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Doi Toshiyuki  土井 俊行

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DOI Toshiyuki  土井 俊行

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Researcher Number 00227688
Other IDs
Affiliation (Current) 2025: 鳥取大学, 工学部, 准教授
Affiliation (based on the past Project Information) *help 2018 – 2024: 鳥取大学, 工学研究科, 准教授
1997 – 2000: 鳥取大学, 工学部, 講師
1995 – 1996: 産業技術短期大学, 助手
1994 – 1995: 産業技術短期大学, 機械工学科, 助手
1993: 京都大学, 産業技術短期大学, 助手
1992 – 1993: 産業技術短期大学, 助手
Review Section/Research Field
Principal Investigator
Basic Section 19010:Fluid engineering-related / Fluid engineering
Except Principal Investigator
Fluid engineering / Aerospace engineering
Keywords
Principal Investigator
希薄気体力学 / 混合気体 / 非連続体効果 / マイクロ潤滑 / 潤滑 / 希薄気体流 / 凝縮流 / ボルツマン方程式 / マイクロマシン / 曲率 … More / 平均自由行程 / 偏心円筒間流れ / 分子気体力学 / 気体-表面相互作用 / 相反関係 / 表面物性 / 気体表面相互作用 / マイクロ流体力学 / 気体分子運動論 / 遷音速領域 / Boltzmann方程式 / 非凝縮性気体 / 拡散 / 蒸発凝縮 … More
Except Principal Investigator
Boltzmann Equation / Rarefied Gas Dynamics / Molecular Gas Dynamics / ボルツマン方程式 / 希薄気体力学 / 分子気体力学 / transient motions / kinetic theory / shock waves / phase changes / evaporation and condensation / 非定常 / 蒸発、凝縮 / 非定常運動 / 気体論 / 衝撃波 / 相変化 / 蒸発・凝縮 / Aerosol Particle / Kinetic Theory of Gases / Diffusophoresis / Thermophoresis / 拡散-泳動 / エアロゾル粒子 / 気体分子運動論 / 拡散泳動 / 熱泳動 / Negative Temperatur Gradient Phenomenon / Knudsen Layr / Gas Mixture / Condensation / Evaporation / 逆温度勾配現象 / クヌーセン層 / 混合気体 / 凝縮 / 蒸発 Less
  • Research Projects

    (9 results)
  • Research Products

    (7 results)
  • Co-Researchers

    (6 People)
  •  Kinetic theory analysis of microscale lubrication of a gas between eccentric circular cylinders with an arbitrary temperature differencePrincipal Investigator

    • Principal Investigator
      土井 俊行
    • Project Period (FY)
      2024 – 2027
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Review Section
      Basic Section 19010:Fluid engineering-related
    • Research Institution
      Tottori University
  •  Kinetic theory analysis of microscale lubrication of a gas between walls with an arbitrary temperature differencePrincipal Investigator

    • Principal Investigator
      Doi Toshiyuki
    • Project Period (FY)
      2021 – 2023
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Review Section
      Basic Section 19010:Fluid engineering-related
    • Research Institution
      Tottori University
  •  Kinetic studies on the mass and heat transfers in a gas between coaxial circular cylinders with nonuniform surface propertiesPrincipal Investigator

    • Principal Investigator
      DOI Toshiyuki
    • Project Period (FY)
      2018 – 2020
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Review Section
      Basic Section 19010:Fluid engineering-related
    • Research Institution
      Tottori University
  •  Simulations of transient flows due to phase change processes

    • Principal Investigator
      ONISHI Yoshimoto
    • Project Period (FY)
      1998 – 2000
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Research Field
      Fluid engineering
    • Research Institution
      Tottori University
  •  非凝縮性気体を含む系における蒸気の凝縮過程の分子論的研究Principal Investigator

    • Principal Investigator
      土井 俊行
    • Project Period (FY)
      1997 – 1998
    • Research Category
      Grant-in-Aid for Encouragement of Young Scientists (A)
    • Research Field
      Fluid engineering
    • Research Institution
      Tottori University
  •  非凝縮性気体存在下における凝縮相への高速凝縮流の分子論的研究Principal Investigator

    • Principal Investigator
      土井 俊行
    • Project Period (FY)
      1995
    • Research Category
      Grant-in-Aid for Encouragement of Young Scientists (A)
    • Research Field
      Fluid engineering
    • Research Institution
      College of Industrial Technology
  •  Study on characteristic motions of small particles in a gas mixture

    • Principal Investigator
      AOKI Kazuo
    • Project Period (FY)
      1995 – 1996
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Research Field
      Aerospace engineering
    • Research Institution
      KYOTO UNIVERSITY
  •  凝縮相から非凝縮性気体中への蒸発流の分子論的研究Principal Investigator

    • Principal Investigator
      土井 俊行
    • Project Period (FY)
      1994
    • Research Category
      Grant-in-Aid for Encouragement of Young Scientists (A)
    • Research Field
      Fluid engineering
    • Research Institution
      College of Industrial Technology
  •  Studies of the behavior of a binary gas mixture on the basis of kinetic theory

    • Principal Investigator
      AOKI Kazuo
    • Project Period (FY)
      1991 – 1993
    • Research Category
      Grant-in-Aid for General Scientific Research (C)
    • Research Field
      Fluid engineering
    • Research Institution
      KYOYO UNIVERSITY

All 2023 2022 2021 2020 2019

All Journal Article Presentation

  • [Journal Article] Generalized Reynolds equation for microscale lubrication between eccentric circular cylinders based on kinetic theory2023

    • Author(s)
      Doi Toshiyuki
    • Journal Title

      Journal of Fluid Mechanics

      Volume: 974

    • DOI

      10.1017/jfm.2023.732

    • Peer Reviewed / Open Access
    • Data Source
      KAKENHI-PROJECT-21K03877
  • [Journal Article] Effect of a small curvature of the surfaces on microscale lubrication of a gas for large Knudsen numbers2022

    • Author(s)
      Doi Toshiyuki
    • Journal Title

      Physical Review Fluids

      Volume: 7 Issue: 3 Pages: 034201-034201

    • DOI

      10.1103/physrevfluids.7.034201

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-21K03877
  • [Journal Article] A model of micro lubrication between two walls with unequal temperature distribution based on kinetic theory2021

    • Author(s)
      Toshiyuki Doi
    • Journal Title

      Physics of Fluids

      Volume: 33 Issue: 3 Pages: 032014-032014

    • DOI

      10.1063/5.0041675

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-18K03949
  • [Journal Article] A model of micro lubrication between two walls with an arbitrary temperature difference based on kinetic theory2020

    • Author(s)
      Toshiyuki Doi
    • Journal Title

      Physics of Fluids

      Volume: 32 Issue: 5 Pages: 052005-052005

    • DOI

      10.1063/5.0004994

    • Peer Reviewed / Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-18K03949
  • [Journal Article] Poiseuille flow and thermal transpiration of a rarefied gas between plane parallel walls with nonuniform surface properties: integral equation approach2020

    • Author(s)
      Toshiyuki Doi
    • Journal Title

      Fluid Dynamics Research

      Volume: 52 Issue: 1 Pages: 015502-015502

    • DOI

      10.1088/1873-7005/ab523b

    • Peer Reviewed / Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-18K03949
  • [Journal Article] Flows of a Rarefied Gas between Coaxial Circular Cylinders with Nonuniform Surface Properties2019

    • Author(s)
      Toshiyuki Doi
    • Journal Title

      Open Journal of Fluid Dynamics

      Volume: 9 Issue: 01 Pages: 22-48

    • DOI

      10.4236/ojfd.2019.91002

    • Peer Reviewed / Open Access / Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-18K03949
  • [Presentation] A model of micro lubrication between two walls with an arbitrary temperature distribution based on kinetic theory2020

    • Author(s)
      Toshiyuki Doi
    • Organizer
      2020 Division of Fluid Dynamics 73rd Annual Meeting, American Physical Society
    • Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-18K03949
  • 1.  AOKI Kazuo (10115777)
    # of Collaborated Projects: 2 results
    # of Collaborated Products: 0 results
  • 2.  WAKABAYASHI Masahiko (50191721)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results
  • 3.  SUGIMOTO Hiroshi (50222055)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results
  • 4.  TAKATA Shigeru (60271011)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results
  • 5.  ONISHI Yoshimoto (40081228)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results
  • 6.  OOSHIDA Takeshi (50294343)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results

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