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LOTER.CO2M SIGNED

CRM-free Low Temperature Electrochemical Reduction of CO2 to Methanol

Total Cost €

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EC-Contrib. €

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Partnership

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Project "LOTER.CO2M" data sheet

The following table provides information about the project.

Coordinator
DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV 

Organization address
address: Linder Hoehe
city: KOELN
postcode: 51147
website: www.dlr.de

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country Germany [DE]
 Project website http://www.loterco2m.eu
 Total cost 4˙264˙452 €
 EC max contribution 4˙264˙452 € (100%)
 Programme 1. H2020-EU.2.1.3. (INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced materials)
2. H2020-EU.2.1.2. (INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Nanotechnologies)
 Code Call H2020-NMBP-2017-two-stage
 Funding Scheme RIA
 Starting year 2018
 Duration (year-month-day) from 2018-01-01   to  2020-12-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV DE (KOELN) coordinator 1˙189˙985.00
2    HYDROGENICS EUROPE NV BE (WESTERLO) participant 589˙250.00
3    RWE POWER AG DE (ESSEN) participant 499˙240.00
4    JOHNSON MATTHEY PLC UK (LONDON) participant 443˙165.00
5    DANMARKS TEKNISKE UNIVERSITET DK (KGS LYNGBY) participant 400˙000.00
6    IRD FUEL CELLS A/S DK (FRAUGDE) participant 352˙215.00
7    CONSIGLIO NAZIONALE DELLE RICERCHE IT (ROMA) participant 350˙000.00
8    UNIVERSITAT POLITECNICA DE VALENCIA ES (VALENCIA) participant 290˙597.00
9    NV BEKAERT SA BE (ZWEVEGEM) participant 150˙000.00

Map

 Project objective

LOTER.CO2M aims to develop advanced, low-cost electro-catalysts and membranes for the direct electrochemical reduction of CO2 to methanol by low temperature CO2-H2O co-electrolysis. The materials will be developed using sustainable, non-toxic and non-critical raw materials. They will be scaled-up, integrated into a gas phase electrochemical reactor, and the process validated for technical and economic feasibility under industrially relevant conditions. The produced methanol can be used as a chemical feedstock or for effective chemical storage of renewable energy. The demonstration of the new materials at TRL5 level, and the potential of this technology for market penetration, will be assessed by achieving a target electrochemical performance > 50 A/g at 1.5 V/cell, a CO2 conversion rate > 60%, and a selectivity > 90% towards methanol production with an enthalpy efficiency for the process > 86%. A significant increase in durability under intermittent operation in combination with renewable power sources is also targeted in the project through several stabilization strategies to achieve a degradation rate of < 1%/1000 h at stack level. The developed low-temperature CO2 conversion reactor will offer fast response (frequency > 2-5 Hz) to electrical current fluctuations typical of intermittent power sources and a wide operating range in terms of input power, i.e. from 10% to full power in less than a second. Such aspects are indicative of an excellent dynamic behaviour as necessary to operate with renewable power sources. A life cycle assessment of the CO2 electrolysis system, which will compile information at different levels from materials up to the CO2 electrolysis system including processing resources, will complete the assessment of this technology for large-scale application. Field testing of the co-electrolysis system in an industrial relevant environment will enable to evaluate the commercial competitiveness and the development of a forward exploitation plan.

 Publications

year authors and title journal last update
List of publications.
2019 C. Busacca, S.C. Zignani, A. Di Blasi, O. Di Blasi, M. Lo Faro, V. Antonucci, A.S. Aricò
Electrospun NiMn2O4 and NiCo2O4 spinel oxides supported on carbon nanofibers as electrocatalysts for the oxygen evolution reaction in an anion exchange membrane-based electrolysis cell
published pages: , ISSN: 0360-3199, DOI: 10.1016/j.ijhydene.2019.02.214
International Journal of Hydrogen Energy 2019-09-02

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