Skip to main content
Skip to navigation
Skip to footer
DLR Portal
Press
Accessibility
de
en
Institute
of Future Fuels
About us
About us
▾
The Institute
▾
Departments
▾
Chemical and physical fundamentals
▾
Solar chemical process development
▾
Solar process demonstration
▾
Evaluation of solar production processes
▾
Locations & arrival
▾
Jülich
▾
Cologne
▾
Contact persons
Research & Transfer
Research & Transfer
▾
Topics
▾
CO₂-neutral fuels
▾
Hydrogen as energy carrier
▾
Recycling economy
▾
Low-emission base material production
▾
Heat transfer media
▾
Process evaluation
▾
Projects
▾
Ongoing projects
▾
Project archive
▾
Types of collaboration
▾
Research infrastructure
▾
Synlight®
▾
High-Flux Solar Furnace and Solar Simulator
▾
CeraStorE
▾
Heat Transfer Fluid Laboratory
▾
Test facilities & test stands
▾
Research services
▾
Research support
▾
Solar radiation tests
▾
Start-ups
Latest
Latest
▾
News
▾
2024
▾
2023
▾
2022
▾
2021
▾
Social Media
Multimedia
Multimedia
▾
Publications
▾
Scientific publications (elib)
▾
Other publications
▾
Pictures
▾
Videos
▾
Audios
Careers & Education
Careers & Education
▾
Vacancies at the institute
>
Research & Transfer
>
>
Types of collaboration
>
Behind the scenes of Synlight
Home
>
Research & Transfer
>
Types of collaboration
>
Behind the scenes of Synlight
Behind the scenes of Synlight
Behind the scenes of Synlight
The Synlight's high-power radiators can be automatically aligned to the individual test chambers using a control system.
Credit:
© DLR. All rights reserved