Hybrid Energy Storage
The project will develop, test and optimize hybrid energy storage systems. Three storage technol-ogies will be characterized in the laboratory. The performance of each technology will be used to develop a sizing and optimization tool. A hybrid storage system integrated with wind turbine will be developed towards a full-scale demonstration.
Project description
The project will develop, test and optimize hybrid energy storage systems, i.e. combinations of different storage technologies with complementary properties. Initially, three storage technologies will be characterized in the laboratory facility SYSLAB at DTU Risø Campus. The performance of the individual technologies will be compared against that of a hybrid storage system combining multiple technologies. The results will be used to develop a sizing and optimization tool which can be used to determine the best combination of storage units for a given application. One such ap-plication - a hybrid storage system integrated into a wind turbine - will be developed towards a full-scale demonstration. Results from this demonstration will be used to further refine the sizing and optimization tool.
Key figures
Period:
2020 - 2022
Funding year:
2020
Own financial contribution:
1.46 mio. DKK
Grant:
2.51 mio. DKK
Funding rate:
63 %
Project budget:
3.97 mio. DKK
Participants
Danmarks Tekniske Universitet (DTU) (Main Responsible)
Partners and economy
| Partner | Subsidy | Auto financing |
|---|---|---|
| Danmarks Tekniske Universitet (DTU) | 1,38 mio. DKK | 0,15 mio. DKK |
| VESTAS WIND SYSTEMS A/S | 0,18 mio. DKK | 0,70 mio. DKK |
| DEIF A/S | 0,02 mio. DKK | 0,50 mio. DKK |
| Danmarks Tekniske Universitet (DTU) | 0,95 mio. DKK | 0,11 mio. DKK |
Contact
Kontakperson
Henrik Bindner
Comtact information
Frederiksborgvej 399,
4000 Roskilde
Tlf.: 45253800
Contact email
elektro@elektro.dtu.dk
