Summary
The ongoing decarbonisation of the energy and transport systems is a current challenge in Europe. As the rising prices of fossil natural gas make evident, the need to increase renewable gas capacity is undeniable and goes hand in hand with solving bottlenecks that current biomethane production technologies cannot effectively address. The HYFUELUP project aims to demonstrate a flexible and hybrid pathway for the efficient and cost-effective production of biomethane through thermochemical technologies combined with renewable hydrogen. A complete deployment value chain, including biomethane offtake and distribution, will also be demonstrated to contribute to the market penetration of biomethane in key sectors. Thanks to the broad composition of the consortium, the project will blend market knowledge with advanced academic and industrial perspectives to demonstrate the production of biomethane at scale. First, the flexible conversion of low-grade feedstocks via sorption-enhanced gasification will be validated, coupled with syngas or flue gas clean-up, in a demonstrator at TRL6. Then, a second demonstrator will also validate fluidised-bed methanation of either syngas or flue gas with the dynamic addition of hydrogen at TRL6, before both technologies are integrated into a third demonstrator to produce biomethane at scale and reach TRL7. Together, such developments work toward reaching the impacts of the work programme and lead to relevant changes in action and practice via two well-defined impact pathways (“technological development and adoption”, and “enhancing capacity”) that will ultimately help strengthen the European scientific leadership for the development of a highly competitive renewable gas industry, widen the technology portfolio of biomethane production technologies, and improve citizen well-being via reduced climate and social risks.
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| Web resources: | https://cordis.europa.eu/project/id/101084148 |
| Start date: | 01-11-2022 |
| End date: | 31-10-2026 |
| Total budget - Public funding: | 11 573 443,92 Euro - 10 294 334,00 Euro |
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Original description
The ongoing decarbonisation of the energy and transport systems is a current challenge in Europe. As the rising prices of fossil natural gas make evident, the need to increase renewable gas capacity is undeniable and goes hand in hand with solving bottlenecks that current biomethane production technologies cannot effectively address. The HYFUELUP project aims to demonstrate a flexible and hybrid pathway for the efficient and cost-effective production of biomethane through thermochemical technologies combined with renewable hydrogen. A complete deployment value chain, including biomethane offtake and distribution, will also be demonstrated to contribute to the market penetration of biomethane in key sectors. Thanks to the broad composition of the consortium, the project will blend market knowledge with advanced academic and industrial perspectives to demonstrate the production of biomethane at scale. First, the flexible conversion of low-grade feedstocks via sorption-enhanced gasification will be validated, coupled with syngas or flue gas clean-up, in a demonstrator at TRL6. Then, a second demonstrator will also validate fluidised-bed methanation of either syngas or flue gas with the dynamic addition of hydrogen at TRL6, before both technologies are integrated into a third demonstrator to produce biomethane at scale and reach TRL7. Together, such developments work toward reaching the impacts of the work programme and lead to relevant changes in action and practice via two well-defined impact pathways (“technological development and adoption”, and “enhancing capacity”) that will ultimately help strengthen the European scientific leadership for the development of a highly competitive renewable gas industry, widen the technology portfolio of biomethane production technologies, and improve citizen well-being via reduced climate and social risks.Status
SIGNEDCall topic
HORIZON-CL5-2021-D3-03-16Update Date
09-02-2023
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Organisations
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| BIOREF LABORATORIO COLABORATIVO PARA AS BIORREFINARIAS (Coördinator)
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| AlphaSYNT GmbH
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| BIOPLAT
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| CENTRE FOR RENEWABLE ENERGY SOURCES AND SAVING FONDATION (CRES)
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| CIRCLEMOLECULE LDA
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| DOUROGAS RENOVAVEL - PRODUTORA DE GAS
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| INSTITUTO POLITÉCNICO DE PORTALEGRE
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| JOHNSON MATTHEY PLC
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| Laboratorio Nacional de Energia e Geologia I.P.
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| PAUL SCHERRER INSTITUT (PSI)
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| UNIVERSITAET STUTTGART