Multilateral TAML-4 and -5 Junctions Provide Consistent Results for Arabian Gulf Operator

Historically, the ability to perform intervention on multilateral wells has been limited. While multilateral (ML) well construction technologies have progressed to a high level of reliability, multilateral systems that enabled intervention during the life of well had a more limited track record. Intervention outcomes after prolonged periods of production were less consistent. This lack of technologies with sufficient intervention case histories meant that generally multilateral well architecture was not selected in applications where thru tubing intervention was a requirement. In recent years, multilateral well architecture has continued to increase in demand, with more ML wells drilled and completed in the last five years than any other five-year period in the technology's history. With this increased demand has come industry enthusiasm to further mature its intervention capabilities. This paper will review two recent case histories of separate multilateral well completion systems that enable intervention. This opens up new potential for the industry to take advantage of the cost reductions achieved with multilaterals in a much larger scope of well applications. Two separate completion systems will be covered in this paper, System A installed in a cemented multilateral junction and system B, a completion that creates a hydraulically isolated junction via either a dual string completion or a single string completion that splits into two strings. These case histories were exectuted in 2017 to 2019, and interventions were performed after one to two years of production. Detailed in each case study will be an overview of the equipment, the operational sequence, intervention outcome, and any lessons learned or improvements. The systems have demonstrated themselves as a reliable method to access laterals in non-ideal downhole environments where debris is present after the well has been on production. The tubing sizes for the case studies are 3-1/2" and 4-1/2". In each of these wells, the following operations have been successfully performed: drift testing, acid stimulation through coil tubing and breaking of a ceramic disc. Both slickline and coil tubing have been used for the interventions and in some cases with tractors. Junction inclinations range from 1 to 43 degrees. Plans for ongoing installations for the systems are being executed in the Middle East Region. Further, expansion of the system A capabilities by integrating it with other existing technologies is also planned. This will enable projects such as the installation of a trilateral well with flow control and intervention for each individual leg, and also the conversion of existing single bore wells to multilateral with intervention capability.

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Recent Case Histories of Multilateral Systems Enabling Thru Tubing Intervention in the Middle East

Butler

Kelsey

Racine

2021

Day 4 Thu, November 18, 2021

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Maximizing Asset Value & Field Recovery with Advanced Completion Solutions – A Digital Twin Field Case Study with Multilateral, Intelligent Completion, and AICD Completion Technologies

Shahreyar

Butler

Corona

2021

Day 3 Wed, November 17, 2021

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The drilling and completion of multilateral wells continues to expand and advance within the oil industry after three decades of accelerating adoption. The performance of these wells can be increased when integrated with advanced well completion techniques. The addition of intelligent completions (IC) and inflow control devices (ICD/AICD) enhances well performance and improves field recovery. This paper discusses a reservoir simulation case study that evaluates the productive impact these technologies provide when combined with multilateral technology (MLT), and the mechanism by which they achieve it. A reservoir model is devised and simulates under dynamic reservoir conditions the field production of dual lateral and single bore horizontal wells. The simulation is conducted for three separate scenarios where AICD and IC are incrementally implemented. The results are compared across the scenarios and their value quantified. The mechanisms by which estimated ultimate recovery (EUR) is increased will be discussed, including the increase of reservoir contact, drawdown distribution optimization, and the control and delay of water production. The study will provide an overview on the theory behind the technologies. It will also review the workflow used to conduct the study, utilizing a combination of steady state nodal analysis software and dynamic reservoir simulation software. Additional information about the reservoir model, initial and boundary conditions are detailed, to provide insight into reservoir simulation methodology.

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Multilateral Technology in the Middle East: 25 Years of Evolution

Kelsey

Fanchin

Janzen

et al. 2022

Day 2 Tue, November 01, 2022

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For a quarter of a century sustained technological advances in multilateral technology have enhanced economics and extended the production life of fields in the Middle East. This was accomplished by evolving to meet the demands of increasingly complex applications. Over this history, multilateral applications have evolved from standard Level 2 and Level 4 dual-laterals to dual-laterals with intelligent flow control, intervention capabilities, and improved junction integrity. The use of multilateral technology can deliver a significant increase in reservoir contact compared to single horizontal wells. A dual-lateral well can deliver twice the reservoir contact while eliminating the drilling, casing, and cementing of an additional vertical wellbore section. Operators are implementing multilateral field strategies to reduce overall development cost, cycle times, and carbon footprint. Further benefits include delivery of wells and facility systems using fewer in-field construction hours at a lower baseline cost. This paper discusses several multilateral installations in the Middle East over a 25-year period. It highlights the continuous improvement of multilateral technology used in the region by demonstrating how a multilateral well strategy reduces time-intensive operations by eliminating additional vertical wellbore sections and utilizing existing infrastructure. The case study will include discussion of workover intervention operations, completions, and lateral creation systems. The application of a multilateral strategy is a proven method to reduce time intensive operations by eliminating additional vertical wellbore sections and utilizing existing infrastructure. This paper will focus on the continuous improvement of multilateral technology to consistently meet challenges faced by operators in the Middle East region for over two decades. Wells originally drilled as standard Level 4 dual-laterals are now drilled and completed using intelligent flow control and, in some cases, Level 5 installations with pressure-controlled junctions. The paper focuses on a region and the technology used to increase efficiencies, enabling the delivery of increased reservoir contact in less operational days. The paper also provides insight as to methodology for continually improving reliability of multilateral installations to maximize efficiencies.

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Multilateral TAML-4 and -5 Junctions Provide Consistent Results for Arabian Gulf Operator

Cited by 3 publications

References 3 publications

Recent Case Histories of Multilateral Systems Enabling Thru Tubing Intervention in the Middle East

Recent Case Histories of Multilateral Systems Enabling Thru Tubing Intervention in the Middle East

Maximizing Asset Value & Field Recovery with Advanced Completion Solutions – A Digital Twin Field Case Study with Multilateral, Intelligent Completion, and AICD Completion Technologies

Multilateral Technology in the Middle East: 25 Years of Evolution

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