Summary
Gathering 17 partners from 7 countries, METHAREN aims to demonstrate a cost-effective, innovative, more sustainable and circular biomethane production system enabling renewable energy sources intermittency management. To do so, METHAREN is providing improvements beyond the state-of-the art along four main axes related to: i) the biogas plant efficiency; ii) flexibility and energy management for RES integration; iii) the circularity approach for sustainable production and iv) innovative business models and adapted policies. The consortium will use the results of the engineering specifications (WP1) to develop the technologies related to the gasification plant (WP2), the methanation plant (WP3) and the development of the circularity (WP4) in the various processes as METHAREN will reuse water, O2 from the electrolysis, and heat to foster overall efficiency and sustainability. All individually developed and tested systems will then be integrated and tested in a pilot site (WP5) before being operated and optimised for more than a year (WP6). In parallel, the market uptake and exploitation of solutions will be carried out all along the project to ensure that the technologies develop will answer market needs (WP7) while dedicated communication and dissemination activities (WP8) will ensure that the results of the project are known and used by relevant stakeholders. Coordinated by a European industrial engineering world leader, the management of the project (WP9) will also be ensured by WP leaders, who all have strong experience and excellent expertise in their fields as research and technical centres, engineering development companies, or industrials. This combined expertise will allow METHAREN to demonstrate an increase of cost effectiveness by at least 20% while reaching a carbon conversion rate from biowaste to methane higher than 80%, a reduction of GHG emission compared to current process by 50% and the potential of replication on at least 30 other sites in Europe.
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| Web resources: | https://cordis.europa.eu/project/id/101084288 |
| Start date: | 01-11-2022 |
| End date: | 31-10-2027 |
| Total budget - Public funding: | 13 758 322,25 Euro - 10 361 053,00 Euro |
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Original description
Gathering 17 partners from 7 countries, METHAREN aims to demonstrate a cost-effective, innovative, more sustainable and circular biomethane production system enabling renewable energy sources intermittency management. To do so, METHAREN is providing improvements beyond the state-of-the art along four main axes related to: i) the biogas plant efficiency; ii) flexibility and energy management for RES integration; iii) the circularity approach for sustainable production and iv) innovative business models and adapted policies. The consortium will use the results of the engineering specifications (WP1) to develop the technologies related to the gasification plant (WP2), the methanation plant (WP3) and the development of the circularity (WP4) in the various processes as METHAREN will reuse water, O2 from the electrolysis, and heat to foster overall efficiency and sustainability. All individually developed and tested systems will then be integrated and tested in a pilot site (WP5) before being operated and optimised for more than a year (WP6). In parallel, the market uptake and exploitation of solutions will be carried out all along the project to ensure that the technologies develop will answer market needs (WP7) while dedicated communication and dissemination activities (WP8) will ensure that the results of the project are known and used by relevant stakeholders. Coordinated by a European industrial engineering world leader, the management of the project (WP9) will also be ensured by WP leaders, who all have strong experience and excellent expertise in their fields as research and technical centres, engineering development companies, or industrials. This combined expertise will allow METHAREN to demonstrate an increase of cost effectiveness by at least 20% while reaching a carbon conversion rate from biowaste to methane higher than 80%, a reduction of GHG emission compared to current process by 50% and the potential of replication on at least 30 other sites in Europe.Status
SIGNEDCall topic
HORIZON-CL5-2021-D3-03-16Update Date
09-02-2023
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Organisations
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| TECHNIP BENELUX BV (Coördinator)
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| ACEA PINEROLESE INDUSTRIALE SPA
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| ASSOCIACAO FRAUNHOFER PORTUGAL RESEARCH
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| DBI GAS UND UMWELTTECHNIK GMBH
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| DELAUNAY ET FILS
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| ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)
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| ENAGAS TRANSPORTE SA
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| EUROPEAN RENEWABLE GAS REGISTRY
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| EUROQUALITY SARL
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| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
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| GAZOTECH
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| HYSYTECH SRL
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| LOMARTOV SL
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| PARCO SCIENTIFICO TECNOLOGICO PER LAMBIENTE ENVIRONMENT PARK TORINO SPA