Webinar: Nye Big Science-forretningsmuligheder – internationale konferencer 2026 & kommerciel teknologiudvikling

Mødelink: webinar Nye Big Science-forretningsmuligheder internationale konferencer 2026

På webinaret får du information om følgende:

• Overblik over centrale Big Science-konferencer og messer i 2026

Vi vil gennemgå de vigtigste begivenheder for 2026, hvor BigScience.dk tilbyder eksponering for danske virksomheder. På webinaret introducerer vi de enkelte events, så du kan vurdere, om det er relevant for netop din virksomhed at deltage. Desuden gennemgår vi mulighederne for at deltage enten alene eller på national fællesstand.

Vi gennemgår følgende konferencer:

• IPAC – International Particle Accelerator Conference (d. 17.-22. maj i Deauville, Frankrig)
• SPIE Astronomical Telescopes + Instrumentation (d. 7.-9. juli i København)
• Big Science Business Forum (d. 27.-39. oktober i Maastricht, Holland)

 

• F4E Technology Development Program – 6 aktuelle action calls

Fusion for Energy (F4E), som står for det europæiske bidrag til ITER fusionsreaktoren, har lanceret et Pre-Commercial Procurement (PCP) program med seks konkrete teknologiudviklingsspor med deadline 22. januar. På webinaret gennemgår vi indhold, formål og mulige forretningsåbninger i de 6 forskellige action calls, som er oplistet nedenfor.

Kontakt Katrine Hjort for mere information

 

Oplysninger om de 6 F4E action calls:

Action 1

Development of a Fast High Current DC Circuit Breaker

This action concerns the development of a prototype Fast high current dc Circuit Breaker (FCB), able to interrupt in less than 1 millisecond a dc current of more than 50 kA with a reapplied voltage of more than 6 kV. Such a fast dc circuit-breaker is used for the back-up protection of superconducting magnets in case of quench. Within this action, the design of an FCB with the characteristics indicated the technical specification will be developed, and a prototype will be manufactured and tested.

 

Action 2

Radiation Resistant Optical Fibre Based Fire Detection

This action concerns the development of a fire detection system based on fiber optic (resettable line-type heat detector) able to operate in nuclear environment (neutron and gamma) with the characteristics indicated the technical specification. The ultimate objective is to obtain a CE certified fire detection. The Interrogator shall be able to compensate for the darkening effect (Radiation-Induced Attenuation/RIA) of the radiation on the fiber.

 

Action 3

Feasibility study of Tungsten Additive Manufacturing processing for low-cost components

The action concerns the advance on additive manufacturing (AM) processes for tungsten by using irregularly shaped powder as the raw material. This represents a higher level of complexity compared to the standard approach with spherical powders and aims to unlock new possibilities for AM applications in tungsten components. The ultimate goal is the supply of a feasibility study for scalable, high-productivity additive manufacturing of tungsten using low-cost, chemically reduced powder.

 

Action 4

Development of Fusion-Relevant LiDAR systems

This action concerns the adaptation of existing LiDAR systems to fusion-relevant environments. The objective of this technology action is to support the development of a robust supply chain by guiding manufacturers of existing LiDAR technologies in modifying their systems for deployment in fusion plants. This specification establishes performance, environmental, and integration criteria to ensure reliable component monitoring and long-term diagnostic capability in demanding fusion conditions.

 

Action 5

Feasibility study of up-scalable industrial manufacturing method of Graphene reinforced copper

This action concerns the supply of a feasibility study to demonstrate an up-scalable industrial manufacturing route to obtain a Graphene reinforced copper material. This material has the potential to combine increased thermal conductivity, electrical conductivity and mechanical properties. The intended work also includes the necessary assessment of relevant physical and mechanical properties, along with mapping of the microstructure.

 

Action 6

Multifunctional facility for testing packing and processes for water detritiation purpose

This action concerns the design, fabrication, assembly and operation testing of a test facility for water detritiation. The specific technologies that shall be covered by the test facility are water distillation and Liquid Phase Catalytic Exchange. The facility shall have the capability to investigate packings and catalysts and the combination of the two technologies to complete a water detritiation process.