Investigating electrochemical charging conditions equivalent to hydrogen gas exposure of X65 pipeline steel

In this study, we systematically investigate electrochemical hydrogen charging conditions equivalent to hydrogen gas pressures relevant for hydrogen transportation in X65 pipeline steel. By performing hydrogen gas permeation, a relationship for Sieverts' law was established, which was used in c...

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Published in:Materials and corrosion 2024-03, Vol.75 (3), p.315-321
Main Authors: Koren, Erik, Hagen, Catalina M. H., Wang, Dong, Lu, Xu, Johnsen, Roy
Format: Article
Language:English
Subjects:
Cathodic protection
electrochemical charging
Equivalence
equivalent fugacity
Gas permeation
Gas pressure
H2 gas charging
High strength low alloy steels
Hydrogen charging
hydrogen embrittlement
Hydrogen permeation
Hydrogen recombinations
Permeation
pipeline steel
Structural steels
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cited_by cdi_FETCH-LOGICAL-c3571-7232154a632fc8629469daccc01b5515f3369d0d1c72727dd4849257ba892a7c3
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container_end_page 321
container_issue 3
container_start_page 315
container_title Materials and corrosion
container_volume 75
creator Koren, Erik
Hagen, Catalina M. H.
Wang, Dong
Lu, Xu
Johnsen, Roy
description In this study, we systematically investigate electrochemical hydrogen charging conditions equivalent to hydrogen gas pressures relevant for hydrogen transportation in X65 pipeline steel. By performing hydrogen gas permeation, a relationship for Sieverts' law was established, which was used in combination with electrochemical hydrogen permeation to determine the equivalent hydrogen pressure. The results revealed that cathodic protection simulated condition at –1050 mVAg/AgCl was equivalent to a hydrogen pressure of 12.3 bar. The addition of thiourea, a hydrogen recombination poison, and changing the applied potential in the cathodic direction increased the equivalent hydrogen pressure. In this way, an electrochemical charging condition equivalent to a potential hydrogen gas pressure for hydrogen transportation (200 bar) was determined. Relating gaseous and electrochemical hydrogen charging can ease the evaluation of repurposing pipelines for hydrogen gas transport. In this study, the equivalent hydrogen pressure was investigated using gaseous and electrochemical hydrogen permeation. The hydrogen recombination poison concentration and the applied potential are systematically changed to obtain the desired equivalent hydrogen pressure.
doi_str_mv 10.1002/maco.202313931
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subjects Cathodic protection
electrochemical charging
Equivalence
equivalent fugacity
Gas permeation
Gas pressure
H2 gas charging
High strength low alloy steels
Hydrogen charging
hydrogen embrittlement
Hydrogen permeation
Hydrogen recombinations
Permeation
pipeline steel
Structural steels
title Investigating electrochemical charging conditions equivalent to hydrogen gas exposure of X65 pipeline steel
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