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    EMC3-EIRENE modelling of the toroidally asymmetric heat flux distribution with neon impurity injection on EAST

    New search for: B. Liu
    New search for: S.Y. Dai
    New search for: G. Kawamura
    New search for: L. Zhang
    New search for: Z.S. Yang
    New search for: Y. Feng
    New search for: D.Z. Wang

    The heat flux deposition on the divertor targets with neon impurity injection has been investigated for EAST tokamak with the help of three-dimensional (3D) edge transport code EMC3-EIRENE. The parameter studies of the upstream electron density, neon impurity injection flux and injected neon atom energy have been conducted to check their impacts on the extent of the toroidal asymmetry of heat load distributions. It is found that high upstream electron density leads to an effective mitigation of heat flux deposition and more significant toroidal asymmetry of heat load distribution. Further, the toroidal asymmetry of heat load distribution increases with neon impurity injection flux. However, a weak dependence of heat load distribution on the neon impurity injection energy is obtained.

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    EMC3-EIRENE modelling of the toroidally asymmetric heat flux distribution with neon impurity injection on EAST

    New search for: B. Liu
    New search for: S.Y. Dai
    New search for: G. Kawamura
    New search for: L. Zhang
    New search for: Z.S. Yang
    New search for: Y. Feng
    New search for: D.Z. Wang

    The heat flux deposition on the divertor targets with neon impurity injection has been investigated for EAST tokamak with the help of three-dimensional (3D) edge transport code EMC3-EIRENE. The parameter studies of the upstream electron density, neon impurity injection flux and injected neon atom energy have been conducted to check their impacts on the extent of the toroidal asymmetry of heat load distributions. It is found that high upstream electron density leads to an effective mitigation of heat flux deposition and more significant toroidal asymmetry of heat load distribution. Further, the toroidal asymmetry of heat load distribution increases with neon impurity injection flux. However, a weak dependence of heat load distribution on the neon impurity injection energy is obtained.

    Access

    Download

    EMC3-EIRENE modelling of the toroidally asymmetric heat flux distribution with neon impurity injection on EAST

    New search for: B. Liu
    New search for: S.Y. Dai
    New search for: G. Kawamura
    New search for: L. Zhang
    New search for: Z.S. Yang
    New search for: Y. Feng
    New search for: D.Z. Wang

    The heat flux deposition on the divertor targets with neon impurity injection has been investigated for EAST tokamak with the help of three-dimensional (3D) edge transport code EMC3-EIRENE. The parameter studies of the upstream electron density, neon impurity injection flux and injected neon atom energy have been conducted to check their impacts on the extent of the toroidal asymmetry of heat load distributions. It is found that high upstream electron density leads to an effective mitigation of heat flux deposition and more significant toroidal asymmetry of heat load distribution. Further, the toroidal asymmetry of heat load distribution increases with neon impurity injection flux. However, a weak dependence of heat load distribution on the neon impurity injection energy is obtained.

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    Title:

    EMC3-EIRENE modelling of the toroidally asymmetric heat flux distribution with neon impurity injection on EAST

    Contributors:

    B. Liu (author) / S.Y. Dai (author) / G. Kawamura (author) / L. Zhang (author) / Z.S. Yang (author) / Y. Feng (author) / D.Z. Wang (author)

    Published in:

    Nuclear Materials and Energy, Vol 26, Iss , Pp 100844- (2021)

    Publication date:

    2021

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2020.100844

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Neon injection , Toroidal asymmetry , EAST , EMC3-EIRENE modelling , Nuclear engineering. Atomic power , TK9001-9401

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

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