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    Global 3D full-scale turbulence simulations of TCV-X21 experiments with SOLEDGE3X

    New search for: H. Bufferand
    New search for: G. Ciraolo
    New search for: R. Düll
    New search for: G. Falchetto
    New search for: N. Fedorczak
    New search for: Y. Marandet
    New search for: V. Quadri
    New search for: M. Raghunathan
    New search for: N. Rivals
    New search for: F. Schwander
    New search for: E. Serre
    New search for: S. Sureshkumar
    New search for: P. Tamain
    New search for: N. Varadarajan

    First principle modelling of edge plasma turbulence including neutrals and plasma recycling on the wall remains a challenge, in particular due to the long time scales necessary to simulate to reach particle balance. In this contribution, we propose a strategy to address these long time scales with the fluid code SOLEDGE, resorting to 2D reduced models for turbulence as well as 3D coarse grid simulations. The approach is applied to simulate TCV-X21 reference plasma scenario for edge turbulence modelling validation.

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    Global 3D full-scale turbulence simulations of TCV-X21 experiments with SOLEDGE3X

    New search for: H. Bufferand
    New search for: G. Ciraolo
    New search for: R. Düll
    New search for: G. Falchetto
    New search for: N. Fedorczak
    New search for: Y. Marandet
    New search for: V. Quadri
    New search for: M. Raghunathan
    New search for: N. Rivals
    New search for: F. Schwander
    New search for: E. Serre
    New search for: S. Sureshkumar
    New search for: P. Tamain
    New search for: N. Varadarajan

    First principle modelling of edge plasma turbulence including neutrals and plasma recycling on the wall remains a challenge, in particular due to the long time scales necessary to simulate to reach particle balance. In this contribution, we propose a strategy to address these long time scales with the fluid code SOLEDGE, resorting to 2D reduced models for turbulence as well as 3D coarse grid simulations. The approach is applied to simulate TCV-X21 reference plasma scenario for edge turbulence modelling validation.

    Access

    Download

    Global 3D full-scale turbulence simulations of TCV-X21 experiments with SOLEDGE3X

    New search for: H. Bufferand
    New search for: G. Ciraolo
    New search for: R. Düll
    New search for: G. Falchetto
    New search for: N. Fedorczak
    New search for: Y. Marandet
    New search for: V. Quadri
    New search for: M. Raghunathan
    New search for: N. Rivals
    New search for: F. Schwander
    New search for: E. Serre
    New search for: S. Sureshkumar
    New search for: P. Tamain
    New search for: N. Varadarajan

    First principle modelling of edge plasma turbulence including neutrals and plasma recycling on the wall remains a challenge, in particular due to the long time scales necessary to simulate to reach particle balance. In this contribution, we propose a strategy to address these long time scales with the fluid code SOLEDGE, resorting to 2D reduced models for turbulence as well as 3D coarse grid simulations. The approach is applied to simulate TCV-X21 reference plasma scenario for edge turbulence modelling validation.

    Access

    Download

    Access

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    Document information
    Title:

    Global 3D full-scale turbulence simulations of TCV-X21 experiments with SOLEDGE3X

    Contributors:

    H. Bufferand (author) / G. Ciraolo (author) / R. Düll (author) / G. Falchetto (author) / N. Fedorczak (author) / Y. Marandet (author) / V. Quadri (author) / M. Raghunathan (author) / N. Rivals (author) / F. Schwander (author)

    Published in:

    Nuclear Materials and Energy, Vol 41, Iss , Pp 101824- (2024)

    Publication date:

    2024

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2024.101824

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Edge plasma , Turbulence , Modelling , Plasma-wall interaction , Nuclear engineering. Atomic power , TK9001-9401

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

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