Study on the Applicability of Nitrile Butadiene Rubber in CO<sub>2</sub> Environment

Study on the Applicability of Nitrile Butadiene Rubber in CO<sub>2</sub> Environment

In the CO2&#x00A0;capture,utilization,storage and enhanced oil recovery (CCUS-EOR) environment,rubber packer failure in injection wells is a serious problem.The performance and applicability of nitrile rubber (NBR) in CO2&#x00A0;environments within CCUS-EOR systems were investigated,and the...

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Bibliographic Details
Main Author: WU Guang'ai, LIU Zixuan, FENG Huanzhi, LI Zhun, WANG Zhu
Format: Article
Language:zho
Published: Editorial Department of Materials Protection 2024-11-01
Series:Cailiao Baohu
Subjects:
ccus-eor;co<sub>2</sub>;nitrile rubber;applicability;infrared testing
Online Access:http://www.mat-pro.com/fileup/1001-1560/PDF/20241121.pdf
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Summary:In the CO2&#x00A0;capture,utilization,storage and enhanced oil recovery (CCUS-EOR) environment,rubber packer failure in injection wells is a serious problem.The performance and applicability of nitrile rubber (NBR) in CO2&#x00A0;environments within CCUS-EOR systems were investigated,and the suitability range of NBR was established to provide guidance on the selection and application of rubber seals for CO2&#x00A0;systems.Corrosion and aging tests of NBR in CO2&#x00A0;environments were conducted following the standard GB/T 34903.1-2017.Before and after CO2&#x00A0;environment corrosion aging test,changes in sample appearance were observed,and mass variation was recorded.Additionally,hardness,tensile strength,elongation at break and Vicat softening temperature tests were performed.Infrared analysis was conducted on samples both before corrosion test and after exposure to gaseous conditions at 100 ℃and 30 MPa.Results showed that after CO2&#x00A0;corrosion testing,the mass of NBR increased,hardness decreased,tensile strength decreased,and Vicat transition temperature declined.The influence of temperature and pressure on the properties of NBR materials after CO2&#x00A0;environmental testing was as follows: as pressure increased,the Shore hardness and tensile strength of NBR decreased,while density increased;as temperature increased,Shore hardness increased,tensile strength decreased,and density decreased.The functional groups and chemical bonds of NBR exhibited minimal changes after the CO2&#x00A0;tests,indicating no significant aging.However,NBR was found to face risks of corrosion and cracking in high-temperature and high-pressure CO2&#x00A0;environments,attributed to rapid gas decompression (RGD) damage of NBR under high pressure.NBR was deemed suitable for use in low-to-moderate temperature and lowpressure CO2&#x00A0;environments.
ISSN:1001-1560

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