Evaluation and optimization of Danish solid oxide fuel cells - Generation 2,5G and 3G
One of the main results in this project is the breakthrough in the development of 2.5G cells, which are now leading in terms of performance and stability. Moreover, increased understanding of the degradation mechanisms were achieved via cell tests, microscopic analyses and thermo-dynamic modelling. This knowledge considerably improved even the 2G c
Results
One of the main results in this project is the breakthrough in the development of 2.5G cells, which are now leading in terms of performance and stability. Moreover, increased understanding of the degradation mechanisms were achieved via cell tests, microscopic analyses and thermo-dynamic modelling. This knowledge considerably improved even the 2G cells. Application of various fuels such as ammonia, biosyngas and reformed gas was demonstrated successfully. Development of 3G cells continued through cell testing. As a result, new production methods and at least two new cell designs were found.
Key figures
Period:
2005 - 2007
Funding year:
2005
Own financial contribution:
4.67 mio. DKK
Grant:
7.86 mio. DKK
Funding rate:
63 %
Project budget:
12.53 mio. DKK
Participants
Danmarks Tekniske Universitet (DTU) (Main Responsible)
Partners and economy
| Partner | Subsidy | Auto financing |
|---|---|---|
| No entries available. | ||
Contact
Kontakperson
Hagen, Anke
Comtact information
Danmarks Tekniske Universitet. Risø Nationallaboratoriet for Bæredygtig Energi (Risø DTU). Afdeling for MaterialeforskningP.O. Box 49
DK-4000 Roskilde, Denmark
Hagen, Anke , 46775701, anke.hagen@risoe.dtu.dk
Øvr. Partnere: Ørsted - DTU; Haldor Topsøe A/S; IRD Fuel Cell A/S
