MICRO4BIOGAS | Natural and Synthetic Microbial Communities for Sustainable Production of Optimised Biogas

Summary
Anaerobic digestion (AD) of organic matter is a robust technology for biogas synthesis from different types of waste (sewage sludge from water treatment, animal slurry, bio-waste, etc.). The main goal of AD is the production of methane, a renewable energy source that can be used to generate electricity, heat or as vehicle fuel. Biogas is a mixture of methane (CH4; 55–70% of the total volume), carbon dioxide (CO2; 30–40%) and traces of other gases. In 2018, EU was the world’s largest producer of biomethane, reaching 2,28 bcm. However, from a purely engineering view, the microbial process underlying methane production is considered to be a black box: it is subjected to a degree of variability and it is an industrial process with a lot of room for improvement in the systematic optimisation of (1) yield, (2) quality, (3) speed and (4) robustness of the process.

MICRO4BIOGAS aims to tackle these 4 aspects by integrating, for the first time, the use of microbial consortia that naturally inhabit anaerobic digesters with synthetic microbial consortia with improved capabilities, setting the basis for a user-friendly kit for bioaugmentation of biogas production (activities will be implemented at TRL3 with a TRL target of 5-6).

Partners from 6 EU countries will work side by side to make a difference in the European biogas industry, that individually could not be achieved. By improving the biogas production in Europe, this project meets the EU Bioeconomy Strategy and the European Green Deal, helping to reach the Sustainable Development Goals (SDG7: Affordable and clean energy; SDG13: Climate Action) and working towards the circularity, resource efficiency and sustainability of the European countries.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101000470
Start date: 01-06-2021
End date: 31-05-2025
Total budget - Public funding: 5 739 650,00 Euro - 5 739 650,00 Euro
Cordis data

Original description

Anaerobic digestion (AD) of organic matter is a robust technology for biogas synthesis from different types of waste (sewage sludge from water treatment, animal slurry, bio-waste, etc.). The main goal of AD is the production of methane, a renewable energy source that can be used to generate electricity, heat or as vehicle fuel. Biogas is a mixture of methane (CH4; 55–70% of the total volume), carbon dioxide (CO2; 30–40%) and traces of other gases. In 2018, EU was the world’s largest producer of biomethane, reaching 2,28 bcm. However, from a purely engineering view, the microbial process underlying methane production is considered to be a black box: it is subjected to a degree of variability and it is an industrial process with a lot of room for improvement in the systematic optimisation of (1) yield, (2) quality, (3) speed and (4) robustness of the process.

MICRO4BIOGAS aims to tackle these 4 aspects by integrating, for the first time, the use of microbial consortia that naturally inhabit anaerobic digesters with synthetic microbial consortia with improved capabilities, setting the basis for a user-friendly kit for bioaugmentation of biogas production (activities will be implemented at TRL3 with a TRL target of 5-6).

Partners from 6 EU countries will work side by side to make a difference in the European biogas industry, that individually could not be achieved. By improving the biogas production in Europe, this project meets the EU Bioeconomy Strategy and the European Green Deal, helping to reach the Sustainable Development Goals (SDG7: Affordable and clean energy; SDG13: Climate Action) and working towards the circularity, resource efficiency and sustainability of the European countries.

Status

SIGNED

Call topic

FNR-12-2020

Update Date

26-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
H2020-EU.3.2.0. Cross-cutting call topics
H2020-FNR-2020-2
FNR-12-2020 Industrial microbiomes ? learning from nature