Novel Designs and Appraisal of 3D-Printed Hot-End Components
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Novel Designs and Appraisal of 3D-Printed Hot-End Components
CoPED ID
c0f45e8d-81c0-475c-86c3-c1b3aa465bf5
Status
Active
Value
No funds listed.
Start Date
Sept. 30, 2020
End Date
Sept. 29, 2024
Description
In conjunction with HiEta, the work undertaken will include the design, manufacture and testing of a novel hybrid-wicked heat pipe manufactured through additive manufacturing. This will be for fuel cell thermal management applications. A range of wick structures will be manufactured and tested for optimal performance which will feed into the final heat pipe design. This will be followed by component integration into the fuel cell cooling system and a comparative study of standard non-passive systems undertaken.
| Cardiff University | LEAD_ORG |
| HiETA Technologies Ltd | STUDENT_PP_ORG |
| Llywelyn Hughes | STUDENT_PER |
Subjects by relevance
- Fuel cells
- Planning and design
- Pipings
- Manufacturing
- Fuels
Extracted key phrases
- Final heat pipe design
- Novel Designs
- Fuel cell thermal management application
- Wicked heat pipe
- End Components
- Manufacture
- Hot
- 3D
- Novel hybrid
- Appraisal
- Comparative study
- Passive system