Microannulus Leaks Repaired with Pressure-Activated Sealant

Rusch, David W.; Sabins, Fred; Aslakson, J.K.

doi:10.2118/91399-ms

Cited by 12 publications

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“…Evaluating and maintaining wellbore integrity is crucially significant throughout the whole process of CO 2 sequestration due to the hazardous environmental impact caused by CO 2 leakage . Wellbore leakage is a reoccurring problem for cased wells, and it is difficult to conduct effective remediation jobs to fix the problem . Thus, monitoring wellbore integrity is especially important to ensure the successful implementation of a CO 2 sequestration project.…”

Section: Introductionmentioning

confidence: 99%

A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring

Nygaard

2017

Greenhouse Gases

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Distributed sensing technologies have been increasingly used for downhole monitoring in the oil field in recent years. A casing deformation monitoring system based on distributed strain sensors has been developed and proposed for wellbore integrity monitoring. However, due to the lack of field data on casing deformation induced by various exploration and development activities, the relationship between casing deformation and wellbore integrity remains unclear. To study the feasibility of evaluating short‐term CO2 injection wellbore integrity through casing deformation monitoring, a staged finite element analysis is conducted for an existing well in the Weyburn field to study the relationship between casing deformation and wellbore integrity during CO2 injection. The model is generated with HypermeshTM and the analysis is conducted with AbaqusTM. The staged finite element model applies loads and materials in multiple steps to replicate the actual drilling process. The wellbore stress, casing strain, and interface gap distance change at the surface casing shoe and production casing shoe are calculated. A parametric study is also conducted to study the effect of various parameters on CO2 injection wellbore integrity in the Weyburn field. The result shows that the casing deformation can be correlated to the wellbore integrity by cement expansion/shrinkage through its effect on the interface gap distance change and the stress difference between wellbore components induced by CO2 injection. © 2017 Society of Chemical Industry and John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%

A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring

Nygaard

2017

Greenhouse Gases

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Effective Application of Wellhead Integrity Reparation by Pressure Activated Sealant Technology

Yuan¹,

Zheng²,

Vo³

et al. 2022

Proceedings of the International Field Exploration and Development Conference 2021

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Study and Use of Geopolymer Mixtures for Oil and Gas Well Cementing Applications

Salehi

Khattak

Ali

et al. 2017

Journal of Energy Resources Technology

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The study here presents laboratory testing results of Class F fly ash geopolymer for oil well cementing applications. The challenge reported in literature for the short thickening time of geopolymer ash has been overcome in this study, where more than 5 h of the thickening time is achievable. API Class H Portland cement used a controller on all the tests conducted in this work. Tests conducted in this research include unconfined compressive strength (UCS), shear bond strength, thickening time, shrinkage, free water, and cyclic and durability tests. Results indicate temperature as a crucial factor affecting the thickening time of geopolymer mix slurry. UCS testing indicates considerably higher compressive strength after one and fourteen days of curing for geopolymer mixtures. This indicates gaining strength with time for geopolymer mixture, where time retrogression effects are observed for Portland cements. Results also indicate higher shear bond strength for geopolymer mix that can better tolerate debonding issues. Additionally, more ductile material behavior and higher fracture toughness were observed for optimum geopolymer mixes. Tests also show applicability of these materials for deviated wells as a zero free water test was observed.

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Microannulus Leaks Repaired with Pressure-Activated Sealant

Cited by 12 publications

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A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring

A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring

Effective Application of Wellhead Integrity Reparation by Pressure Activated Sealant Technology

Study and Use of Geopolymer Mixtures for Oil and Gas Well Cementing Applications

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Microannulus Leaks Repaired with Pressure-Activated Sealant

Cited by 12 publications

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A numerical study on the feasibility of evaluating CO2injection wellbore integrity through casing deformation monitoring

A numerical study on the feasibility of evaluating CO2injection wellbore integrity through casing deformation monitoring

Effective Application of Wellhead Integrity Reparation by Pressure Activated Sealant Technology

Study and Use of Geopolymer Mixtures for Oil and Gas Well Cementing Applications

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Product

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A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring

A numerical study on the feasibility of evaluating CO₂injection wellbore integrity through casing deformation monitoring