As hydrogen becomes a cornerstone of the global clean energy transition, the infrastructure needed to transport it safely and efficiently is gaining attention. One of the critical components of this infrastructure is the hydrogen pipeline — and selecting the right hydrogen pipeline material is essential.
Hydrogen is the smallest molecule in the universe, and its properties pose unique challenges. It can permeate materials, cause embrittlement, and reduce the mechanical strength of metals over time. Therefore, not all materials used in traditional gas pipelines are suitable for hydrogen transport.
Carbon Steel (with Limitations)
Low-carbon steels can be used for hydrogen pipelines, especially when operating under low pressure. However, they are susceptible to hydrogen embrittlement, particularly under high pressure and cyclic stress.
Stainless Steel (304L, 316L)
Austenitic stainless steels are more resistant to hydrogen embrittlement and corrosion. These alloys are widely used in high-pressure hydrogen applications due to their durability and safety.
Polyethylene (PE) and Composite Materials
For lower-pressure distribution networks, plastic pipelines made from high-density polyethylene or reinforced thermoplastics can be effective. They offer excellent corrosion resistance and are easier to install.
Specialty Alloys and Coatings
In some applications, nickel-based alloys or special internal coatings are used to further reduce the risk of hydrogen damage and improve pipeline longevity.
The right material depends on several factors:
Operating pressure
Temperature
Hydrogen purity
Pipeline length and environment (e.g., underground or exposed)
Choosing the proper material for hydrogen pipelines is vital for safety, efficiency, and long-term reliability. As hydrogen infrastructure scales up globally, understanding these material options ensures better project planning and reduced maintenance risks.