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    Development of the WAter-interface Permeation In Tritium-exposed materIals (Wapiti) tritium experiment and preliminary Eurofer97 results

    New search for: F. Montupet-Leblond
    New search for: E. Bernard
    New search for: S. Feuillastre
    New search for: S. Garcia-Argote
    New search for: E.A. Hodille
    New search for: M. Payet
    New search for: C. Grisolia

    The control of tritium inventory and permeation is crucial for the safe operation of fusion reactors. To measure these phenomena, a novel tritium experiment is introduced and used to measure tritium permeation through Eurofer97 at room temperature, with several possibilities for the downstream conditions: air or water and overhead air. A pre-loading condition was shown to be required for this experiment. This direct comparison revealed that tritium is preferentially found in the water phase and secondarily in the air phase.

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    Development of the WAter-interface Permeation In Tritium-exposed materIals (Wapiti) tritium experiment and preliminary Eurofer97 results

    New search for: F. Montupet-Leblond
    New search for: E. Bernard
    New search for: S. Feuillastre
    New search for: S. Garcia-Argote
    New search for: E.A. Hodille
    New search for: M. Payet
    New search for: C. Grisolia

    The control of tritium inventory and permeation is crucial for the safe operation of fusion reactors. To measure these phenomena, a novel tritium experiment is introduced and used to measure tritium permeation through Eurofer97 at room temperature, with several possibilities for the downstream conditions: air or water and overhead air. A pre-loading condition was shown to be required for this experiment. This direct comparison revealed that tritium is preferentially found in the water phase and secondarily in the air phase.

    Access

    Download

    Development of the WAter-interface Permeation In Tritium-exposed materIals (Wapiti) tritium experiment and preliminary Eurofer97 results

    New search for: F. Montupet-Leblond
    New search for: E. Bernard
    New search for: S. Feuillastre
    New search for: S. Garcia-Argote
    New search for: E.A. Hodille
    New search for: M. Payet
    New search for: C. Grisolia

    The control of tritium inventory and permeation is crucial for the safe operation of fusion reactors. To measure these phenomena, a novel tritium experiment is introduced and used to measure tritium permeation through Eurofer97 at room temperature, with several possibilities for the downstream conditions: air or water and overhead air. A pre-loading condition was shown to be required for this experiment. This direct comparison revealed that tritium is preferentially found in the water phase and secondarily in the air phase.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Development of the WAter-interface Permeation In Tritium-exposed materIals (Wapiti) tritium experiment and preliminary Eurofer97 results

    Contributors:

    F. Montupet-Leblond (author) / E. Bernard (author) / S. Feuillastre (author) / S. Garcia-Argote (author) / E.A. Hodille (author) / M. Payet (author) / C. Grisolia (author)

    Published in:

    Nuclear Materials and Energy, Vol 38, Iss , Pp 101561- (2024)

    Publication date:

    2024

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2023.101561

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Permeation , Trapping , Eurofer97 , Tritium , Nuclear engineering. Atomic power , TK9001-9401

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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