Ammonia to Green Hydrogen: efficient system for ammonia cracking for application to long distance transportations
Summary
The EuroHPC Joint Undertaking (hereinafter “EuroHPC JU”), will contribute to the ambition of value creation in the Union with the overall mission to develop, deploy, extend and maintain in the Union an integrated world class supercomputing and quantum computing infrastructure and to develop and support a highly competitive and innovative High Performance Computing (HPC) ecosystem, extreme scale, power-efficient and highly resilient HPC and data technologies.
Programme Name
Programme Description
The EuroHPC Joint Undertaking (hereinafter “EuroHPC JU”), will contribute to the ambition of value creation in the Union with the overall mission to develop, deploy, extend and maintain in the Union an integrated world class supercomputing and quantum computing infrastructure and to develop and support a highly competitive and innovative High Performance Computing (HPC) ecosystem, extreme scale, power-efficient and highly resilient HPC and data technologies.
Call
Detailed Call Description
Proposals should include:
- Development of catalyst (CRMs free catalysts or reduction of CRMs use should be considered) and reactor for the ammonia dehydrogenation at lower temperature compared to state of the art, capable to:
- ensuring the highest possible ammonia conversion (>98%) reducing the downstream cleaning/recycling steps;
- improving the overall thermal efficiency of the ammonia dehydrogenation step;
- providing high reliability, ease of operation, and cost-effectiveness to hydrogen production.
- A demonstration system, running for at least 500 hours and producing at least 10 kg H2/day at atmospheric pressure;
- Demonstration of hydrogen fuel quality (according to ISO 14687:2019) from dehydrogenation of the liquid hydrogen carrier in relevant conditions;
- Demonstration of Scalability of the developed system to large-scale production (equivalent to the 100 tH2/day) for long distance transportation;
- A Life Cycle Assessment of the developed system in the frame of the whole supply chain: ammonia inventory and make-up, (de)hydrogenation steps, temporary storage, shipping, CRM net consumption, etc;
- Techno-economic analysis for the scalability of the developed system to large-scale production for long distance transportation, i.e. 1000 t H2/day, including centralised hydrogenation plant, storage, shipping and distributed dehydrogenation plants.
Eligibility For Participation Notes
A number of non-EU/non-Associated Countries that are not automatically eligible for funding have made specific provisions for making funding available for their participants in Horizon Europe projects. See the information in the Horizon Europe Programme Guide.
Programme Category
EU Competitive ProgrammesTotal Budget
€121,000,000Thematic Categories
- Energy
- Environment and Climate Change
- Research, Technological Development and Innovation
Eligibility for Participation
- Researchers/Research Centers/Institutions