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ここでは研究会メンバーの発表論文を中心に紹介していきます。新しいものが上になっています。(まだ書き始めたばかりですので、情報をお持ちのメンバーの方は幹事の深潟までご連絡下さい。)

レビュー記事

基準PAを用いた成果

  • 佐野 正利,石 健東,
    「プラズマアクチュエータによる並流形多分岐管内流れの制御」,
    日本機械学会論文集 86 (885), 20-00041 (2020).

  • T. Nonomura, Y. Ozawa, T. Ibuki, K. Nankai, A. Komuro, H. Nishida, M. Kotsonis, N. Kubo and H. Kawabata,
    "Single-pixel particle image velocimetry for characterization of dielectric barrier discharge plasma actuators,"
    AIAA J. 58, 4952-4957 (2020).

  • T. Matsunuma and T. Segawa,
    "Effects of input voltage and freestream velocity on active flow control of passage vortex in a linear turbine cascade using dielectric barrier discharge plasma actuator,"
    Energies 13, 764 (2020).

  • A. Komuro, N. Ogura, N., M. Ito, T. Nonomura, K. Asai, and A. Ando,
    "Visualization of density variations produced by alternating-current dielectric-barrier-discharge plasma actuators using the background oriented Schlieren method,"
    Plasma Sources Sci. Technol. 28, 055002 (2019).

体積力モデル

  • S. Kawai, T. Bouwhuis, Y. Abe, A. Yakeno, T. Nonomura, H. Aono, A. Oyama, H. W. M. Hoeijmakers, K. Fujii,
    "Dominant parameters for maximum velocity induced by body-force models for plasma actuators,"
    Theor. Comput. Fluid Dyn. 32, 805–820 (2018).

PA単体の特性

  • W. Hua and K. Fukagata,
    "Influence of grid resolution in fluid-model simulation of nanosecond dielectric barrier discharge plasma actuator,"
    AIP Advances 8, 045209 (2018).

  • H. Nishida, T. Nonomura, and T. Abe,
    "Three-dimensional simulations of discharge plasma evolution on a dielectric barrier discharge plasma actuator,"
    J. Appl. Phys. 115, 133301 (2014)

  • S. Yamamoto and K. Fukagata,
    "Numerical simulation of a plasma actuator based on ion transport,"
    J. Appl. Phys. 113, 243302 (2013).

  • H. Nishida and T. Abe,
    "Numerical analysis of plasma evolution on dielectric barrier discharge plasma actuator,"
    J. Appl. Phys. 110, 013302 (2011).

  • 瀬川 武彦,小方 聡,武川信也,
    「DBDプラズマアクチュエータへの入力電圧波形が誘起噴流の流動特性に与える影響」,
    ながれ 29, 251-258 (2010)

  • 大河内 翔平,笠木 伸英,鈴木 雄二,
    「マイクロ・プラズマアクチュエータの特性」,
    ながれ 29, 271-276 (2010)

流れの制御効果

  • T. Igarashi, H. Naito, and K. Fukagata,
    "Direct numerical simulation of flow around a circular cylinder controlled using plasma actuators,"
    Math. Probl. Eng. 2014, 591807 (2014).

  • T. N. Jukes, T. Segawa, and H. Furutani,
    "Flow control on a NACA 4418 using dielectric-barrier-discharge vortex generators,"
    AIAA J. 51, 452-464 (2013).
  • S. Walker and T. Segawa,
    "Mitigation of flow separation using DBD plasma actuators on airfoils: A tool for more efficient wind turbine operation,"
    Renewable Energy 42, 105–110 (2012).

  • H. Hasebe, Y. Naka, and K. Fukagata,
    "An attempt for suppression of wing-tip vortex using plasma actuators,"
    J. Fluid Sci. Technol. 6, 976-988 (2011).

  • 藤井 孝藏,浅田 健吾,
    「DBDプラズマアクチュエータによる翼剥離制御メカニズム-バースト波解析が語るもの-」,
    ながれ 29, 259-270 (2010)

応用

  • H. Gejima, R. Takinami, K. Fukagata, T. Mitsumoji, T. Sueki, and M. Ikeda,
    "Suppression of vortex shedding from a pantograph head using vortex generator-type plasma actuators,"
    J. Fluid Sci. Technol. 10, JFST0006 (2015).


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Last-modified: 2021-02-08 (月) 15:40:23 (137d)