Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities

Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities

In this study, the corrosion behavior of X52 steel in liquid and supercritical CO2 environments with different water contents and coexistence of O2, SO2, NO2 and H2S gas impurities was investigated by means of mass loss method, surface analysis techniques and water chemistry simulations. The results...

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Main Authors: Yulong Zhao, Tiancong Ding, Shuai Yang, Jiawei Li, Xiaofeng Zhao, Xueqiang Lin, Chong Sun, Jianbo Sun
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Corrosion Communications
Subjects:
X52 steel
Supercritical CO2
Liquid CO2
Impurity
Corrosion
Online Access:http://www.sciencedirect.com/science/article/pii/S2667266925000076
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author Yulong Zhao
Tiancong Ding
Shuai Yang
Jiawei Li
Xiaofeng Zhao
Xueqiang Lin
Chong Sun
Jianbo Sun
author_facet Yulong Zhao
Tiancong Ding
Shuai Yang
Jiawei Li
Xiaofeng Zhao
Xueqiang Lin
Chong Sun
Jianbo Sun
author_sort Yulong Zhao
collection DOAJ
description In this study, the corrosion behavior of X52 steel in liquid and supercritical CO2 environments with different water contents and coexistence of O2, SO2, NO2 and H2S gas impurities was investigated by means of mass loss method, surface analysis techniques and water chemistry simulations. The results show that benefiting from more corrosive substances and more corrosive aqueous phase, the corrosion degree of X52 steel in a liquid CO2 environment is larger than that in a supercritical CO2 environment. The formation of corrosion products is not affected by the changed CO2 phase state environment but is greatly affected by the water content in CO2 fluid. The impurities, the product of impurity reactions and the further oxidation of corrosion products jointly dominate the formation of corrosion products on the steel.
format Article
id doaj-art-effb7f65ceea45b19d39fee691d2c856
institution OA Journals
issn 2667-2669
language English
publishDate 2025-06-01
publisher Elsevier
record_format Article
series Corrosion Communications
spelling doaj-art-effb7f65ceea45b19d39fee691d2c8562025-08-20T02:20:37ZengElsevierCorrosion Communications2667-26692025-06-0118445310.1016/j.corcom.2024.01.006Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impuritiesYulong Zhao0Tiancong Ding1Shuai Yang2Jiawei Li3Xiaofeng Zhao4Xueqiang Lin5Chong Sun6Jianbo Sun7School of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaSchool of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaSchool of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaSchool of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaSchool of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaSchool of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCorresponding authors.; School of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaCorresponding authors.; School of Materials Science and Engineering, China University of Petroleum (East China), Qingdao 266580, ChinaIn this study, the corrosion behavior of X52 steel in liquid and supercritical CO2 environments with different water contents and coexistence of O2, SO2, NO2 and H2S gas impurities was investigated by means of mass loss method, surface analysis techniques and water chemistry simulations. The results show that benefiting from more corrosive substances and more corrosive aqueous phase, the corrosion degree of X52 steel in a liquid CO2 environment is larger than that in a supercritical CO2 environment. The formation of corrosion products is not affected by the changed CO2 phase state environment but is greatly affected by the water content in CO2 fluid. The impurities, the product of impurity reactions and the further oxidation of corrosion products jointly dominate the formation of corrosion products on the steel.http://www.sciencedirect.com/science/article/pii/S2667266925000076X52 steelSupercritical CO2Liquid CO2ImpurityCorrosion
spellingShingle Yulong Zhao
Tiancong Ding
Shuai Yang
Jiawei Li
Xiaofeng Zhao
Xueqiang Lin
Chong Sun
Jianbo Sun
Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
Corrosion Communications
X52 steel
Supercritical CO2
Liquid CO2
Impurity
Corrosion
title Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
title_full Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
title_fullStr Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
title_full_unstemmed Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
title_short Comparison of corrosion behavior of X52 steel in liquid and supercritical CO2 transport environments with multiple impurities
title_sort comparison of corrosion behavior of x52 steel in liquid and supercritical co2 transport environments with multiple impurities
topic X52 steel
Supercritical CO2
Liquid CO2
Impurity
Corrosion
url http://www.sciencedirect.com/science/article/pii/S2667266925000076
work_keys_str_mv AT yulongzhao comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT tiancongding comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT shuaiyang comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT jiaweili comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT xiaofengzhao comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT xueqianglin comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT chongsun comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities
AT jianbosun comparisonofcorrosionbehaviorofx52steelinliquidandsupercriticalco2transportenvironmentswithmultipleimpurities

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