Field Operational Results of Precision Slot Cutting Using Novel Electromechanical Slot-Cutting Technology

Fanini, Otto; García, Alejandro García; Ransonet, Gerald

doi:10.4043/28938-ms

Day 4 Thu, May 03, 2018 2018

DOI: 10.4043/28938-ms

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Field Operational Results of Precision Slot Cutting Using Novel Electromechanical Slot-Cutting Technology

Otto Fanini

Alejandro García García

Gerald Ransonet

Abstract: The downturn in the market has affected the majority of oil and gas producers and made their ability to maximize the production of current wells a crucial goal. Completion installations are becoming increasingly complex with many incorporating sliding sleeves to gain access to multiple zones in the wellbore. These completions are often concentric in design and engineered with packers, outer gravel pack screens, and an inner tubing string to isolate zones. The production rate often decreases before its expectan… Show more

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Cited by 2 publications

References 33 publications

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Modeling Validation of Tubing Compaction for Rigless Well Plug and Abandonment

Tunget¹,

Cammarano

et al. 2020

SPE Drilling &Amp; Completion

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Summary Conventional well plug and abandonment (P&A) can sever and remove the tubing to access casing or leave it in situ when it does not interfere with providing a seal over an indefinite time frame. This paper assesses the viability of pushing rather than pulling severed production tubing to gain casing access. The P&A decision to push, pull, or leave the tubing in situ depends on confirming existing seals and then placing suitable sealants, such as cement, to keep the risks of future well leakages as low as reasonably practicable (ALARP). Pushing or compacting tubing into the liquid space of a well could be used with smaller rigless units, which cannot hoist the production tubing, but can use production intervention or decommissioning logistics with coiled tubing or wireline cutting and severance. Associated pumps could then drive an inflatable piston to compact split and severed tubing into a lower liquid space to access casing for logging and P&A plugging. Rigless tools and methods have provided dramatic cost savings where casing access was not needed, and thus the present study investigates the viability of accessing casing by means of pushing or compacting tubing to extend rigless P&A use and savings. The viability of pushing and compacting North Sea sizes and grades were confirmed in real-scale physical-compaction simulations of production-tubing joints pulled from offshore wells. Independent small-scale physical simulations and numerical modeling then confirmed that the real-scale results were predictable and repeatable to demonstrate an ability to design and provide a window or gap in a production-tubing string for use by other P&A methods.

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Modeling Validation of Tubing Compaction for Rigless Well Plug and Abandonment

Tunget¹,

Cammarano

et al. 2020

SPE Drilling &Amp; Completion

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Modeling and Optimization of Mechanical Cutting of Downhole Tubing

Zhu,

Zhou,

Jing

et al. 2023

SPE Journal

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Summary Mechanical cutting of tubing plays a vital role in solving the problem of pipe string jams in workover operations of oil wells. To improve the efficiency of downhole cutting operations and save operation costs, it is necessary to optimize the parameters of downhole-cutting operations. However, previous research did not involve related engineering problems. Therefore, in this paper, the equivalent simulation experiment of downhole cutting is conducted based on actual field data. Cutting speed, feed rate, and cutting thickness are used as parameters while cutting power (P), material removal rate (MRR), and tool chip temperature (T) are used as optimization objectives with the trade-offs between the three objectives considered. The full factorial design is used to carry out the experiments and the combination of grey relational analysis (GRA) method and entropy weight method is used to determine the weight of the three objectives. The influence of cutting parameters on the optimization objectives is analyzed, the mathematical model between cutting parameters and a single objective is established, and the adaptive weight particle swarm algorithm is used to optimize the coefficients of this model. The relationship between the multiobjective model and cutting parameters is established using a multiple nonlinear regression model, and the selection of interaction terms is completed using a stepwise regression method. The reliability of the model is also verified. This paper provides a reference for future research on downhole-cutting problems.

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Field Operational Results of Precision Slot Cutting Using Novel Electromechanical Slot-Cutting Technology

Cited by 2 publications

References 33 publications

Modeling Validation of Tubing Compaction for Rigless Well Plug and Abandonment

Modeling Validation of Tubing Compaction for Rigless Well Plug and Abandonment

Modeling and Optimization of Mechanical Cutting of Downhole Tubing

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