VERGE | VERSATILE AND DIRECT E-FUEL AND FERTILISER GENERATION FROM RENEWABLE ELECTRICITY

Summary
The VERGE project will develop a disruptive & distributed renewable energy technology that will directly utilise intermittent renewable energy to produce liquid ammonia from air and water. Synthesising ammonia with renewable energy can both replace the current fertiliser production, and facilitate the emerging eFUEL market by providing an energy carrier, e.g. for maritime. Current greenhouse gas (GHG) emissions from ammonia fertiliser production and maritime fuel consumption constitute about 1% and 3% of total GHG emissions, respectively. Avoiding these emissions would contribute towards the transition to a net-zero GHG emissions in the EU economy by 2050. Starting at TRL2 with realistic goals to reach TRL4 by the end of the project, the VERGE technology will: A) Optimise the electrolytic system for nitrogen reduction and demonstrate ammonia synthesis through an inter-laboratory study with the realistic measurable goals of a reaction rate 1*10-9 mol/s/cm2, current efficiency of 50% and at least 300 h stable operations. B) Design the process for optimised operations with intermittent energy sources to produce liquid ammonia. The VERGE project will create knowledge and scientific proof of its technical feasibility as well as lay the basis for economical, sociological and environmental optimisation of the process. Frequent communication with stakeholders allows the VERGE project to develop a clear vision towards optimisation, scale-up and market entry as well as further enhancing the EU innovation base in the field of electrochemical processes. The VERGE project will be carried out by a consortium from five European countries, composed of two universities, a tech transfer institute, two large companies, a LCA consultancy and last but not least, an SME for future scale-up and exploitation. Each consortium member has demonstrated excellence in its fields, with high impact publications, exceptional customer service and a history of international project participation.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101084253
Start date: 01-11-2022
End date: 31-10-2025
Total budget - Public funding: 3 195 226,25 Euro - 3 195 226,00 Euro
Cordis data

Original description

The VERGE project will develop a disruptive & distributed renewable energy technology that will directly utilise intermittent renewable energy to produce liquid ammonia from air and water. Synthesising ammonia with renewable energy can both replace the current fertiliser production, and facilitate the emerging eFUEL market by providing an energy carrier, e.g. for maritime. Current greenhouse gas (GHG) emissions from ammonia fertiliser production and maritime fuel consumption constitute about 1% and 3% of total GHG emissions, respectively. Avoiding these emissions would contribute towards the transition to a net-zero GHG emissions in the EU economy by 2050. Starting at TRL2 with realistic goals to reach TRL4 by the end of the project, the VERGE technology will: A) Optimise the electrolytic system for nitrogen reduction and demonstrate ammonia synthesis through an inter-laboratory study with the realistic measurable goals of a reaction rate 1*10-9 mol/s/cm2, current efficiency of 50% and at least 300 h stable operations. B) Design the process for optimised operations with intermittent energy sources to produce liquid ammonia. The VERGE project will create knowledge and scientific proof of its technical feasibility as well as lay the basis for economical, sociological and environmental optimisation of the process. Frequent communication with stakeholders allows the VERGE project to develop a clear vision towards optimisation, scale-up and market entry as well as further enhancing the EU innovation base in the field of electrochemical processes. The VERGE project will be carried out by a consortium from five European countries, composed of two universities, a tech transfer institute, two large companies, a LCA consultancy and last but not least, an SME for future scale-up and exploitation. Each consortium member has demonstrated excellence in its fields, with high impact publications, exceptional customer service and a history of international project participation.

Status

SIGNED

Call topic

HORIZON-CL5-2021-D3-03-02

Update Date

09-02-2023
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Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.5 Climate, Energy and Mobility
HORIZON.2.5.2 Energy Supply
HORIZON-CL5-2021-D3-03
HORIZON-CL5-2021-D3-03-02 Next generation of renewable energy technologies