Design and analysis of actively-cooled, edge-transport diagnostic for long-pulsed operation in WEST

Arnold Lumsdaine, Michael DeVinney, Ezekiel Unterberg, Brendan Quinlan, Jessica Wysocki

Research output: Contribution to journalArticlepeer-review

Abstract

Next step fusion devices that will operate in steady-state will require complex plasma-facing components (PFCs) that can survive the harsh environment over long timescales not common in current devices. This will require robust plasma facing surfaces that are integrated with active cooling systems. In a collaboration between CEA and ORNL, a plasma-interacting diagnostic is being designed for the W Environment in Steady-state Tokamak (WEST) in Cadarache, France which requires plasma-facing protection like those needed for steady-state PFCs. This integrated diagnostic studies edge transport and impurity migration within WEST, and is planned to include imbedded temperature Langmuir probe sensors, as well as removeable sample slots for ex-situ surface analysis of plasma-material interactions. The entire assembly is expected to move into the plasma edge for periods up to 1000 s having an energy removeable capability of ∼6 kW and seeing a peak heat flux of more than 7 MW/m2. The assembly compliments WEST high fluence campaigns that plan for multiple 1000 s pulses. Within these specifications, the assembly will require a refractory metal plasma facing surface and integral cooling in order to function within the limited space allotted for such diagnostics. Because of the limited space and linear actuator needs, additive manufacturing of the high heat flux working end of the assembly is being considered which could allow for precision cooling-channels and lighter weight designs. Conceptual design along with simulation and analysis results will be presented for this complex diagnostic with novel PFCs.

Original languageEnglish
Article number114287
JournalFusion Engineering and Design
Volume201
DOIs
StatePublished - Apr 2024

Funding

This material is based upon work supported by the U.S. Department of Energy , Office of Science, Office of Fusion Energy Science under contract number DE-AC05-00OR22725 .

FundersFunder number
U.S. Department of Energy
Office of Science
Fusion Energy SciencesDE-AC05-00OR22725

    Keywords

    • Edge transport
    • Engineering simulation
    • Impurity migration
    • Plasma facing component

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