Hydrogen from Ammonia, a fuel for the future

Green ammonia is an emerging technology that has the potential to revolutionize the production of hydrogen and significantly reduce carbon emissions. In this article, we will discuss the production of hydrogen from green ammonia, key production and money figures, companies involved, and future trends.

Production of Hydrogen from Green Ammonia

Green ammonia is produced by using renewable energy sources such as wind or solar power to power the Haber-Bosch process, which produces ammonia. Green ammonia can then be used as a feedstock for the production of hydrogen through the process of ammonia cracking. The reaction is endothermic, requiring a reactor heated to a high temperature of around 700-900°C to break down ammonia into its constituent elements, nitrogen and hydrogen.

Key Production and Money Figures

The production of hydrogen from green ammonia has several advantages over traditional methods, including zero carbon emissions and lower energy requirements. According to the International Energy Agency (IEA), the production of green ammonia is expected to reach 25 million tonnes by 2030 and 500 million tonnes by 2050. The IEA also estimates that the production of green ammonia could reduce the cost of producing hydrogen by up to 50% compared to traditional methods.

Companies Involved

Several companies are involved in the production of green ammonia, including Yara, the world’s largest producer of ammonia, and Siemens Energy, which has developed an electrolysis-based process for producing green ammonia. Other companies involved in the production of green ammonia include Ørsted, a leading renewable energy company, and Air Liquide, a global leader in industrial gases.

Future Trends

The future of green ammonia production looks bright, with the potential for significant growth and contribution to reducing carbon emissions in the energy and agricultural sectors. The IEA has identified green ammonia as a key technology that could help to reduce carbon emissions. Green ammonia has the added benefit of being used as a fertilizer, further reducing the carbon footprint of agriculture. In addition, the use of green ammonia in the shipping industry as a fuel is being explored as a potential replacement for fossil fuels.

Conclusion

Green ammonia is a promising technology that has the potential to revolutionize the production of hydrogen and significantly reduce carbon emissions. Key production and money figures suggest that the production of green ammonia could increase significantly over the next few decades, with the potential to reduce the cost of producing hydrogen by up to 50%. Several companies are involved in the production of green ammonia, and the future looks bright with the potential for significant growth and contribution to reducing carbon emissions in the energy and agricultural sectors.