Sustainable Hydrogen – Clean, Efficient and Circular Energy
Our sustainable hydrogen is produced through an innovative, emission-free process that converts methane into clean energy. The process begins with the gasification of methane or other hydrocarbons at carefully controlled temperatures, generating a synthesis gas consisting of hydrogen and carbon monoxide. This gas is then fed into a catalytic reactor where precise chemical reactions convert the synthesis gas, releasing hydrogen as a by-product. At the same time, advanced carbon nanomaterials (CCM) are formed, making the process both energy-efficient and resource-efficient.
Low-temperature gasification (LTC) maintains high energy efficiency and the entire process takes place in a closed loop without carbon dioxide emissions, making our sustainable hydrogen an ideal energy source for fuel cells, hydrogen-powered internal combustion engines and industrial applications.
Electrolyzers
H2North uses PEM electrolysis to produce green hydrogen with high purity, where electricity from renewable sources splits water (H₂O) into oxygen (O₂) and hydrogen (H₂).
Efficiency: PEM electrolyzers have an electrical efficiency of around 70–80%, meaning that 70–80% of the electrical energy supplied is converted into chemical energy in the form of hydrogen. This efficiency is expected to increase to between 82 and 86% by 2030.
Advantages of PEM electrolysis:
- High hydrogen purity: The hydrogen produced is of very high quality, which is crucial for industrial and energy-related applications.
- Fast response: PEM technology can quickly adapt to variations in electricity supply, making it ideal for integration with renewable energy sources such as solar and wind power.
- Compact design: PEM electrolyzers have a compact and modular design, allowing for flexible installation and scalability.
By using PEM electrolysis, H2North contributes to sustainable and fossil-free hydrogen production, supporting the transition to a greener energy future.
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