Experience and Evaluation of Production Through High-Rate Gravel-Packed Oil Wells, Gullfaks Field, North Sea

Unneland, Trond; Waage, R.I.

doi:10.2118/22795-pa

Cited by 11 publications

(8 citation statements)

References 16 publications

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“…Even in cases where active sand control is chosen, solids production can not be completely prevented or ruled out. 7. Experience from both fields shows that wells produce sand prior to the onset of water breakthrough but that free water does increase sand transported to surface and can therefore result in further choking of wells.…”

Section: Discussionmentioning

confidence: 99%

“…Subsequent development of weaker overlying formations and water breakthrough in existing wells led to an increasing number of wells being constrained by sand production. As a result, a cased-hole gravel packing (IGP) completion strategy was adopted two years after production start-up 7 . Poor trends observed in well productivity due to scaling and fines mobilisation following water breakthrough and diminishing infill reserves has resulted in a return to natural completions on Gullfaks.…”

Section: Sanding Tendencies and Historical Sand Controlmentioning

confidence: 99%

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Production Enhancement From Sand Management Philosophy: A Case Study From Statfjord and Gullfaks

Andrews

Kjorholt

Joranson

2005

SPE European Formation Damage Conference

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractStatfjord and Gullfaks are "Brown" fields operated by Statoil in the Tampen area of the North Sea. The production from these fields is characterized by large volumes of water and increasing sanding tendencies. The operator has for many years followed a strategy whereby sand produced with the wellstreams has been handled topsides prior to on-site disposal. The adoption of a sand management strategy has been crucial for prolonging economic reservoir development during tail production. By choosing to deal with sand topsides the operator has been able to pursue low cost slot replacement drilling where wells are completed without sand control equipment. The cased-hole functionality has facilitated multitarget drilling and is suited to selective production of each sand member through cheap plug/perf interventions.Significant gains in production (acceleration) and reserves (IOR) have resulted from the pursuance of sand management in these fields. Examples of wells showing productivity improvements as a direct result of allowing intervals to produce sand are presented. In addition, production gains achieved from replacing choked back "sand free" production with "maximum acceptable sand rate" production are presented. Increased sand tolerance has also led to reserve increases in some wells as unproductive intervals that were previously sanded up have cleaned up and started to flow. It will be argued that this strategy negates many concerns with formation damage during well work because such damage is produced out with the sand and the wells clean up naturally.The transient nature of sand production is discussed and the production gains observed in each field is presented. Such a strategy requires that the sand production is managed in a safe and controlled manner where the negative consequences of sand production are manageable and predictable. This paper will also discuss the improvements made in sand detection and on-line erosion mapping required to improve the sand tolerance of these facilities.

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Section: Discussionmentioning

confidence: 99%

Section: Sanding Tendencies and Historical Sand Controlmentioning

confidence: 99%

Production Enhancement From Sand Management Philosophy: A Case Study From Statfjord and Gullfaks

Andrews

Kjorholt

Joranson

2005

SPE European Formation Damage Conference

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“…The combination of low water cut, high draw down (over 100 bar in our internal gravel packed wells) and large GOR is especially critical, as observed previously in Gullfaks field. 3,4,5,6 To illustrate this the saturation ratio for CaCO 3 from the reservoir to the separator for different water cuts in Fangst fluids is shown in Fig. 4.…”

Section: Caco 3 Scalementioning

confidence: 99%

Scale Inhibitor Squeeze Treatment Strategy on Heidrun

Rex

Selle

Hege

et al. 2001

Proceedings of SPE European Formation Damage Conference

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe Heidrun Field, located on the Haltenbanken area, is one of the major fields which came on stream in the Norwegian Sea since 1995. At peak production the field is capable of producing 38,000 m 3 of oil and 6 MSCM gas per day. It also takes in 22,000 m 3 of injection water each day. The field is characterised by the large clay content in its three formation sands Fangst, Tilje and Åre. Most of the producing wells are installed with gravel pack or screens due to poor sand consolidation. The reservoir has a bottom hole temperature of 85 o

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“…Gravel packing has been extensively used as a standard sand-control treatment in the GOM for several decades. Before or after the placement of gravel with completion fluids, low-density brines, or linear gels, an acid treatment is usually pumped to remove the nearwellbore formation damage or high skins encountered in wells perforated overbalanced (Unneland and Waage 1996;Matherne and Hall 1996). In other cases, a clay-acid package is often pumped into the formation before the gravel pack to stabilize the residual clays.…”

Section: Introductionmentioning

confidence: 99%

Use of Viscoelastic Surfactant-Based Diverting Agents for Acid Stimulation: Case Histories in GOM

Zeiler¹,

Alleman

Qu³

2006

SPE Production &Amp; Operations

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Viscoelastic-surfactant (VES)-based diverting products have been used successfully in matrix acidizing in the Gulf of Mexico (GOM) in recent years. The uses of VES diverters range from remedial matrix-acid or nonacid-cleanup treatments to use before gravel-or frac-packing operations to clean up long intervals after perforating. Success or failure of these treatments is often related to the efficiency of diverting agents, especially for acid treatments on wells with long, heterogeneous intervals or multiple-zone completions. A VES diverting agent is of particular interest to remedial treatments of frac-/gravel-packed wells, because damage to the near-wellbore area and completion should be minimized for optimum production. Laboratory studies and field applications have demonstrated the nondamaging properties of a VES fluid.This paper reviews the properties of the vesicular-type VES diverting fluid, reviews the operational considerations, and presents several case histories with VES diverting agents in the GOM. The bottomhole static temperatures (BHSTs) of these cases range from 140 to 290°F for both gas and oil wells. With an internal breaker system, the diverter does not require contact with formation fluid, brine, or acid to clean up and provide optimum production. In some cases, as many as four stages of diverters were pumped in the treatment, and successful diversion was observed for each stage. The paper outlines field-operational considerations and detailed fluid properties, which were tailored to specific well conditions and formation characteristics. Details and pressure responses of the treatments are discussed.

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Experience and Evaluation of Production Through High-Rate Gravel-Packed Oil Wells, Gullfaks Field, North Sea

Cited by 11 publications

References 16 publications

Production Enhancement From Sand Management Philosophy: A Case Study From Statfjord and Gullfaks

Production Enhancement From Sand Management Philosophy: A Case Study From Statfjord and Gullfaks

Scale Inhibitor Squeeze Treatment Strategy on Heidrun

Use of Viscoelastic Surfactant-Based Diverting Agents for Acid Stimulation: Case Histories in GOM

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