The roles of wellbore tubulars in delivering continued well integrity are diverse, critical, and congruent throughout the life of the well.
Well integrity has been defined by the NORSOK Standard document as the “application of technical, operational, and organizational solutions to reduce risk of uncontrolled release of formation fluids throughout the life cycle of a well.”
Wellbore tubulars are integral to providing these well-integrity barriers, whether they form the conduit for the primary barrier (the fluid column) within the well, such as the drillpipe, or comprise a well-barrier element such as casing or other tubulars associated with drilling, completion, production, intervention, or even abandonment.
During the well-construction phase, the primary well barrier is typically the fluid column and its tubular conduits. Secondary well-barrier elements can be the in-situ formation, casing cement, casing, wellhead, high-pressure riser, or drilling blowout preventer. Subsequently, as the well matures over the next 30 years or more, the elements within the wellbore-tubular realm vary, but each continues to play a significant role in maintaining well integrity. Therefore, with more-complex high-pressure/high-temperature wells being drilled, the industry is adopting a more “life of the well” engineered approach in the area of wellbore-tubular design.
The papers summarized within this section are focused on the various roles tubulars play during the life of the well, beginning with proactive application of innovative well monitoring during drilling operations to provide a dual role of the drillpipe by adding a layer of well-health surveillance during the drilling activities. The section’s focus continues with reviews of case histories outlining the application of drillpipe intervention systems successfully applied in the offshore west Africa arena and solutions to large-scale tubular failures within a mature field in Suriname’s Tambaredjo field.
The additional-reading titles selected further explore various applications and evaluation techniques with case-history references to assist in expanding the reader’s wellbore-tubular knowledge toolbox.
We all strive to deliver quality well construction, production, intervention, and abandonment to our industry. While evaluating papers for inclusion in these few short pages encapsulating the extensive base of information published that surrounds the application of wellbore tubulars, I was struck by the quality and diversity of information available. Therefore, the reader is encouraged to search further within the industry’s technical-paper and article archives to explore additional aspects of wellbore tubulars and the tools and techniques that are currently available and critique their applicability.
Recommended Additional Reading
SPE/IADC 163420 Drillstring-Mechanics Model for Surveillance, Root-Cause Analysis, and Mitigation of Torsional and Axial Vibrations by Deniz Ertas, ExxonMobil, et al.
SPE 171430 Preventing String-Integrity Failure in Production and Stimulation for High-Temperature Wells by Gama Hafizh Aditya, EMP Malacca Strait, et al.
SPE 170961 An Innovative and Systematic Approach to Delivering a Multitude of Next-Generation Tubular Connections Required for Extremely Complex Design Conditions by Nor Janiah Japar, Shell, et al.
Pat York, SPE, Global Director, Weatherford
01 June 2015
The Price of Permian Gas Pipeline Limits
Pipeline bottlenecks have created a wide gap in the price of gas at a key pipeline hub in the Permian compared to the US benchmark level.
Risk-Based Statistical Approach To Predict Casing Leaks
A probabilistic approach was introduced to improve interpretation of data from electromagnetic corrosion logs. This paper presents a statistical risk-based approach to predicting casing leaks using electromagnetic corrosion logs.
Study of Expandable-Tubular Collapse Leads To Risk-Based Strength Development
The objective of this study is to investigate comprehensively the effects of the expansion process on the pipe mechanical properties and collapse performance and to develop a reliable risk-based collapse-strength design for the expandables.
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