Restoration of High-Temperature Well Integrity via Real-Time Coiled Tubing Patch Application

Karpaya, Shaturrvetan; Berok, Sylvia Mavis James; Peter, Brandon Joseph John; Utta, Arie Muchalis; Barat, Junnyaruin; Lidwin, Sharon Ellen; Rahman, Hazrina Abdul; Maluan, Lilihani; Sidek, Sulaiman; Purwitaningtyas, Imania Mustika; Ling, Jennie Chin Pui; Albouy, Charles

doi:10.2118/211249-ms

Day 1 Mon, October 31, 2022 2022

DOI: 10.2118/211249-ms

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Restoration of High-Temperature Well Integrity via Real-Time Coiled Tubing Patch Application

Shaturrvetan Karpaya

Sylvia Mavis James Berok

Brandon Joseph John Peter

et al.

Abstract: A prolific gas producer in Sarawak waters was shut-in and idle due to a tubing leak resulting in a significant decline in the total hub production. The well remained idle and required immediate remedial action to meet the contractual sales target. Hence, an expandable tubing patch was proposed to isolate the leak and reactivate the well faster. This paper presents data gathered to identify leak location, tubing patch design, and installation using real-time coil tubing. Several logging surveys w… Show more

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Depleted Gas Zone Isolation in Cemented Monobore via Real-Time Coiled Tubing Expandable Steel Patch

Abd Rahim,

Ibrahim,

Mohd Zain

et al. 2023

SPE/IATMI Asia Pacific Oil &Amp; Gas Conference and Exhibition

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An operation in Malaysia successfully implemented coiled tubing (CT) expandable steel patches to isolate upper depleted zones so that lower gas zones could be produced. This serves to prove the technique as a method that can be used in top-down gas production isolate & perforate strategy. A bottom-up isolate & perforate gas production strategy has always been a practice in a cemented monobore with multi-zonal completions. This simple design has the benefit of enabling simple well intervention operations through the well’s production life in the wake of reserve recoveries. Typically, "plug and perf" is used to continue production from the upper zones with undeveloped/ behind casing reserves when the lower zones in the well are depleted to economic limit for them to be isolated. However, some cases require producing from top-to-bottom, which requires isolation of upper zones and perforate the lower zones. Real-time coiled tubing expandable steel patches were proposed as a solution for top-to-bottom production in a well in Malaysia, 5-½" expandable steel patches were installed with the greatest number of overlaps. The evaluation process prior to installation started with a well information review once the subsurface objective was determined. This thorough analysis identified the new zone to replace the existing depleted zone. Next, a comprehensive study assessed the isolation method, the appropriate conveyance, and the method to be used to validate the isolation integrity. The perforation strategy was then formulated to pass through the validated isolation section. Following the operation, lessons learned were collected and discussed. The method, results and lessons learned from the application of a real-time coiled tubing expandable steel patch represent a resource for applying the method to future wells with top-to-bottom production.

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Depleted Gas Zone Isolation in Cemented Monobore via Real-Time Coiled Tubing Expandable Steel Patch

Abd Rahim,

Ibrahim,

Mohd Zain

et al. 2023

SPE/IATMI Asia Pacific Oil &Amp; Gas Conference and Exhibition

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How Expandable Casing Patches Can Restore Casing Integrity and Enable the Sidetracking of an Old Well

Shahreyar

Kelly

Albouy³

et al. 2023

Day 2 Thu, March 02, 2023

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This paper describes how an operator restored the casing integrity of a nonproducing well to resume offshore drilling operations by installing four 10¾-in. overlapping expandable steel patches. From 2020 to 2022, the operator scheduled a sidetrack drilling program, Māui A Crestal Infill (MACI), from the Māui A offshore platform, located in the Taranaki Basin of New Zealand. The operations included eight wells targeting the remaining unswept zones within the Māui A structure. During a reentry in a plugged and abandoned well, MA-03, a multifinger caliper log and a failed pressure test indicated a casing leak in the 10¾-in. intermediate casing. The log identified severe longitudinal casing wear with some fully penetrating holes. This lack of integrity prevented the scheduled operations from being performed. Several lost circulation material (LCM) and cement squeeze jobs attempted to seal off the leak but were unsuccessful. A service company proposed a mechanical repair solution to cover the long interval with four 13-m- (42.7-ft)-long customized, overlapping patches. Later, a second caliper was run to check if the cement squeeze jobs had reinforced the area for better patch support. Surprisingly, the zone appeared significantly more damaged, with a complete circumferential casing breach. Thus, the planned solution looked very challenging to implement. A video camera run, additional thinking, modeling, and cooperative engineering led to a complete redesign of the solution. The lengths and positions of the patches were changed, and one of the patches was assigned to serve as an inner reinforcement. The team assembled, deployed, and installed the patches in an accelerated mode. In 10 days, the casing integrity was fully restored, enabling the 8½-in. sidetrack hole to be drilled to total depth. This case is a typical example of how industry practices should evolve regarding the management of casing integrity issues. Remedial cement squeezes are often prioritized over mechanical options, even though mechanical options are now adjustable, much quicker to implement, and likely offer greater success rates.

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Restoration of High-Temperature Well Integrity via Real-Time Coiled Tubing Patch Application

Cited by 2 publications

References 1 publication

Depleted Gas Zone Isolation in Cemented Monobore via Real-Time Coiled Tubing Expandable Steel Patch

Depleted Gas Zone Isolation in Cemented Monobore via Real-Time Coiled Tubing Expandable Steel Patch

How Expandable Casing Patches Can Restore Casing Integrity and Enable the Sidetracking of an Old Well

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