This page is also available in English: Switch to northdata.com | Hinweis nicht mehr anzeigen

Recherchiere Firmen­bekanntmachungen und finanzielle Kennzahlen

EU-Förderung (4.498.150 €): Grüner Industriewasserstoff über reversible Hochtemperatur-Elektrolyse Hor01.03.2016 EU-Rahmenprogramm für Forschung und Innovation "Horizont"

Auf einen Blick

Text

Grüner Industriewasserstoff über reversible Hochtemperatur-Elektrolyse

High-temperature electrolysis (HT electrolysis) is one of the most promising technologies to address the European Commission´s Roadmap to a competitive low-carbon economy in 2050. Because a significant share of the energy input is provided in the form of heat, HT electrolysis achieves higher electrical system efficiency compared to low temperature electrolysis technologies. Therefore, the main objectives of the GrInHy project focus on: • Proof of reaching an overall electrical efficiency of at least 80 %LHV (ca. 95 %HHV); • Scaling-up the SOEC unit to a DC power input (stack level) of 120 kWel; • Reaching a lifetime of greater 10,000 h with a degradation rate below 1 %/1,000 h; • Integration and operation for at least 7,000 h meeting the hydrogen quality standards of the steel industry; Additional project objectives are: • Elaboration of an Exploitation Roadmap for cost reducing measures; • Development of dependable system cost data; • Integration of a reversible operation mode (fuel cell mode); The objectives are congruent with the call FCH-02.4-2015 and the Multi Annual Work Plan of the FCH JU. The proof-of-concept will take place in the relevant environment of an integrated iron and steel works. Its existing infrastructure and metallurgical processes, which provide the necessary waste heat, increase the project´s cost-effectiveness and minimize the electrical power demand of auxiliaries. As a result, the electrical efficiency of 80 % will be achieved by operating the HT electrolyser close to the thermal-neutral operation point. The installation will consist of an optimized multi-stack module design with 6 stacks modules in parallel (total capacity: 120 kWel). The last project year is dedicated to the testing of 7,000 h and more. This will be achieved due to a high degree of existing knowledge at system level. Lifetime and degradation targets have already been fulfilled at cell level and will be verified by testing an enhanced stack.


Geförderte Unternehmen:

Firmenname Förderungssumme
Boeing Aerospace Spain 395.458 €
EIFER EUROPAISCHES INSTITUT für ENERGIEFORSCHUNG EDF KIT EWIV 411.083 €
Politecnico DI Torino 245.283 €
SALZGITTER FLACHSTAHL GmbH 303.988 €
SALZGITTER MANNESMANN FORSCHUNG GmbH 425.218 €
SUNFIRE GmbH 2.008.125 €
TEKNOLOGIAN TUTKIMUSKESKUS VTT Oy 394.773 €
????? ?????? ?????????, ???????? ??? ????? ?????????, ?????? 314.225 €

Quelle: https://cordis.europa.eu/project/id/700300

Diese Bekanntmachung wurde von Englisch nach Deutsch übersetzt. Die Bekanntmachung bezieht sich auf einen vergangenen Zeitpunkt, und spiegelt nicht notwendigerweise den heutigen Stand wider.

Creative Commons Lizenzvertrag Die Visualisierungen zu "Boeing Aerospace Spain - EU-Förderung (4.498.150 €): Grüner Industriewasserstoff über reversible Hochtemperatur-Elektrolyse" werden von North Data zur Weiterverwendung unter einer Creative Commons Lizenz zur Verfügung gestellt.