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    Dust collection after the high fluence campaign of the WEST tokamak

    New search for: C. Arnas
    New search for: A. Campos
    New search for: M. Diez
    New search for: E. Bernard
    New search for: C. Brun
    New search for: C. Martin
    New search for: F. Gensdarmes
    New search for: S. Peillon
    New search for: E. Tsitrone

    For Phase 2 of WEST, the lower divertor was entirely equipped with actively cooled ITER grade plasma-facing units made of chains of tungsten beveled monoblocks. In this configuration, dust particles were collected in 2023, after the first plasma campaign mainly dedicated to repetitive long pulses in the conditions of attached plasmas to the divertor. Due to a high particle fluence and a significant tungsten erosion, large quantities of dust were produced. In addition to those produced during off-normal events and the flaking of deposits which are typical of tokamak wall erosion, dust particles due to the flaking of pure tungsten thin layers deposited on the shadowed areas of beveled monoblocks were found. As specific characteristic, these thin layers may not adhere to the divertor and consequently, may be peeled off and mobilized during plasma operation.

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    Dust collection after the high fluence campaign of the WEST tokamak

    New search for: C. Arnas
    New search for: A. Campos
    New search for: M. Diez
    New search for: E. Bernard
    New search for: C. Brun
    New search for: C. Martin
    New search for: F. Gensdarmes
    New search for: S. Peillon
    New search for: E. Tsitrone

    For Phase 2 of WEST, the lower divertor was entirely equipped with actively cooled ITER grade plasma-facing units made of chains of tungsten beveled monoblocks. In this configuration, dust particles were collected in 2023, after the first plasma campaign mainly dedicated to repetitive long pulses in the conditions of attached plasmas to the divertor. Due to a high particle fluence and a significant tungsten erosion, large quantities of dust were produced. In addition to those produced during off-normal events and the flaking of deposits which are typical of tokamak wall erosion, dust particles due to the flaking of pure tungsten thin layers deposited on the shadowed areas of beveled monoblocks were found. As specific characteristic, these thin layers may not adhere to the divertor and consequently, may be peeled off and mobilized during plasma operation.

    Access

    Download

    Dust collection after the high fluence campaign of the WEST tokamak

    New search for: C. Arnas
    New search for: A. Campos
    New search for: M. Diez
    New search for: E. Bernard
    New search for: C. Brun
    New search for: C. Martin
    New search for: F. Gensdarmes
    New search for: S. Peillon
    New search for: E. Tsitrone

    For Phase 2 of WEST, the lower divertor was entirely equipped with actively cooled ITER grade plasma-facing units made of chains of tungsten beveled monoblocks. In this configuration, dust particles were collected in 2023, after the first plasma campaign mainly dedicated to repetitive long pulses in the conditions of attached plasmas to the divertor. Due to a high particle fluence and a significant tungsten erosion, large quantities of dust were produced. In addition to those produced during off-normal events and the flaking of deposits which are typical of tokamak wall erosion, dust particles due to the flaking of pure tungsten thin layers deposited on the shadowed areas of beveled monoblocks were found. As specific characteristic, these thin layers may not adhere to the divertor and consequently, may be peeled off and mobilized during plasma operation.

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    Download

    Access

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    Title:

    Dust collection after the high fluence campaign of the WEST tokamak

    Contributors:

    C. Arnas (author) / A. Campos (author) / M. Diez (author) / E. Bernard (author) / C. Brun (author) / C. Martin (author) / F. Gensdarmes (author) / S. Peillon (author) / E. Tsitrone (author)

    Published in:

    Nuclear Materials and Energy, Vol 42, Iss , Pp 101848- (2025)

    Publication date:

    2025

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2024.101848

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    WEST tokamak , Tokamak dust , Tungsten layer flaking , Tungsten nanoparticles , Nuclear engineering. Atomic power , TK9001-9401

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

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