Singapore-UK Collaboration to Develop Sustainable Ammonia Fuel Cells for Clean Energy
Key Ideas
- NRF Singapore's research grant supports a joint project between NTU Singapore and Imperial Global to develop direct ammonia solid oxide fuel cells for clean and sustainable fuel sources.
- The project aims to enhance Singapore's capabilities in hydrogen utilization and contribute to the nation's sustainability goals by advancing technology for sustainable aviation fuel and high-value chemicals.
- This collaboration between Singapore and the UK positions them as leaders in clean ammonia fuel research, fostering international cooperation in decarbonisation efforts.
- The project not only focuses on developing advanced ammonia fuel cells but also aims to help the maritime industry transition to eco-friendly practices, ensuring energy security and reducing pollutants.
A new research grant from NRF Singapore is enabling a collaborative project between Nanyang Technological University, Singapore (NTU Singapore), and Imperial Global to develop direct ammonia solid oxide fuel cells (DA-SOFCs) for clean and sustainable fuel sources. The initiative, under the CREATE Thematic Programme in Decarbonisation, aims to enhance Singapore's capabilities in hydrogen utilization and develop pathways for sustainable aviation fuel and high-value chemicals. Ammonia is seen as a promising hydrogen carrier for electric cars due to its high energy efficiency and scalability. The project, led by Professor Chan Siew Hwa from NTU and Professor Stephen Skinner from Imperial, focuses on converting ammonia directly into electricity through advanced fuel cell technology with low emissions. The research will involve scientists from NTU, Imperial, and the University of Cambridge, with a goal to deliver breakthroughs in materials and system designs for DA-SOFCs. The collaboration is expected to strengthen the partnership between Imperial and NTU, positioning both countries as leaders in clean ammonia fuel research. The project also aims to assist the maritime industry in transitioning to eco-friendly practices for cleaner energy sources and reducing pollutants. The sentiment of the article is positive, highlighting the importance of international collaboration in addressing climate change and supporting sustainability goals. It emphasizes the significance of clean fuel development and the potential of ammonia fuel cells to revolutionize energy sources.
Topics
Fuel Cells
Clean Energy
Technology
Innovation
Sustainability
Decarbonisation
Collaboration
Maritime Industry
Research Grant
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