Innovative Offshore Ammonia Cracking for Clean Hydrogen Fuel in South Korea
Key Ideas
  • Amogy partners with HD KSOE, POSCO, SNU, and ABS to explore offshore ammonia cracking for clean hydrogen fuel, aiming at low-cost solutions.
  • The innovative technology leverages ammonia as a hydrogen carrier, providing a cost-effective alternative with established infrastructure and higher energy density than hydrogen.
  • The collaboration is seen as a significant step towards achieving net-zero emissions, supporting South Korea's decarbonization goals and offering cleaner marine fuel solutions.
  • Partnerships with LR and HD KSOE EcoPhin also focus on emissions reduction through fuel cell and CCS studies, as well as enhancing ammonia-powered solutions in the maritime sector.
A consortium including Amogy, HD KSOE, POSCO, SNU, and ABS has joined forces to explore the technological feasibility of an offshore ammonia cracking solution to produce clean hydrogen fuel. Amogy's innovative technology aims to crack ammonia into hydrogen and nitrogen efficiently, offering an affordable and convenient alternative to liquefied hydrogen, with higher energy density and lower maintenance requirements. The collaboration is expected to advance the use of ammonia as a hydrogen carrier, supporting South Korea's decarbonization objectives and providing cleaner fuel options for the maritime industry. The partnership with LR and Rotoboost focuses on emissions reduction through fuel cell and pre-combustion CCS studies, while the alliance with HD KSOE EcoPhin aims to enhance ammonia-powered solutions in shipping by integrating eco propulsion systems and ammonia-to-electrical power technology. Overall, these initiatives represent significant progress in the energy transition and the development of sustainable marine fuels.
ADVANCEH2

Our vision is to be the world's leading online platform for advancing the use of hydrogen as a critical piece needed to deliver net-zero initiatives and the promise of a clean H2 energy future.

© 2024 AdvanceH2, LLC. All rights reserved.