A Liquid Well Barrier Element for Temporary Plug and Abandonment Operations: A Breakthrough Approach

A Liquid Well Barrier Element for Temporary Plug and Abandonment Operations: A Breakthrough Approach

Plug and abandonment (P&A) operations demand valuable time and resources for operational procedures and materials to establish the well barrier element. This study aims to investigate the application of a water-based fluid as a liquid well barrier element for temporary abandonment, based on esti...

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Veröffentlicht in:Processes 2024-10, Vol.12 (10), p.2190
Hauptverfasser: da Costa, Waleska Rodrigues Pontes, Nóbrega, Karine Castro, Costa, Anna Carolina Amorim, Nascimento, Renalle Cristina Alves de Medeiros, de Souza, Elessandre Alves, de Oliveira, Tiago Almeida, Barros, Michelli, Amorim, Luciana Viana
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Sprache:eng
Schlagworte:
Abandonment
Accelerated life tests
Climate change
Energy industry
Failure
Fluids
Life span
Maximum likelihood method
Monitoring
Plugs
R&D
Random variables
Research & development
Rheological properties
Rheology
Software
Statistical analysis
Statistical models
Stress
Survival
Temperature
Temperature requirements
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container_end_page
container_issue 10
container_start_page 2190
container_title Processes
container_volume 12
creator da Costa, Waleska Rodrigues Pontes
Nóbrega, Karine Castro
Costa, Anna Carolina Amorim
Nascimento, Renalle Cristina Alves de Medeiros
de Souza, Elessandre Alves
de Oliveira, Tiago Almeida
Barros, Michelli
Amorim, Luciana Viana
description Plug and abandonment (P&A) operations demand valuable time and resources for operational procedures and materials to establish the well barrier element. This study aims to investigate the application of a water-based fluid as a liquid well barrier element for temporary abandonment, based on estimates of its lifespan and the survival probabilities of downhole temperatures acquired through accelerated life tests. To achieve this, the water-based formulation was tested and exposed to 95, 110, 140, and 150 °C temperatures for time intervals ranging from 1 to 10 days. After the temperature exposure, the fluid properties were verified, and failure was detected by accounting for any deterioration in rheological parameters and/or a substantial increase in filtrate volume. A statistical analysis of the failure data was performed in RStudio 4.1.3 software using the Weibull Model, and the fluid average lifespans and survival probabilities were estimated for the P&A temperatures. The results obtained demonstrate that the degradation of the fluid was only observed for 140 and 150 °C temperatures. According to the results, the fluid is a promising alternative for temporary abandonment until 80 °C, with no need for monitoring once its lifetime expectation exceeds three years at this temperature. For downhole temperatures above 80 °C, the fluid is a possible alternative, however, the operation’s maximum time and monitoring requirements should consider reliability metrics for each temperature.
doi_str_mv 10.3390/pr12102190
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This study aims to investigate the application of a water-based fluid as a liquid well barrier element for temporary abandonment, based on estimates of its lifespan and the survival probabilities of downhole temperatures acquired through accelerated life tests. To achieve this, the water-based formulation was tested and exposed to 95, 110, 140, and 150 °C temperatures for time intervals ranging from 1 to 10 days. After the temperature exposure, the fluid properties were verified, and failure was detected by accounting for any deterioration in rheological parameters and/or a substantial increase in filtrate volume. A statistical analysis of the failure data was performed in RStudio 4.1.3 software using the Weibull Model, and the fluid average lifespans and survival probabilities were estimated for the P&amp;A temperatures. The results obtained demonstrate that the degradation of the fluid was only observed for 140 and 150 °C temperatures. According to the results, the fluid is a promising alternative for temporary abandonment until 80 °C, with no need for monitoring once its lifetime expectation exceeds three years at this temperature. 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According to the results, the fluid is a promising alternative for temporary abandonment until 80 °C, with no need for monitoring once its lifetime expectation exceeds three years at this temperature. For downhole temperatures above 80 °C, the fluid is a possible alternative, however, the operation’s maximum time and monitoring requirements should consider reliability metrics for each temperature.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/pr12102190</doi><orcidid>https://orcid.org/0000-0002-5340-3132</orcidid><orcidid>https://orcid.org/0000-0002-7726-5360</orcidid><orcidid>https://orcid.org/0000-0003-4147-7721</orcidid><oa>free_for_read</oa></addata></record>
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source MDPI - Multidisciplinary Digital Publishing Institute; EZB-FREE-00999 freely available EZB journals
subjects Abandonment
Accelerated life tests
Climate change
Energy industry
Failure
Fluids
Life span
Maximum likelihood method
Monitoring
Plugs
R&D
Random variables
Research & development
Rheological properties
Rheology
Software
Statistical analysis
Statistical models
Stress
Survival
Temperature
Temperature requirements
title A Liquid Well Barrier Element for Temporary Plug and Abandonment Operations: A Breakthrough Approach
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