Summary
In 2017, EU GHG emissions, including emissions from international aviationEurope has successfully reduced its GHG emissions since 1990 levels. The pace of reducing CO2 emissions is positive, however it is projected to slow after 2020 resulting in difficulties to achieve EU’s reduction target of 55% by 2030 as planned in the European Green Deal. Additional measures and policies are foreseen in EU to forefront this situation. Negative emissions technologies, as carbon capture, utilization and storage (CCUS) ones are currently a priority to explore, especially in non-exploited industrial sectors such as the bio-based industry as they significantly contribute to CO2 emissions. CATCO2NVERS will contribute to reduce GHG emissions from the bio-based industries developing 5 innovative and integrated technologies based on 3 catalytic methods (electrochemical, enzymatic and thermochemical). It will transform waste-CO2 (up to 90%) and residual biomass from 2 bio-based industries into 5 added-value chemicals (glyoxylic acid, lactic acid, furan dicarboxylic methyl ester (FDME), cyclic carbonated fatty acid methyl esters (CCFAMEs) with production yields between 70-90%. Methanol which will not have an energetic use but will be used in CATCO2NVERS own technologies. These target chemicals will be used as building blocks and monomers to obtain biopolymers of 100% bio-origin. Industrial partners will validate the application of the obtained chemical building blocks on the most relevant markets. In addition, the waste-CO2 stream will be conditioned by removing potential inhibitors for the catalysts. CATCO2NVERS will meet some of the principles in green chemistry (atom economy, use of renewable feedstocks, reduce derivatives and use of catalysts instead of stoichiometric reagents). CATCO2NVERS will explore an energy and resource efficient scenario following an industrial symbiosis model to ensure a biorefinery process along the CO2 valorization chain with zero or negative GHG emissions.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101000580 |
| Start date: | 01-05-2021 |
| End date: | 30-04-2025 |
| Total budget - Public funding: | 6 641 111,00 Euro - 6 641 110,00 Euro |
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Original description
In 2017, EU GHG emissions, including emissions from international aviationEurope has successfully reduced its GHG emissions since 1990 levels. The pace of reducing CO2 emissions is positive, however it is projected to slow after 2020 resulting in difficulties to achieve EU’s reduction target of 55% by 2030 as planned in the European Green Deal. Additional measures and policies are foreseen in EU to forefront this situation. Negative emissions technologies, as carbon capture, utilization and storage (CCUS) ones are currently a priority to explore, especially in non-exploited industrial sectors such as the bio-based industry as they significantly contribute to CO2 emissions. CATCO2NVERS will contribute to reduce GHG emissions from the bio-based industries developing 5 innovative and integrated technologies based on 3 catalytic methods (electrochemical, enzymatic and thermochemical). It will transform waste-CO2 (up to 90%) and residual biomass from 2 bio-based industries into 5 added-value chemicals (glyoxylic acid, lactic acid, furan dicarboxylic methyl ester (FDME), cyclic carbonated fatty acid methyl esters (CCFAMEs) with production yields between 70-90%. Methanol which will not have an energetic use but will be used in CATCO2NVERS own technologies. These target chemicals will be used as building blocks and monomers to obtain biopolymers of 100% bio-origin. Industrial partners will validate the application of the obtained chemical building blocks on the most relevant markets. In addition, the waste-CO2 stream will be conditioned by removing potential inhibitors for the catalysts. CATCO2NVERS will meet some of the principles in green chemistry (atom economy, use of renewable feedstocks, reduce derivatives and use of catalysts instead of stoichiometric reagents). CATCO2NVERS will explore an energy and resource efficient scenario following an industrial symbiosis model to ensure a biorefinery process along the CO2 valorization chain with zero or negative GHG emissions.Status
SIGNEDCall topic
LC-FNR-13-2020Update Date
26-10-2022
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H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
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Organisations
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| FUNDACION PARA EL DESARROLLO Y LA INNOVACION TECNOLOGICA (Coördinator)
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| AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS
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| ALCHEMIA-NOVA GMBH
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| ARTIFICIAL NATURE, S.L.
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| AVA BIOCHEM BSL AG
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| AVANTIUM CHEMICALS BV
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| AVANTIUM SUPPORT BV
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| EVYAP SABUN YAG GLISERIN SANAYI VETICARET ANONIM SIRKETI
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| Fundacion CARTIF
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| HYSYTECH SRL
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| JOHNSON MATTHEY PLC
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| NOVA-INSTITUT FUR POLITISCHE UND OKOLOGISCHE INNOVATION GMBH
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| PERSEO BIOTECHNOLOGY S.L.
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| STICHTING WAGENINGEN RESEARCH
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| SUSTAINABLE INNOVATIONS EUROPE SL