Best Practices for Effective Wellbore Cleanup and Displacements in Open-Hole Sand Control Completions

Beldongar, Maye; Agee, Daniel; Kumar, Ajit; Offenbacher, M.; Flamant, Nicolas; Lees, A.; Gadiyar, Bala; Parlar, Mehmet

doi:10.2118/183888-ms

SPE Middle East Oil &Amp; Gas Show and Conference 2017

DOI: 10.2118/183888-ms

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Best Practices for Effective Wellbore Cleanup and Displacements in Open-Hole Sand Control Completions

Maye Beldongar

Daniel Agee

Ajit Kumar

et al.

Abstract: At some stage after drilling to target depth and before pumping the gravel packing treatment or before putting the well on production, the drilling fluid is typically displaced from the wellbore. Practices in the industry vary significantly depending on the primary drivers of the completion engineers, sometimes with disastrous results. Inefficient wellbore displacements can cause a variety of problems including increased non-productive time, reduced well productivity and incomplete gravel packing through vario… Show more

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Cited by 4 publications

References 30 publications

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Downhole Gauge Data Analysis of Open-Hole Gravel Packing Treatments: Methodology and Examples

Kumar

Beldongar

Agee

et al. 2018

SPE International Conference and Exhibition on Formation Damage Control

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Downhole gauge (DHG) data analysis is a powerful tool in not only identifying, or minimizing the potential number of, root causes for any failures that may occur during gravel packing, but also in either verifying or calibrating friction pressure data used in gravel placement simulations. Although downhole pressure and temperature gauges are often used in open-hole gravel packing and expertise in analyzing the data certainly exists in companies that routinely use downhole gauges, there is no publication that comprehensively discusses the methodology. DHG data analysis in general requires more information than the gauge data itself. This includes logs, wellbore schematic, pumping schedule, fluid properties, return flow measurements, daily rig reports, and data relevant to displacements. The objective of this paper is to provide guidelines for DHG data analysis to completion engineers who are not routinely involved and thus not experts in such analysis, by detailing the factors that must be kept in mind, offering a methodology and demonstrate the methodology with several examples.

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Downhole Gauge Data Analysis of Open-Hole Gravel Packing Treatments: Methodology and Examples

Kumar

Beldongar

Agee

et al. 2018

SPE International Conference and Exhibition on Formation Damage Control

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Smart Unconventional Approach to Universal Oil-Based Mud Removal Using High-Performance Bio-Micromaterial

Pernites¹,

Clark²,

Fu³

2019

SPE Annual Technical Conference and Exhibition

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Using a single universal spacer surfactant to clean a wide variety of oil-based mud (OBM) is considered the "Holy Grail" of spacer fluid system. Specialty chemical and service companies have devoted intense research and vast resources to develop the ideal spacer surfactant, but their efforts have not led to a singlesurfactant solution due to uniquely different drilling mud properties. It is no surprise to experts in the field that surfactant selection is extremely mud specific. For instance, one surfactant may effectively clean certain types of OBM, but fail in another mud from a different location that has the same density and base fluid. As a result, service companies have numerous surfactants in their portfolios, further complicating logistics and operations. This paper presents the discovery of a high-performance universal biomicromaterial, which can significantly improve the cleaning performance of any surfactants/spacer fluids to remove most, if not, all types of drilling mud. The innovative bio-micromaterial is an eco-friendly byproduct from another industry. Successful cleaning of the drilling mud was demonstrated by standard rotor testing with different OBM samples from across North America, and the percentage of mud removal was determined. Furthermore, the ability of the innovative micromaterial to efficiently clean the mud was verified by measuring the strength of bonding between the set cement and the metal casing that had been cleaned by the spacer fluid after drilling mud contamination. Basically, this new procedure simulates downhole fluid displacement by the intermediate spacer fluid, which is ahead of the cement slurry, displacing the mud. Stability and mixability were also studied to determine the effect of the bio-micromaterial addition to the spacer fluid. Finally, a fundamental scientific study using thermogravimetric analysis and imaging techniques was done to characterize the material and determine its thermal stability. For the first time, newly discovered, high-performance, universal cleaning micromaterial is presented to enhance the OBM removal of any spacer fluid design. This groundbreaking research has successfully demonstrated the unconventional advanced material to be a universal cleaning, single-additive spacer admixture for a wide variety of drilling mud from various regions across North America. To our knowledge, based on extensive literature search, this is the first report about the application of this natural waste product in wellbore cleaning fluids like the spacer.

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Mechanical Behavior of Thermosensitive Screen Applied for Wellbore Collapse

Qin

Duan

Hui

et al. 2020

SPE Annual Technical Conference and Exhibition

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In response to the borehole instability problems such as wellbore collapse and sand production, which often occur in drilling and completion, a thermosensitive screen technology that can expand spontaneously at a specific temperature has been developed. The radial expansion of the screen allows for annulus filling and borehole strengthening. This paper provides a theoretical evaluation of the comprehensive performance of the thermosensitive screen on wellbore collapse. The results show that the thermosensitive screen barely expands before reaching the conversion temperature, which facilitates the screen's descent into the target depth. After reaching the destination depth, it can be stimulated to expand under the influence of conditions such as formation temperature. The extruding stress after screen expansion contacting the wellbore wall can effectively improve the stress distribution around the near-wellbore and reduce the shear instability caused by the difference between the maximum and minimum principal stress of the formation, while at the completion stage of production, it can effectively improve the flowing downhole pressure, thus increasing the drawdown pressure.

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Best Practices for Effective Wellbore Cleanup and Displacements in Open-Hole Sand Control Completions

Cited by 4 publications

References 30 publications

Downhole Gauge Data Analysis of Open-Hole Gravel Packing Treatments: Methodology and Examples

Downhole Gauge Data Analysis of Open-Hole Gravel Packing Treatments: Methodology and Examples

Smart Unconventional Approach to Universal Oil-Based Mud Removal Using High-Performance Bio-Micromaterial

Mechanical Behavior of Thermosensitive Screen Applied for Wellbore Collapse

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