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    Determination of best operation parameters of electron cyclotron wall conditioning in KSTAR

    New search for: T. Nakano
    New search for: D. Douai
    New search for: S. Vartanian
    New search for: M. Fukumoto
    New search for: S.H. Son
    New search for: J.H. Jang
    New search for: W.I. Jeong
    New search for: J. Kim
    New search for: S-H. Hong
    New search for: H.H. Lee

    Dependence of EC injection power (0.6 and 1.4 MW), EC injection width (0.1–1.0 s) and prefilled He pressure (2.8×10−5∼2.2×10−3 mbar) on D2 outgas efficiency is investigated at a toroidal field of 2.4 T in a poloidal trapped particle configuration with an EC wave frequency of 140 GHz (X-mode) and a second harmonic resonance layer near the machine center (1.73 m). With increasing EC injection power, D2 outgas increases clearly. The dependence of the EC power injection is the most pronounced between the scanned parameters. It is found that an optimum prefilled He pressure for D2 outgas exists under the condition of a constant EC injection power. It is observed that both high EC injection power and the optimum prefilled He pressure enhance the ion flux to the center stack, suggesting that the D2 outgas originates from the center stack.

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    Determination of best operation parameters of electron cyclotron wall conditioning in KSTAR

    New search for: T. Nakano
    New search for: D. Douai
    New search for: S. Vartanian
    New search for: M. Fukumoto
    New search for: S.H. Son
    New search for: J.H. Jang
    New search for: W.I. Jeong
    New search for: J. Kim
    New search for: S-H. Hong
    New search for: H.H. Lee

    Dependence of EC injection power (0.6 and 1.4 MW), EC injection width (0.1–1.0 s) and prefilled He pressure (2.8×10−5∼2.2×10−3 mbar) on D2 outgas efficiency is investigated at a toroidal field of 2.4 T in a poloidal trapped particle configuration with an EC wave frequency of 140 GHz (X-mode) and a second harmonic resonance layer near the machine center (1.73 m). With increasing EC injection power, D2 outgas increases clearly. The dependence of the EC power injection is the most pronounced between the scanned parameters. It is found that an optimum prefilled He pressure for D2 outgas exists under the condition of a constant EC injection power. It is observed that both high EC injection power and the optimum prefilled He pressure enhance the ion flux to the center stack, suggesting that the D2 outgas originates from the center stack.

    Access

    Download

    Determination of best operation parameters of electron cyclotron wall conditioning in KSTAR

    New search for: T. Nakano
    New search for: D. Douai
    New search for: S. Vartanian
    New search for: M. Fukumoto
    New search for: S.H. Son
    New search for: J.H. Jang
    New search for: W.I. Jeong
    New search for: J. Kim
    New search for: S-H. Hong
    New search for: H.H. Lee

    Dependence of EC injection power (0.6 and 1.4 MW), EC injection width (0.1–1.0 s) and prefilled He pressure (2.8×10−5∼2.2×10−3 mbar) on D2 outgas efficiency is investigated at a toroidal field of 2.4 T in a poloidal trapped particle configuration with an EC wave frequency of 140 GHz (X-mode) and a second harmonic resonance layer near the machine center (1.73 m). With increasing EC injection power, D2 outgas increases clearly. The dependence of the EC power injection is the most pronounced between the scanned parameters. It is found that an optimum prefilled He pressure for D2 outgas exists under the condition of a constant EC injection power. It is observed that both high EC injection power and the optimum prefilled He pressure enhance the ion flux to the center stack, suggesting that the D2 outgas originates from the center stack.

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    Download

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    Download

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    Document information
    Title:

    Determination of best operation parameters of electron cyclotron wall conditioning in KSTAR

    Contributors:

    T. Nakano (author) / D. Douai (author) / S. Vartanian (author) / M. Fukumoto (author) / S.H. Son (author) / J.H. Jang (author) / W.I. Jeong (author) / J. Kim (author) / S-H. Hong (author) / H.H. Lee (author)

    Published in:

    Nuclear Materials and Energy, Vol 33, Iss , Pp 101275- (2022)

    Publication date:

    2022

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2022.101275

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Wall conditioning , Electron cyclotron wave , Second harmonics , Outgas , Nuclear engineering. Atomic power , TK9001-9401

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

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