Dual-String Barrier Evaluation Innovative Technology for Efficient P&amp;A Operation Impacting CO2 Emissions

In oil wells, operators must prove the presence of a barrier behind multiple casings, which is expensive as they need to remove pipes and evaluate a single casing. To reduce cost and carbon emissions, we implemented a solution that involved logging through tubing to evaluate both the condition behind the tubing and the barrier behind the second pipe, while satisfying NORSOK D-10 guidelines for single-casing evaluation. A combination of ultrasonic and sonic tools was deployed within the tubing. The ultrasonic measurements provide detailed understanding of the annular content behind/around the tubing versus depth along with position of tubing in the casing. The sonic measurements, with lower frequencies, have a greater depth of investigation and thereby evaluate the presence of any solids behind the second pipe. Extensive modeling and laboratory experiments of dual-string configurations in our research facility along with multiple sets of field data helped determination of the presence of solids using both ultrasonic and sonic measurements. Two wells, a water injector, and an oil producer, were intervened via intervention tower in the Norwegian continental shelf (NCS). For the injector well (7-in. tubing and 9 5/8-in. casing), dual-string evaluation results were compared with the first bond log along with extended leakoff test. For the producer well (5 1/2-in. tubing and 9 5/8-in. casing), dual-string evaluation results were compared against a single-casing validation log. The validation log provides a strong degree of confidence in the dual-string evaluation results. Data from the dual-string evaluation and single-casing log will be used to generate a machine learning model for this well geometry, fluids, cement, and formation and is expected to give another high-resolution azimuthal prediction, which would allow for even higher confidence in the answers in later operations with the possible elimination of the need for a validation log. This paper discusses an offshore case study where the technology was used in two wells in the NCS. The results and observations with dual-string logging technology will be presented in addition to the validation result after pulling the inner tubing. These dual-string log measurements were then used to streamline the sidetracking program, resulting in cost saving due to offline rig activity and minimizing contingency operation, rig time, and scope while reducing overall carbon emissions.

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Embracing the Plug and Abandonment Challenge in Deepwater Malaysia

Samuel,

Lee,

Selamat

et al. 2024

SPE/IADC Asia Pacific Drilling Technology Conference and Exhibition

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As oil and gas fields near the end of their productive life, the focus shifts towards decommissioning facilities and ensuring permanent well abandonment. The primary objective of permanent abandonment (P&A) is to securely isolate potential flow of hydrocarbon sources, with no intention of resuming well activities. Operators face numerous challenges in fulfilling this objective, particularly as the wellbore conditions towards the end of a well's life introduce many uncertainties. Issues such as aging facilities, reduced internal diameters due to corrosion and previous sand production, derated equipment tensile strength, and deteriorated well barriers significantly complicate the P&A operations. Moreover, the industry has witnessed stringent regulations for well P&A over the past few years, amplifying the cost of regulatory-compliant P&A execution. Another dimension of the P&A complexity is the growing competition for resources and qualified personnel between the worldwide growing P&A scopes and the continuous wells development programs. With all these concerns, selecting the appropriate P&A techniques and implementing contingencies to ensure uninterrupted progress while performing a P&A operation is crucial. PTTEP Malaysia has deepwater wells as part of the existing asset portfolio, and some of these wells near the end of their life cycle, the challenge of devising and executing an efficient P&A program for a deepwater environment has been undertaken. This paper aims to delve into the intricacies of designing a deepwater P&A program, exploring potential uncertainties, and outlining necessary contingencies for a successful permanent abandonment. The paper also shed light on the operational strategies employed by PTTEP Malaysia during the execution of the first deepwater well P&A in Sabah waters. This includes discussions on tubing intervention techniques, validation of cement bonds, characterization of behind-casing fluids, management of fluid compatibility, and the establishment of well barriers in alignment with local and international regulations. Furthermore, it will analyze lessons learned and identify areas for improvement to foster continuous learning for future guidance.

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Dual-String Barrier Evaluation Innovative Technology for Efficient P&A Operation Impacting CO2 Emissions

Cited by 4 publications

References 6 publications

Full-Wave Decomposition and Mode Wave Analysis of Through-Tubing Monopole Acoustic Logging

Full-Wave Decomposition and Mode Wave Analysis of Through-Tubing Monopole Acoustic Logging

Novel Use of Dual-String Barrier Evaluation for an Efficient Well Sidetrack

Embracing the Plug and Abandonment Challenge in Deepwater Malaysia

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