Risk of Microbial Corrosion due to Hydrogen Transportation

National gas pipeline systems rely heavily on protective coatings and cathodic protection to prevent corrosion and ensure long-term integrity. Coatings act as the primary barrier against environmental exposure, while cathodic protection—typically using sacrificial anodes or impressed current systems—supplements this by mitigating electrochemical reactions that cause metal degradation. The introduction of hydrogen into these pipelines, as part of decarbonization efforts, presents new challenges. Hydrogen can permeate coatings and accelerate corrosion processes, especially in the presence of certain microbes. Microbiologically induced corrosion (MIC), driven by bacteria such as sulphate-reducing bacteria (SRB), can be exacerbated by hydrogen, which some microbes use as an energy source. This interaction may compromise both the coating and cathodic protection systems, necessitating advanced materials and monitoring strategies to maintain pipeline safety and performance in a hydrogen-integrated future.