Enhancing Sand Screen Reliability: An Innovative, Adaptive Approach

Yeh, Chien Hung; Moffett, Tracy; Barry, Matthew R.; Hecker, M.; Howell, David; Green, Annabel; Gillespie, George; Hall, Christopher; McNamee, Stephen

doi:10.2118/134492-ms

Cited by 5 publications

(1 citation statement)

References 11 publications

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“…The unique, self-mitigating mechanism chokes production only at the sand breakthrough locations, compared to choking the entire producing interval when reacting to a compromised conventional screen. More detailed description of MazeFlo development can be found in previous publications (Yeh, , 2010(Yeh, , 2011. MazeFlo screen is designed to adapt to the downhole uncertainty of how, when, and where screen damage could occur.…”

Section: Mazeflo -A Self-mitigating Sand Screen (Iptc 14623)mentioning

confidence: 99%

Advancements in Openhole Completion Technology - Establishing and Sustaining Differentiating Sand Control Completion Performance

et al. 2011

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Openhole completions are often selected as the preferred completion technique to maximize reservoir flow potential and provide reliable, high capacity, low skin completions. In many environments, these completions will also require some form of sand control. To meet development objectives, operators are continually challenged to select, design, and install fit-forpurpose completion strategies to optimize ultimate recovery for these fields. These challenges necessitated the creation of new practices, procedures, and hardware to ensure consistent delivery of reliable wellbores, across the entire organization, to achieve long-term, economic success.ExxonMobil embarked on a multi-year initiative to establish and sustain a disciplined, systematic approach to sand control completion design, job execution, and performance assessment. The effort included the development, qualification, and deployment of selective, enabling completion technologies. Additionally, comprehensive engineering and operational guidelines, as well as, in-depth training were delivered to the worldwide engineering and operations workforce. Most significantly, the initiative is now resulting in effective and rapid transfer of learnings and best practices across the global organization. This comprehensive effort continues to focus on ensuring the right people are deploying the right technology in the right well. This paper will discuss the guiding principles associated with our overall completion practices. It will also describe a number of enabling technologies pioneered by ExxonMobil including: • NAFPac SM , a gravel pack technique that allows the operator to run the gravel pack screens in non-aqueous fluid, gravel pack the well and displace the casing to brine, all in one trip • MazeFlo™, a self healing, redundant sand screen • Internal Shunt Alternate Path Technology (ISAPT) screens with openhole shunted packers, a completion technique that enables true and selective zonal isolation in openhole gravel pack applications

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Section: Mazeflo -A Self-mitigating Sand Screen (Iptc 14623)mentioning

confidence: 99%

Advancements in Openhole Completion Technology - Establishing and Sustaining Differentiating Sand Control Completion Performance

et al. 2011

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Technology Innovation and Integration Enabling More Flexible, Adaptive, and Reliable Sand Control in Openhole Completions

Yeh

Grueschow

Bhargava

et al. 2012

SPE Annual Technical Conference and Exhibition

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First Commercial Installation of MazeFlo™ Technology for Remedial Sand Control Application in Ubit Field

Okoroh¹,

Hommema²,

Igwebike³

et al. 2013

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This paper describes the successful installation of the first commercial MazeFlo™ in a remedial sand control application and post job well performance. MazeFlo technology is an enhanced reliability sand screen with applications for remedial sand control and new completions. The reliability enhancement is achieved through a secondary sand screen in combination with a set of compartments to self-mitigate sand breakthrough from primary screen damage. The candidate well is located offshore West Africa with a high angle reservoir interval length of 1500 ft measured depth. It was originally completed with a 4-1/2" pre-perforated liner across the open hole interval without sand control and historically became a sand producer post initial completion. Though a high rate producer, the well was subsequently shut-in for sand production and a MazeFlo screen was installed to restore production. This paper will share installation results and learnings from the rig-based intervention that was required to install the 2-3/8" MazeFlo screen inside the existing 4-1/2" pre-perforated liner. Handling and running of the MazeFlo screens was flawless due to front-end engineering, planning, and collaboration with key service providers. Post job well performance will also be discussed.

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Enhancing Sand Screen Reliability: An Innovative, Adaptive Approach

Cited by 5 publications

References 11 publications

Advancements in Openhole Completion Technology - Establishing and Sustaining Differentiating Sand Control Completion Performance

Advancements in Openhole Completion Technology - Establishing and Sustaining Differentiating Sand Control Completion Performance

Technology Innovation and Integration Enabling More Flexible, Adaptive, and Reliable Sand Control in Openhole Completions

First Commercial Installation of MazeFlo™ Technology for Remedial Sand Control Application in Ubit Field

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