Frequently Asked Questions
Green steel
In green steel production, H2Electro's SOECs serve as catalysts for reducing the industry's carbon footprint and advancing environmental sustainability. By harnessing hydrogen generated through electrolysis, these cells facilitate the elimination of CO2 emissions in steel production, marking a significant stride towards mitigating greenhouse gas emissions. One standout feature of H2Electro's SOECs is their capability to diminish the steel industry's CO2 footprint by up to 90%, underscoring the transformative potential of integrating hydrogen into steelmaking processes.
Co-electrolysis
In the realm of co-electrolysis, H2Electro's SOECs demonstrate remarkable versatility and efficiency. By performing co-electrolysis of water and carbon dioxide, these innovative cells enable the production of syngas, a valuable precursor for various chemical and fuel synthesis processes. The syngas produced can be utilized in Fischer-Tropsch processes to manufacture chemicals and hydrocarbon fuels, contributing to a diverse range of industrial applications.
Synthetic fuels
In the arena of synthetic fuel production, H2Electro's SOECs play a pivotal role in unlocking the potential of clean energy solutions. By combining hydrogen generated from SOECs with CO2 captured from industrial processes or the atmosphere, synthetic fuels can be produced, offering a versatile and sustainable energy source. Leveraging the hydrogen produced by H2Electro's SOECs, methanol—an adaptable liquid fuel and chemical feedstock—can be synthesized, contributing to a diverse range of industrial applications.
Green ammonia
H2Electro's SOECs are uniquely positioned to revolutionize the field of ammonia production due to their operational temperature range of 800-850°C. This temperature range aligns perfectly with the requirements of the Haber-Bosch process, the primary method for synthesizing ammonia. By operating at elevated temperatures, H2Electro's SOECs simplify the integration of hydrogen production with ammonia synthesis, streamlining the overall production process.
Steam electrolysis
In the domain of steam electrolysis, H2Electro's SOECs represent a breakthrough solution for sustainable hydrogen production. By efficiently splitting water vapour into hydrogen and oxygen using electrical energy, these innovative cells offer unmatched efficiency and scalability. Their ability to utilize renewable energy sources further enhances their environmental sustainability, contributing to the global transition towards cleaner energy alternatives.