Rchr
J-GLOBAL ID:200901098157780997   Update date: Aug. 26, 2024

Yonemura Shigeru

ヨネムラ シゲル | Yonemura Shigeru
Affiliation and department:
Job title: Professor
Homepage URL  (2): http://db.tohoku.ac.jp/whois/detail/569f8bc7c011e25cbfec144084468aed.htmlhttp://db.tohoku.ac.jp/whois/e_detail/569f8bc7c011e25cbfec144084468aed.html
Research field  (3): Optical engineering and photonics ,  Fluid engineering ,  Basic plasma science
Research keywords  (9): DSMC Method ,  Multiphase Flow ,  Gas-Solid Flow ,  Particle Cluster ,  Particle-in-Cell (PIC) Simulation ,  X-Ray Laser ,  Processing Plasmas ,  Rarefied Gas Flow ,  Micro/Nano Scale Gas Flow
Research theme for competitive and other funds  (19):
  • 1998 - 現在 Numerical Analysis of Processing Plasmas by Using Particle Model
  • 1997 - 現在 Numerical Analysis of Ultrahigh Density Plasma Sources for X-Ray Laser Systems
  • 1996 - 現在 Collision Modeling among Ions, Electrons, and Atoms for Particle Simulation
  • 1990 - 現在 Research for Cluster Formation in Gas Solid Flow
  • 2023 - 2026 クヌッセン力を用いたマイクロ・ナノ空間における熱エネルギー変換システムの構築
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Papers (142):
  • Clint John Cortes Otic, Shigeru Yonemura. Self-propulsion of an Object Placed Close to Heated Substrate with Surface Microstructure. Proceedings of the Seventeenth International Conference of Flow Dynamics. 2020. 345-346
  • Pavel Vashchenkov, Yevgeniy Bondar, Shigeru Yonemura. Numerical Investigation of Pressure Distribution in a Microchannel by the DSMC method. Proceedings of the Twentieth International Symposium on Advanced Fluid Information. 2020. 165-166
  • Clint John OTIC, Shigeru YONEMURA. Effect of Different Surface Microstructures on the Tangential Knudsen Force. 2020. J05214
  • Clint John Otic, Shigeru Yonemura. A Study on the Tangential Knudsen Force Induced by Different Surface Microstructures. 2020. 274
  • OTIC Clint John Cortes, LI Xiangwei, YONEMURA Shigeru. A Numerical Study of the Microscale Gas Film between a Liquid Pool and a Droplet Dropped onto It. 2020. 0139
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MISC (25):
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Books (1):
  • Chapter 3, Particle Modeling of High Knudsen Number Flows and Plasmas
    Tohoku University Press 2008
Lectures and oral presentations  (198):
  • A Numerical Study on the Behaviour of a Sublimating Leidenfrost Solid on Micro-ratchets
    (Sixteenth International Conference on Flow Dynamics (ICFD2019) 2019)
  • Rarefied Gas Simulations Using Quasiparticle Pairs and Exact Solution
    (Nineteenth International Symposium on Advanced Fluid Information (AFI2019) 2019)
  • Numerical Investigation of Rarefied Gas Flow in Microchannel by the DSMC
    (Nineteenth International Symposium on Advanced Fluid Information (AFI2019) 2019)
  • マイクロ・ナノスケール気体流れに現れる物理現象と数値シミュレー ション
    (2019 年日本表面真空学会学術講演会 真空技術部会:多様な気体の流れの構造とその応用 2019)
  • A Study on Self-Propulsion of Leidenfrost Objects on Ratchet Surface
    (2019)
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Education (2):
  • 1991 - 1996 Osaka University Graduate School of Engineering 産業機械工学専攻
  • 1987 - 1991 Osaka University Faculty of Engineering 産業機械工学科
Professional career (1):
  • Doctor of Engineering (Osaka University)
Work history (6):
  • 2022/04 - 現在 Chubu University Department of Mechanical Engineering, College of Engineering Professor
  • 2020/12 - 2022/03 National Institute of Technology, Ube College Department of Mechanical Engineering Associate Professor
  • 2007/04 - 2020/11 Tohoku University Institute of Fluid Science Associate Professor
  • 2005/12 - 2007/03 Tohoku University Institute of Fluid Science Associate Professor
  • 2002/07 - 2005/11 Tohoku University Institute of Fluid Science Lecturer
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Committee career (22):
  • 2015/04 - 現在 日本機械学会P-SCC13「マイクロ熱流動に関する調査研究分科会」 委員
  • 2015/09 - 2016/12 Special Issue of the Twefth International Conference on Flow Dynamics (ICFD2015), Journal of Fluid Science and Technology Editor
  • 2012/04 - 2013/03 日本機械学会 論文集編集委員会 校閲委員
  • 2011/04 - 2013/03 日本機械学会P-SCC11「マイクロ気体流れに関する調査研究分科会」 委員
  • 2011/07 - 2012/06 日本混相流学会 評議員
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Awards (3):
  • 2017/05 - Advances in Engineering Key Scientific Article in Nanotechnology Engineering A study on pressure-driven gas transport in porous media: from nanoscale to microscale
  • 2001/12/12 - 青葉工学振興会 第七回研究奨励賞 再結合励起型X線レーザ発生源である超高密度プラズマの冷却に関する研究
  • 2001/04/05 - 日本機械学会 日本機械学会奨励賞(研究) X線レーザ発生源である超高密度再結合プラズマの冷却に関する研究
Association Membership(s) (5):
The Japan Society of Fluid Mechanics (JSFM) ,  The Japanese Society for Multiphase Flow (JSMF) ,  The Japan Society of Plasma Science and Nuclear Fusion Research (JSPF) ,  The Japan Society of Mechanical Engineers (JSME) ,  The Japan Society of Applied Physics (JSAP)
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