Summary
In the road to sustainability, the treatment of post-combustion emissions is still far from being techno-economically viable. On one end, the low concentration of CO2 in these streams, precludes the use of current carbon capture (CC) technologies. On the other end, even if CC were successfully implemented, there are not plausible final uses, maybe except geological long-term storage. Our ambitious proposal aims to investigate the viability of a technology able to tackle these challenges at once. Our SUPERVAL technology will develop scientific solutions from low-cost, non-critical raw materials and processes, with the added value of removing/valorizing the NOx contaminants from flue gas.
We propose to design and realize an autonomous, solar-powered installation able to capture harmful emissions from flue gas, and valorize them as commodities for the chemical industry, using water as sacrificial source of electrons and protons. The CO2 will be transformed into an organic, energy-rich molecule (formate). The NOx will be also captured and transformed, in combination with N2, into ammonia using the hydrogen obtained in the CO2 co-electrolysis processes. This integrated effort will offer the comprehensive capture and valorization of carbon and nitrogen components in post-combustion emissions, thus limiting pollutants and resulting in added-value chemicals. The corresponding techno-economic analysis and life cycle assessment studies will help to shape the components and performance of SUPERVAL as a useful technological advancement in the search for zero net emissions.
We propose to design and realize an autonomous, solar-powered installation able to capture harmful emissions from flue gas, and valorize them as commodities for the chemical industry, using water as sacrificial source of electrons and protons. The CO2 will be transformed into an organic, energy-rich molecule (formate). The NOx will be also captured and transformed, in combination with N2, into ammonia using the hydrogen obtained in the CO2 co-electrolysis processes. This integrated effort will offer the comprehensive capture and valorization of carbon and nitrogen components in post-combustion emissions, thus limiting pollutants and resulting in added-value chemicals. The corresponding techno-economic analysis and life cycle assessment studies will help to shape the components and performance of SUPERVAL as a useful technological advancement in the search for zero net emissions.
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| Web resources: | https://cordis.europa.eu/project/id/101115456 |
| Start date: | 01-11-2023 |
| End date: | 31-10-2026 |
| Total budget - Public funding: | 3 571 708,75 Euro - 3 571 708,00 Euro |
Cordis data
Original description
In the road to sustainability, the treatment of post-combustion emissions is still far from being techno-economically viable. On one end, the low concentration of CO2 in these streams, precludes the use of current carbon capture (CC) technologies. On the other end, even if CC were successfully implemented, there are not plausible final uses, maybe except geological long-term storage. Our ambitious proposal aims to investigate the viability of a technology able to tackle these challenges at once. Our SUPERVAL technology will develop scientific solutions from low-cost, non-critical raw materials and processes, with the added value of removing/valorizing the NOx contaminants from flue gas.We propose to design and realize an autonomous, solar-powered installation able to capture harmful emissions from flue gas, and valorize them as commodities for the chemical industry, using water as sacrificial source of electrons and protons. The CO2 will be transformed into an organic, energy-rich molecule (formate). The NOx will be also captured and transformed, in combination with N2, into ammonia using the hydrogen obtained in the CO2 co-electrolysis processes. This integrated effort will offer the comprehensive capture and valorization of carbon and nitrogen components in post-combustion emissions, thus limiting pollutants and resulting in added-value chemicals. The corresponding techno-economic analysis and life cycle assessment studies will help to shape the components and performance of SUPERVAL as a useful technological advancement in the search for zero net emissions.
Status
SIGNEDCall topic
HORIZON-EIC-2022-PATHFINDERCHALLENGES-01-01Update Date
31-07-2023
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Organisations
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| FUNDACIO PRIVADA INSTITUT CATALA D'INVESTIGACIO QUIMICA (Coördinator)
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| 2.-O LCA CONSULTANTS APS
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| CONSORZIO INTERUNIVERSITARIO NAZIONALE PER LA SCIENZA E TECNOLOGIA DEI MATERIALI
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| Eindhoven University of Technology
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| FORSCHUNGSZENTRUM JULICH GMBH (JUELICH)
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| ORCHESTRA SCIENTIFIC SOCIEDAD LIMITADA
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| UNIVERSITA DEGLI STUDI DI MESSINA (UNIME)
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| UPV. UNIVERSITAT POLITECNICA DE VALENCIA
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| VARESER 96 SL