlight">Volve</span> <span class="search-highlight">field</span>-data test: observed (a) vertical- and (b) horizontal-component ...
Published: 28 August 2018
Figure 22. Volve field-data test: observed (a) vertical- and (b) horizontal-component CSGs, predicted (c) vertical- and (d) horizontal-component CSGs. The red arrows indicate the extra predicted P-wave events.
Image
<span class="search-highlight">Volve</span> <span class="search-highlight">field</span>-data test: migration (a)      V  P      and (b)      V  S      ...
Published: 28 August 2018
Figure 18. Volve field-data test: migration (a)  V P and (b)  V S models. The top water layer is from z = 0 to 90 m.
Image
(a) Location of <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> in the North Sea and (b) migration velocity mod...
Published: 23 June 2015
Figure 1. (a) Location of Volve field in the North Sea and (b) migration velocity model together with the source (red line) and receiver (white line) locations.
Image
Location of <span class="search-highlight">Volve</span> <span class="search-highlight">field</span> in the North Sea (figure courtesy of Statoil).
Published: 17 September 2013
Figure 18. Location of Volve field in the North Sea (figure courtesy of Statoil).
Journal Article
Journal: AAPG Bulletin
Published: 01 April 2002
AAPG Bulletin (2002) 86 (4): 557–591.
..., and 12.5 x 10 6 Sm 3 (78 million bbl) of black oil contained in the main fields Sleipner Vest, Sleipner Øst, and Volve. These fields are located primarily within Block 15/9 in the Norwegian sector and extend into neighboring Blocks 15/6 and 16/7. The principal source of black, nonvolatile oil is the Late...
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Journal Article
Journal: Geophysics
Published: 09 October 2019
Geophysics (2019) 84 (6): R869–R880.
...Figure 8. (a) Volve field shown in a map located in the offshore North Sea area and (b) seismic data along with a well trajectory from the Volve field. ...
FIGURES | View All (10)
Journal Article
Journal: Geophysics
Published: 13 July 2022
Geophysics (2022) 87 (5): R379–R389.
... the elastic properties in the target zone with reduced computational cost. In the numerical examples, the Marmousi2 synthetic data and 2D Volve field data are used to demonstrate the feasibility and practicality of the proposed method. 29 7 2021 29 4 2022 5 5 2022 2022 Society...
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Journal Article
Journal: Interpretation
Published: 28 October 2021
Interpretation (2022) 10 (1): T25–T34.
... data to validate the relationship. Once validated at the wells, this relationship can then be used to predict the desired reservoir property volumetrically. We have described the application of deep neural network (DNN) analysis for the determination of porosity and gamma ray over the Volve field...
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Journal Article
Journal: Geophysics
Published: 14 May 2020
Geophysics (2020) 85 (4): WA159–WA171.
... UKCS, three wells from the Volve field in the Norwegian continental shelf, one well from the Penobscot field in the Scotian shelf offshore Canada, and one well from the Teapot Dome data set in Wyoming. The method takes into account the depth trend and the local shape of logs by using ConvLSTM...
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Journal Article
Journal: Geophysics
Published: 23 June 2015
Geophysics (2015) 80 (4): S137–S150.
...Figure 1. (a) Location of Volve field in the North Sea and (b) migration velocity model together with the source (red line) and receiver (white line) locations. ...
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Journal Article
Journal: Geophysics
Published: 21 April 2021
Geophysics (2021) 86 (3): M91–M99.
... quantification. We apply the proposed method to a well-log data set from the Volve Field, offshore Norway, to predict well logs in intervals where the data are incomplete or missing due to operational issues in the drilling procedure. The proposed approach is validated in intervals where the true data...
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