Well Interference Test On Girassol

Retail, Philippe; Thane, Larry; Liberelle, Emmanuel

doi:10.4043/14167-ms

Cited by 10 publications

(1 citation statement)

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“…Valuable information concerning the transmissivity through faults and between layers was obtained from these tests, which was used directly to alter the well pattern (the number of well was reduced by one). 25 Transient PI Estimation. The ability to follow the PI evolution is very useful for the HDW well in which the transient aspect (as compared to the time required to reach stabilisation) is usually dominant in such short flow periods.…”

Section: /D/bar To 95m 3 /D/barmentioning

confidence: 99%

Development Well Testing Enhancement Using a Multiphase Flowmeter

Mus¹,

Toskey²,

Bascoul³

et al. 2002

Proceedings of SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe use of a multiphase flow meter in the well testing facilities has yielded significant enhancements for the development program of the Girassol deep offshore field. Well performance assessment is improved by the complete data coverage and better accuracy the meter provides. Operating time is reduced because the well test data is obtained during the clean-up period. Use of the meter also allows a better control of the well clean-up duration and effectiveness. Overall, the flow assurance is improved because of the improved data quality given by the flow meter.

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Section: /D/bar To 95m 3 /D/barmentioning

confidence: 99%

Development Well Testing Enhancement Using a Multiphase Flowmeter

Mus¹,

Toskey²,

Bascoul³

et al. 2002

Proceedings of SPE Annual Technical Conference and Exhibition

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Sand Control Robustness in a Deepwater Development: Case Histories From Girassol Field (Angola)

Petit

2007

European Formation Damage Conference

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Wells in the Girassol field, offshore Angola, are situated in very deep water and have being completed in unconsolidated sandy turbiditic reservoirs. Today in Girassol which includes also Jasmin reservoir, 29 wells have been completed and connected to production facilities and pressure maintenance is coming from 13 water injectors and 2 gas injectors. The completion strategies employed have included mainly stand alone screens in open hole and cased hole frac-packs. A review of the design for both producers and injectors, along with the criteria related to the sand characteristics, and off-shore implementation of the completions will be described. Production strategy recommendations to minimize the sand risk during well start-up and ramp-up and also well steady-state production will be given. This paper will provide an overview of the behavior of both sand control techniques after 5 years of production and injection. An in depth analysis of the different productivity/injectivity characteristics such as drawdown values applied and PLT observations during these 5 years allow us to draw some general recommendations for these types of sand control techniques when used in a similar geological environment. Impact of the measured drawdown values, on the sand control robustness will be described. Introduction The Girassol fields were discovered in May 1996 and were appraised in 1997 with two additional wells. Fields are in Block 17, located offshore Angola, 210 km northwest of Luanda, in water from 1,250 to 1,400 m (Fig. 1). Girassol field is one of several fields in this prolific block and Jasmin is considered as part of the same reservoir. Under a production sharing agreement with Sociedade Nacional de CombustÍveis de Angola (SONANGOL), the Angolan state oil company, partners in the field include Total E&P Angola (40%, operator), Esso Exploration Angola (Block 17) Ltd (20%), BP Exploration (Angola) Ltd (16.7%), Statoil Angola Block 17 A.S (13.3%), and Norsk Hydro (10%). High productivity provided with horizontal drains allows to significantly reduce the number of well. It is a full subsea development tied back to spread-moored floating production storage and offloading (FPSO) unit (Fig. 2). All reservoirs in this field are constituted of highly unconsolidated sands, which require the wells to be completed with sand-control techniques. The wells have high productivity, up to 40,000 barrels of oil per day (BOPD), because of the excellent reservoir characteristics. Pressure maintenance of the field is achieved with seawater injection and re-injection of produced gas for a limited time. The variations expected in sand qualities and reservoir configurations indicated that more than one completion method would likely be required. Field Geologic and Reservoir Description The Girassol/Jasmim reservoirs in this field consist of unconsolidated fine to very coarse sands deposited on the Block 17 area after passing through the canyon of the Congo River. Girassol/Jasmim Oligocene structure evolution is driven by gravity tectonic evolution. Late Cretaceous to Oligocene is characterized by the development of a NW-SE trough bounded by passive salt ridges. The Upper Oligocene corresponds to the deposition of turbidites along NE-SW channelized systems within this NW-SE basin between peripheral salt ridges.

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Key Elements of Successful Well and Reservoir Management in the Bonga Field, Deepwater Nigeria

Sathyamoorthy¹,

Olatunbosun²,

Sabatini³

et al. 2009

Nigeria Annual International Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractProduction from the deepwater Bonga turbidite reservoirs was started in November 2005. As with all waterflood and Enhanced Oil Recovery schemes, 'world-class' Well and Reservoir Management (WRM) is the foundation of a successful project. A comprehensive WRM plan was defined for Bonga very early in the project, and its implementation from start-up has demonstrated tremendous value.More than 220 MMstb have been produced as of March 2009 from 13 subsea producers, and reservoir pressures have been maintained by water injection from the start of production in 13 subsea high rate water injectors, allowing high field production rates to be sustained. Well and reservoir performance data obtained during the first three years of production, and information from 4 D seismic shot in early 2008 are now used to optimize the planning and drilling of additional wells as part of the Phase 2 development drilling project. Bonga is a 'brownfield' that is not immune to normal well and asset integrity issues, and declines in well injectivity and productivity. Ability to respond swiftly to these issues is part of the Bonga WRM Plan. This paper presents key elements of successful WRM in Bonga. These include people factor and cross discipline integration, Smart Fields ® capability, 'live' WRM Plan and monitoring, good understanding of subsurface, application of integrated production modelling, intervention readiness and effective well integrity management. The paper concludes on key learnings applicable to future deepwater waterflood projects.

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Well Interference Test On Girassol

Cited by 10 publications

References 0 publications

Development Well Testing Enhancement Using a Multiphase Flowmeter

Development Well Testing Enhancement Using a Multiphase Flowmeter

Sand Control Robustness in a Deepwater Development: Case Histories From Girassol Field (Angola)

Key Elements of Successful Well and Reservoir Management in the Bonga Field, Deepwater Nigeria

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