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001     796492
005     20230209042655.0
024 7 _ |a G:(EU-Grant)838077
|d 838077
|2 CORDIS
024 7 _ |a G:(EU-Call)H2020-LC-SC3-2018-NZE-CC
|d H2020-LC-SC3-2018-NZE-CC
|2 CORDIS
024 7 _ |a corda__h2020::838077
|2 originalID
035 _ _ |a G:(EU-Grant)838077
150 _ _ |a Direct electrocatalytic conversion of CO2 into chemical energy carriers in a co-ionic membrane reactor
|y 2019-05-01 - 2023-10-31
371 _ _ |a HERA HOLDING HABITAT, ECOLOGIA Y RESTAURACION AMBIENTAL S.L.
|d Spain
|e http://www.heraholding.com
|v CORDIS
371 _ _ |a Xiamen Nanyang University
|b Xiamen Nanyang University
|d China
|e http://www.ny2000.cn/
|v CORDIS
371 _ _ |a NATIONAL UNIVERSITY CORPORATION KYUSHU UNIVERSITY
|b KOKURITSU DAIGAKU HOJIN KYUSHU DAIGAKU
|d Japan
|e http://www.kyushu-u.ac.jp/english/index.php
|v CORDIS
371 _ _ |a ARCELORMITTAL BELGIUM NV
|d Belgium
|v CORDIS
371 _ _ |a Universitetet i Oslo
|b UiO
|d Norway
|e http://www.uio.no/
|v CORDIS
371 _ _ |a Shell Global Solutions International BV
|d Netherlands
|e http://www.shell.com/globalsolutions
|v CORDIS
371 _ _ |a Universitat Politècnica de València
|b UPV
|d Spain
|e http://www.upv.es/
|v CORDIS
371 _ _ |a AGENCIA ESTATAL CONSEJO SUPERIOR DEINVESTIGACIONES CIENTIFICAS
|b CSIC
|d Spain
|e http://www.csic.es
|v CORDIS
371 _ _ |a RWTH Aachen University
|b RWTH
|d Germany
|e http://www.rwth-aachen.de/cms/~a/root/lidx/1/
|v CORDIS
371 _ _ |a CEMEX RESEARCH GROUP AG
|d Switzerland
|e http://www.cemex.com
|v CORDIS
371 _ _ |a COORSTEK MEMBRANE SCIENCES AS
|b PROTIA AS
|d Norway
|v CORDIS
371 _ _ |a SINTEF
|b SINTEF
|d Norway
|e http://www.sintef.no/en/
|v CORDIS
372 _ _ |a H2020-LC-SC3-2018-NZE-CC
|s 2019-05-01
|t 2023-10-31
450 _ _ |a eCOCO2
|w d
|y 2019-05-01 - 2023-10-31
510 1 _ |0 I:(DE-588b)5098525-5
|a European Union
|2 CORDIS
680 _ _ |a GHG emissions reduction policies to mitigate the alarming climate change can impact carbon-intensive industrial sectors, leading to loss of employment and competitiveness. Current multistage CCU technologies using renewable electricity to yield fuels suffer from low energy efficiency and require large CAPEX. eCOCO2 combines smart molecular catalysis and process intensification to bring out a novel efficient, flexible and scalable CCU technology. The project aims to set up a CO2 conversion process using renewable electricity and water steam to directly produce synthetic jet fuels with balanced hydrocarbon distribution (paraffin, olefins and aromatics) to meet the stringent specifications in aviation. The CO2 converter consists of a tailor-made multifunctional catalyst integrated in a co-ionic electrochemical cell that enables to in-situ realise electrolysis and water removal from hydrocarbon synthesis reaction. This intensified process can lead to breakthrough product yield and efficiency for chemical energy storage from electricity, specifically CO2 per-pass conversion > 85%, energy efficiency > 85% and net specific demand < 6 MWh/t CO2. In addition, the process is compact, modular –quickly scalable- and flexible, thus, process operation and economics can be adjusted to renewable energy fluctuations. As a result, this technology will enable to store more energy per processed CO2 molecule and therefore to reduce GHG emissions per jet fuel tone produced from electricity at a substantial higher level. eCOCO2 aims to demonstrate the technology (TRL-5) by producing > 250 g of jet fuel per day in an existing modular prototype rig that integrates 18 tubular intensified electrochemical reactors. Studies on societal perception and acceptance will be carried out across several European regions. The consortium counts on academic partners with the highest world-wide excellence and exceptional industrial partners with three major actors in the most CO2-emmiting sectors.
909 C O |o oai:juser.fz-juelich.de:878939
|p authority:GRANT
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909 C O |o oai:juser.fz-juelich.de:878939
970 _ _ |a oai:dnet:corda__h2020::8418859102480e7b4e43709369ecb959
980 _ _ |a G
980 _ _ |a CORDIS
980 _ _ |a AUTHORITY

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