Project Details
Description
Funder: Department of Science, Innovation and Technology (DSIT) and will be administered by the Natural Environment Research Council (NERC) Arctic Office.
This project aims to accelerate Arctic maritime decarbonisation through the development and deployment of large-scale 3D-printed composite hydrogen storage and transportation systems. Leveraging the composite additive manufacturing expertise of the Technical University of Denmark (DTU) and Teesside University’s (TU) strengths in hydrogen material durability and environmental testing, the project will evaluate 3D-printed next-generation hydrogen storage materials using carbon fibre composites with thermoset matrices.
This project aims to accelerate Arctic maritime decarbonisation through the development and deployment of large-scale 3D-printed composite hydrogen storage and transportation systems. Leveraging the composite additive manufacturing expertise of the Technical University of Denmark (DTU) and Teesside University’s (TU) strengths in hydrogen material durability and environmental testing, the project will evaluate 3D-printed next-generation hydrogen storage materials using carbon fibre composites with thermoset matrices.
| Acronym | SAM |
|---|---|
| Status | Active |
| Effective start/end date | 19/09/25 → 31/03/26 |
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