Innovative Sand-Control Screen Assembly Enables Successful Multi-Lobe Frac Packs in Adverse Recompletion Conditions

Cox, Morris; Roane, Tom; Sanders, Michael; Clarkson, Brad A.; Fitzpatrick, Harvey

doi:10.2118/73723-ms

Cited by 12 publications

(2 citation statements)

References 4 publications

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“…The CAPS consists of a standard gravel-pack screen (internal) and an outer perforated shroud (See Fig.15). 13 The outer perforated shroud and screen can be run together as part of the gravel-pack assembly or the perforated shroud can be run separately, and then, the screen run inside on second trip. The latter method was used on a well in Nigeria that will be discussed further in the case history section.…”

Section: One-trip Hzgp Acid Washmentioning

confidence: 99%

New Tools and Fluid Technology Redefine the Application Envelope for Horizontal Openhole Gravel-packing Into a Mainstay Deepwater Completion Method

Ali¹,

Tommy²,

Vitthal³

2003

Proceedings of Offshore Europe

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractSynergy between the horizontal drilling and openhole completion disciplines is required to deliver a reliable highrate well completion in soft rock formations. This gap has finally been bridged, and the resulting success has allowed it to be considered as a mainstay completion technique in deepwater developments in Brazil. It has shown the same potential for upcoming deepwater developments in West Africa. The technology has also been an enabler for heavy oil developments (API gravity <20 deg, and > 0.934) in Brazil and in the North Sea that otherwise would have been uneconomical.This paper will address where we started, the evolution of technology, and the lessons learned that are being applied to increase the application envelope and the reliability of this completion method. The review will cover advances in openhole drilling techniques that eliminate hole tortuosity, gravel-pack fluids that can reduce rig time and enhance well productivity, and improvements in downhole tools that have capability to reduce risk while reducing completion cycle time. The review will also examine a possible replacement technology.The successes already achieved in light of the recent technological advances will be presented in case histories that will verify the reliability that can now be expected.

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Section: One-trip Hzgp Acid Washmentioning

confidence: 99%

New Tools and Fluid Technology Redefine the Application Envelope for Horizontal Openhole Gravel-packing Into a Mainstay Deepwater Completion Method

Ali¹,

Tommy²,

Vitthal³

2003

Proceedings of Offshore Europe

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show abstract

“…11,12,13 The system uses a relatively simple concept that consists of a standard gravel pack screen (internal) and an outer perforated shroud (See Fig. 12).…”

Section: Systemsmentioning

confidence: 99%

Openhole Gravel Packing - An Evolving Mainstay Deepwater Completion Method

Grigsby

Vitthal

2002

Proceedings of SPE Annual Technical Conference and Exhibition

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractOperators have found that by integrating drilling and completion techniques, they can develop a highly reliable openhole horizontal gravel-pack completion that can control sand production and produce hydrocarbons at a high-rate. Because of the success of this methodology, it has become a mainstay completion technique in the deepwater developments in Brazil and has shown the same potential for upcoming deepwater developments in West Africa. This paper will discuss the evolution of the integrated concepts, the "lessons learned" that are being used to increase the scope of application, and how new techniques are enhancing reliability for these completions. Specifics include advances that eliminate openhole tortuosity in openhole drilling techniques, new downhole tools that can reduce risk as well as completion cycle time, and improvements in gravel pack fluids.These advances are continuing to push the technological envelope. The new technological benefits are: 1) Reduced completion cycle time, thereby reducing completion cost 2) Reduced formation damage 3) Improved completion reliability throughout the potential life of the well.

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Concentric Annular Packing System Successfully Frac Packs Longest, Highly Deviated Intervals at Highest Record Treatment Rate Attempted Worldwide: Angola Case History

Lemesnager¹,

Cortier

Chassagne

et al. 2008

SPE International Symposium and Exhibition on Formation Damage Control

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Total E&P Angola operates the deep offshore ROSA field on Block 17. On the fifth development well in the field. Two zones in the Oligocene sandy layers are transversed at a well deviation of 48° and required the implementation of the stacked frac-pack technique. The perforated length of zones was approximately 118 ft and 213 ft. Multiple fracture initiation and early screen out were expected, requiring consideration for an enhanced frac-packing method. In order to facilitate placement reliability, a concentric annular packing system was chosen to limit slurry bridging during placement in combination with an aggressive pumping design (25 bbl/min for the lower zone and 32 bbl/min for the upper zone). This paper will discuss the system used for successful frac packing and how it provided alternate paths for the slurry flow when a bridging occurred while keeping the same high flow rate. Data collected on the two zones during treatment have shown that early annular bridging had occurred during slurry placement, but the system had successfully created a high-velocity flow path with minimal pressure drop to bypass the bridge. Once the bridge was bypassed, the full flow area was again used, minimizing turbulence and potential for damaging screens. The paper will describe:The target zonesThe concentric annular packing system designIntegration of the concentric system in the dual stacked frac packs architectureHole pattern design and velocity calculations in shroud orificesThe service tool design for stack frac-packsPumping treatment analysisObservations gathered during the jobHow technique and job-treatment design versus use of a regular frac-pack system or other alternate-path systems was justified. Although alternate path technique has been used in frac-packing more than 30 times globally, the stack frac-pack performed on this case history well (WELL-5) holds the record for being the longest treated length, steepest deviation, and highest pumping rate ever attempted thanks to the concentric annular packing system originally designed for the horizontal gravel pack completions. High completion efficiency was achieved. Productivity data are provided (skin, PLT, etc). Introduction The Rosa field was discovered in January 1998 and was appraised with two additional wells at the beginning of 1999 and at the end of 2000. The field is located in Block 17, offshore Angola, 210 km northwest of Luanda, in an average water depth of 1,400 m (Fig. 1). Rosa field is one of several fields in this prolific block. 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 Dezassete A.S. (10%).

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Innovative Sand-Control Screen Assembly Enables Successful Multi-Lobe Frac Packs in Adverse Recompletion Conditions

Cited by 12 publications

References 4 publications

New Tools and Fluid Technology Redefine the Application Envelope for Horizontal Openhole Gravel-packing Into a Mainstay Deepwater Completion Method

New Tools and Fluid Technology Redefine the Application Envelope for Horizontal Openhole Gravel-packing Into a Mainstay Deepwater Completion Method

Openhole Gravel Packing - An Evolving Mainstay Deepwater Completion Method

Concentric Annular Packing System Successfully Frac Packs Longest, Highly Deviated Intervals at Highest Record Treatment Rate Attempted Worldwide: Angola Case History

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