LIFE-3E
25 de January de 2020
UV Cleaning
30 de May de 2020SUMMARY
Hybrid reactor for solar CO2 and N2 conversion coupled to wastewater treatment (Hysolchem).
- Funding: European Commission
- Call: Horizon 2020. Research and Innovation programme
- Project code: 101017928
- Budget: 2,767,532.50 €
- Period: January 2021 – April 2025
- Webpage: www.hysolchem.eu/
OBJECTIVE
Hybrid reactor for solar conversion of different currents
The project Hysolchem aims to develop a hybrid reactor for solar CO2 and N2 conversion coupled with wastewater treatment.
TIMELINE
The project, initiated in January 2021, is set to present its final results in April 2025
2021 - 2022DEVELOPMENT
Material development and characterization2022 - 2023PROTOTYPE
Prototype design, construction, scale-up2023 - 2025VALIDATION
Validation of the prototype in real environments
ROLE OF APRIA
Photoreactor prototype
The role of Apria in the Hysolchem project is the design and scale-up of a prototype photoreactor for CO2 and N2 reduction that will be used to produce fuels and chemicals coupled to the electro-oxidation of micro-plastics and organic pollutants from wastewater treatment plants.
CONSORTIUM
The project is formed by a consortium of seven partners
IMDEA EnergÃa, Universidad Rey Juan Carlos, Innova, KU Leuven, AMER-SIL, Diamond, and Apria
Hysolchem is co-funded by the European Union's Horizon 2020 research and innovation programme
Grant Agreement No. 101017928
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