Real-Time Hybrid Coiled Tubing Services Improved Confidence and Reliability for Delivering a Successful Zonal Isolation Intervention

Luppina, Salvatore; Mangione, Alessandro; Imbò, Pasquale; Spagnolo, S.; Cappuccio, Pasquale; Pollio, Pasquale; Fortunato, Gianluca; Santin, Yoanne; Ridenti, Manuel; Caldarelli, Riccardo

doi:10.2523/iptc-22598-ms

Day 2 Tue, February 22, 2022 2022

DOI: 10.2523/iptc-22598-ms

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Real-Time Hybrid Coiled Tubing Services Improved Confidence and Reliability for Delivering a Successful Zonal Isolation Intervention

Salvatore Luppina

Alessandro Mangione

Pasquale Imbò

et al.

Abstract: The well (Figure 1) of the case study presented in this paper is an oil producer from carbonate reservoir located in Southern Europe. Reservoir is characterized by a complex fracture network that increases the difficulties of production optimization actions, as for example water shut off interventions. This well is completed with a 4-1/2" liner extending to a 4-1/2" slotted liner inside a 6" open hole (OH). During the production time, the Water Cut (WC) has increase… Show more

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2024

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Cited by 2 publications

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Successful Deployment of Combined Mechanical and Chemical Solutions Enabled by Real-Time Coiled Tubing Services to Address Watered Out Well in Southern Europe

Barone,

Stanziale,

Lamarina

et al. 2024

Adipec

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An innovative intervention strategy is discussed, which was designed to enhance precision and reliability and optimize the performance of a well plagued by excessive water production. Through the unique combination of a mechanical tool, custom chemistry, and state-of-the-art real-time technology, the operator successfully isolated the old, completely watered-out zone and opened a new layer to deliver sustained oil production with 0% water cut (WC). This well presented several challenges; the main one was to ensure effective and reliable isolation of old layers, both inside and outside the liner, before the perforation of new intervals. The inner isolation was achieved through the deployment of a high-expansion bridge plug (HEBP) on real-time hybrid coiled tubing (RTHCT) after the closure of two sliding side doors (SSDs). To establish the annular barrier, a thixotropic organically crosslinked polymer (TOCP) system was combined with cement tail-in after the communication channel was opened at a 40° inclination with an abrasive perforation technique and an acid-soluble abrasive material (ASAM). The modular sensing bottomhole assembly (MSBHA) enabled precise installation of the HEBP for internal isolation of the string. The casing collar locator (CCL) sensor in the MSBHA allowed accurate placement of the HEBP in a low-extended sealbore inside the liner. The electrical setup of the HEBP ensured the placement with confidence and reliability, avoiding the coiled tubing (CT) stretching that occurs in traditional hydraulic setting with CT pressurization. The annulus between the liner and the open hole (OH) was isolated through a two-stage chemical treatment that created a reliable barrier to isolate the watered-out zone: ASAM and a high-pressure jetting tool (HPJT) established communication with the annulus above the HEBP 10 m3 of TOCP was pumped through the CT to penetrate and reduce injectivity of the watered-out zone 1.1 m3 of cement slurry was placed through the CT in the annulus liner/OH via additional perforations made by a HPJT The top of cement was tagged and successfully pressure tested up to 1,300 psi. The new layer was opened with through tubing perforations (TTP) using an electric wireline (EWL) and stimulated with acid. A test of the new layer indicated production of approximately 3,500 B/D with 0% WC, which validated the success of the intervention. The innovative intervention approach outlined confirmed the precision and reliability of RTHCT for an accurate HEBP installation as the mechanical barrier. It also demonstrated the effectiveness of the combined use of TOCP and cement to create a reliable, firm, and durable annular barrier to isolate a watered-out zone. The TOCP, as the first chemical treatment, reduced formation injectivity and provided support for the cement pumped in the next stage.

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Successful Deployment of Combined Mechanical and Chemical Solutions Enabled by Real-Time Coiled Tubing Services to Address Watered Out Well in Southern Europe

Barone,

Stanziale,

Lamarina

et al. 2024

Adipec

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Enhancing Well Intervention with a 360° Multi-Side View Camera Visual Analytics Service: Case Study in Saudi Arabia

Coello,

Pratama,

Ermakov

et al. 2024

Adipec

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The 360° Multi-Side View Camera (360 MSVC) visual analytics service is a revolutionary tool that provides real-time video feed and detailed wellbore data analysis that can be run simultaneously with most other coiled tubing (CT) downhole tools. Its unique capabilities were recently demonstrated during an operation in Saudi Arabia, where it successfully addressed a challenge with a trilateral producer well with stuck interval control valves (ICVs). The well, drilled in 2006, had ICVs that have been immobile since 2019, suspected to be impaired by scale deposits or mechanical damage. The 360 MSVC was deployed to inspect the condition of the ICVs and successfully identified scale deposits and damage. After the diagnostic phase, a course of action was determined, and an acid wash with CT was performed to clean the ICVs and dissolve the scale deposits. Shifting tools and an impact hammer were used alongside the 360 MSVC to manipulate the ICVs, and real-time visual feedback confirmed the two ICVs were successfully cleaned and shifted. A third ICV, however, could not be shifted because of mechanical damage; but this issue was identified quickly, which prevented any additional time spent on ineffective solutions. This successful intervention, guided by the 360 MSVC, has paved the way for its application in more wells in the near future. This case study highlights the value of the advanced analytics of the 360 MSVC and its pump-through capability, which enables it to be run with additional tools simultaneously. This combination allowed accurate diagnostics, intervention, and verification in a single trip to enhance operational efficiency and cost-effectiveness.

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Real-Time Hybrid Coiled Tubing Services Improved Confidence and Reliability for Delivering a Successful Zonal Isolation Intervention

Cited by 2 publications

References 7 publications

Successful Deployment of Combined Mechanical and Chemical Solutions Enabled by Real-Time Coiled Tubing Services to Address Watered Out Well in Southern Europe

Successful Deployment of Combined Mechanical and Chemical Solutions Enabled by Real-Time Coiled Tubing Services to Address Watered Out Well in Southern Europe

Enhancing Well Intervention with a 360° Multi-Side View Camera Visual Analytics Service: Case Study in Saudi Arabia

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