The Gullfaks Field: Creating Value by means of a Multidisciplinary Reservoir Management Approach

Agustsson, Hafsteinn; Stroenen, Lars Kristian; Solheim, Odd Arve

doi:10.4043/10739-ms

Cited by 7 publications

(3 citation statements)

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“…Some proven methods discussed below were employed to achieve the goal. (Agustsson et al, 1999;Landrø et al, 1999). Fig.…”

Section: Methodsmentioning

confidence: 98%

“…2. A cross section of the Gullfaks field highlighting the variation between the domino system, accommodation zone and the horst complex trending from West to East (Agustsson et al, 1999).…”

Section: Methodsmentioning

confidence: 99%

“…1. Regional geology of the Northern North Sea and distribution of hydrocarbon bearing formations within the Lower Jurassic to Paleocene in the Viking Graben(Agustsson et al, 1999;Landrø et al, 1999).…”

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confidence: 99%

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Time lapse (4D) and AVO analysis: A case study of Gullfaks field, Northern North Sea

Umoren

George

2018

NRIAG Journal of Astronomy and Geophysics

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A 4D seismic or time lapse survey has been used to investigate the amplitude versus offset (AVO) effects on seismic data in order to identify anomalies in the Gullfaks field for three different reservoir intervals namely the Tarbert, Cook and Statfjord reservoirs. Repeatability analysis has shown that the earlier seismic vintages are the most unreliable for amplitude anomaly analysis as normalised root-mean square (NRMS) values are greater than 50%. This is above the threshold of good and medium repeatability. Fluid substitution models show increases in both P-wave velocity and density for increasing water saturations with a maximum change of 7.33% in the Pwave velocity, and this is in line with predictions from previous work using the Biot -Gassman equations. AVO modelling for the top Tarbert Formation interface produced scenarios of increasing amplitudes with offset for the presence of hydrocarbons, which dim out with 100% brine saturation. This correlates to class III gas sands for different situations of varying Poisson's ratio across an interface, which has been previously modelled. Two anomalies were identified with one being related to increasing pressure due to water injection correlating to poor permeability around injector well 34/10-B-33. The second anomaly is a case of potential unswept hydrocarbons that displayed a consistent bright spot throughout all of the seismic vintages (in-inlines and crosslines). AVO attribute analysis of this event produced a class II anomaly. However, when comparing near and far offset seismic data, dimming effect was observed producing contrasting evidence. The dimming offset is viewed to have been as a result of poor repeatability values at far offsets. The modelling of the fluid contents in the studied formations to conform to existing literatures justifies the efficacy of the method.

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“…Some proven methods discussed below were employed to achieve the goal. (Agustsson et al, 1999;Landrø et al, 1999). Fig.…”

Section: Methodsmentioning

confidence: 98%

“…2. A cross section of the Gullfaks field highlighting the variation between the domino system, accommodation zone and the horst complex trending from West to East (Agustsson et al, 1999).…”

Section: Methodsmentioning

confidence: 99%

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Time lapse (4D) and AVO analysis: A case study of Gullfaks field, Northern North Sea

Umoren

George

2018

NRIAG Journal of Astronomy and Geophysics

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4D Ocean Bottom Seismic technology: an innovative tool for improved hydrocarbon recovery at Gullfaks

Thompson

Digranes

2005

PGC

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The GullfaksOilFieldislocated inthe Norwegiansector ofthe Northern NorthSea.Time-lapse(4D) seismic datah aveb eenu sed atGullfakss ince 1995a ndh avec ontributed significantly to the reservoir management ofthe field.Permanent fieldinstallations limitthe area wherenewmarinestreamersurveys canbe acquired;thisrestriction affects in25%ofthe field.In2001 anOceanBottom Seismic (OBS)pilot surveywas acquired aroundthe GullfaksC(GFC)p latform,to test whethert he OBS technologycouldc overt he 'shadow zones' aroundthe permanent installations. The results from the 2001 OBS surveyclearly show thatthe OBS data coverthe 'shadow zone'andprovide new4D information aroundthe GFC platform. Withinthe OBS area two newwells havebeensuccessfully drilled based on updated 4D information comparingstreamerdatafrom 1999 andOBS datafrom 2001. Based on the experience from the 2001 surveyanewOBS surveywasacquired in2003 to coverthe areasaroundthe GFA andGFB platforms.

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Time-lapse seismic programme at Gullfaks: value and the road ahead

Najjar

Strønen

Alsos

2003

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Improved hydrocarbon recovery through the identification of unswept oil regions has been the primary objective of the time-lapse seismic programme at the Gullfaks Field in the North Sea. Three time-lapse seismic surveys covering the entire field have been acquired, a pre-production survey in 1985 followed by two surveys in 1996 and 1999. Input from qualitative time-lapse interpretations has resulted in the drilling of a number of successful wells, and has improved the understanding of drainage patterns. Recently, a quantitative time-lapse study was launched. The objective of the study was two-fold: to link flow simulation predictions directly to the 4D seismic response and to map changes in oil saturation and quantify associated uncertainties.

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The Gullfaks Field: Creating Value by means of a Multidisciplinary Reservoir Management Approach

Cited by 7 publications

References 0 publications

Time lapse (4D) and AVO analysis: A case study of Gullfaks field, Northern North Sea

Time lapse (4D) and AVO analysis: A case study of Gullfaks field, Northern North Sea

4D Ocean Bottom Seismic technology: an innovative tool for improved hydrocarbon recovery at Gullfaks

Time-lapse seismic programme at Gullfaks: value and the road ahead

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