Demonstrating and Connecting Production Innovations in the BIOMETHAne uniVERSE

HORIZON.2.5HORIZON-IAID: 101084200
EC Contribution
โ‚ฌ98,718
Consortium Size
22 orgs
โ–ถSummary

BIOMETHAVERSE (Demonstrating and Connecting Production Innovations in the BIOMETHAne uniVERSE) aims to diversify the technology basis for biomethane production in Europe, to increase its cost-effectiveness, and to contribute both to the uptake of biomethane technologies and to the priorities of the SET Plan Action 8. To this aim five innovative biomethane production pathways will be demonstrated in five European countries: France, Greece, Italy, Sweden, and Ukraine.The project is based on the following founding pillars: Demonstration of innovative biomethane pathways; Technology optimisation and upscaling by technoeconomic flowsheeting; Environmental and social sustainability assessment; Replicability, market penetration, support to planning decisions of other investors and project developers, policy recommendations to policy makers; Dissemination, exploitation and communication of project results.BIOMETHAVERSE relates, within the Work Program 2021-2022 on Climate, Energy and Mobility, to the Call โ€œSustainable, secure and competitive energy supplyโ€, specifically to the topic HORIZON-CL5-2021-D3-03-16: Innovative biomethane production as an energy carrier and a fuel.The project production routes cover one or a combination of the following production pathways: thermochemical, biochemical, electrochemical, and biological. As a starting point, four demonstration plants use conventional anaerobic digestion (AD), and one uses conventional gasification. In the BIOMETHAVERSE demonstrators, CO2 effluents from AD or gasification and other intermediate products are combined with renewable hydrogen or renewable electricity directly to increase the overall biomethane yield. All demonstrated production routes go beyond conventional technologies, with a circular approach for energy and material, while aiming at reducing the overall biomethane production costs and increasing the biomethane production. The demonstrated technologies will reach TRL 6-7 at the end of the project.

Consortium (22)

Project Results (21)

Source: CORDIS, the EU research results database.

โ–ถPublications (5)
CFD simulation for optimizing flow dynamics in a bioelectrochemically enhanced single-chamber anaerobic digester
International Journal of Thermofluidsยท 2025DOI
S. Feilner, M. Espejo, M. Garcia, D. Molognoni, E. Borrร s, K. Herkendell
Electromethanogenesis with 3D printed carbon electrodes: Effects of surface properties and geometries on H2 generation and CO2 reduction
Chemical Engineering Journalยท 2025DOI
Miriam Fernandez-Avila Cobo, Babak Rezaei, Stephan Sylvest Keller, Yifeng Zhang
Long-term outdoor operation of microalgae-based digestate treatment: impact of external drivers on process performances and techno-economic assessment
Bioresource Technologyยท 2025DOI
S. Rossi, M. Mantovani, F. Marazzi, V. Mezzanotte, E. Ficara
Leveraging 3D printing in microbial electrochemistry research: current progress and future opportunities
Frontiers of Environmental Science & Engineeringยท 2024DOI
Mingyi Xu, Miriam Fernandez-Avila Cobo, Danfei Zeng, Yifeng Zhang
The Effect of Pyrolysis Water on Different Levels of a Reactor for Biological Syngas Methanation
ยท 2024
Stina ร…strรถm
โ–ถDeliverables (15)
โ–ถOther Results (1)
Periodic Reporting for period 1 - BIOMETHAVERSE (Demonstrating and Connecting Production Innovations in the BIOMETHAne uniVERSE)