Hydrogen E-Bike
4 de September de 2024
DisTecH2
24 de September de 2024SUMMARY
Clean hydrogen from solar photo(thermo)catalytic
reforming of biomass-derived compounds in vapour phase
- Funding: SODERCAN - Horizon Europe
- Call: CET Partnership
- Project code: CETP-FP-2023-00250
- Budget: 1,067,735.17 €
- Period: December 2024 – December 2027
OBJECTIVE
CLYOSPHERE aims to demonstrate clean hydrogen production from the photothermal transformation of biomass-derived compounds, using solar light by integrating novel photoactive catalysts inside an innovative photoreactor based on solar Compound Parabolic Concentrator (CPC) configuration.Â
CLYOSPHEREÂ proposes a technological alternative to water electrolysis to produce hydrogen and simultaneously oxidize biomass waste derived compounds industrially generated in a water medium by a moderate temperature photo(thermo)photocatalytic solar-driven process.
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TIMELINE
The project, with a start date of September 2024, will present its final results in August 2027.
2024 - 2026DEVELOPMENT
Design and construction of the solution.2026-2028TESTING
Demonstration of the solution in a hospital.2024-2028MONITORING
Evaluation of the impact and effectiveness of the solution.
ROLE OF APRIA
CPC photho(thermo) reactor
Apria's role in the CLYOSPHERE project is the design, up-scale, and construction of a CPC photo(thermo) reactor that will incorporate the monolithic 3D hybrid photo(thermo)catalysts.
CONSORTIUM
CLYOSPHERE is formed by a consortium of four partners from three different European countries
University of Palermo, CNRS, CSIC, and Apria Systems
CLYOSPHERE is co-funded by the CET Partnership programme of SODERCAN and the European Union.
Grant Agreement No. CETP-FP-2023-00250
The contents of this website are the sole responsibility of the authors and do not necessarily reflect the views of SODERCAN neather the European Union.
