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J-GLOBAL ID:202001009690695751   Update date: Sep. 24, 2024

Omori Takeshi

オオモリ タケシ | Omori Takeshi
Affiliation and department:
大阪公立大学 大学院工学研究科 機械系専攻

About 大阪公立大学 大学院工学研究科 機械系専攻


Job title: 准教授
Research theme for competitive and other funds  (10):
  • 2023 - 2028 固液滑りのメソスケール物理
  • 2022 - 2026 Conservation laws in microscopic wetting: from equilbrium systems to nonequilibrium systems
  • 2018 - 2023 Navier境界条件の再定義:固体面における流体力学的境界条件の構築
  • 2018 - 2022 Microscopic Young's equation on heterogeneous solid surfaces with pinning sites
  • 2014 - 2019 Mathematical model for the transport phenomena in dense dispersed two-phase flows
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Papers (47):
  • Minori Shintaku, Haruki Oga, Hiroki Kusudo, Edward R. Smith, Takeshi Omori, Yasutaka Yamaguchi. Measuring line tension: Thermodynamic integration during detachment of a molecular dynamics droplet. The Journal of Chemical Physics. 2024. 160. 22
  • Hiroki Kusudo, Takeshi Omori, Laurent Joly, Yasutaka Yamaguchi. The receding contact line cools down during dynamic wetting. The Journal of Chemical Physics. 2023. 159. 16
  • Haruki Oga, Takeshi Omori, Laurent Joly, Yasutaka Yamaguchi. Equilibrium molecular dynamics evaluation of the solid-liquid friction coefficient: Role of timescales. The Journal of Chemical Physics. 2023. 159. 2
  • Shintaro Takeuchi, Takeshi Omori, Takehiro Fujii, Takeo Kajishima. Higher order lubrication model between slip walls. Microfluidics and Nanofluidics. 2023. 27. 7
  • Yasutaka Yamaguchi, Hiroki Kusudo, Carlos Bistafa, Donatas Surblys, Takeshi Omori, Gota Kikugawa. (Invited) Nanoscale Wetting and Its Connection with Macroscopic Young's Equation. ECS Transactions. 2022. 108. 4. 93-102
more...
MISC (1):
  • Takeshi Omori. Phenomenological Model for the Flow in Fine Conduits: Fluid Mechanics of the Flow with Mesoscopic Regions. Chemical Engineering of Japan. 2023. 87. 3. 114-116
Books (2):
  • 化学工学系流体シミュレーションの最前線 : 基礎・実践・将来展望
    化学工学会関東支部,三恵社 (発売) 2024 ISBN:9784866938943
  • LES Study of Flow past a Cylindrical Particle Subjected to Mean Shear
    Shaker Verlag 2008 ISBN:9783832275242
Lectures and oral presentations  (30):
  • 気泡核生成に与える非凝縮性ガス影響の分子動力学解析
    (日本伝熱シンポジウム 2024)
  • Thermal Difference in Advancing and Receding Contact Lines: Insight from MD Simulation
    (AJK-FED 2023 2023)
  • 線形応答理論に基づく平衡分子動力学系を用いた固体・液体間の滑り現象の再現とその応用
    (日本伝熱シンポジウム 2023)
  • 固液境界における流体力学的境界条件の周波数依存性
    (日本伝熱シンポジウム 2023)
  • Measurement method of solid-liquid friction coefficient using friction force auto-correlation function and its application to atomically non-flat solid surfaces
    (2022)
more...
Education (3):
  • 2004 - 2007 TU Darmstadt FB Maschinenbau
  • 2002 - 2004 Keio University Graduate School, Division of Science and Engineering
  • 1998 - 2002 Keio University Faculty of Science and Technology
Professional career (1):
  • Dr.-Ing. (TU Darmstadt)
Work history (5):
  • 2022/04 - 現在 大阪公立大学 工学研究科 機械系専攻 准教授
  • 2020/10 - 現在 Osaka University
  • 2020/10 - 2022/03 大阪市立大学 工学研究科 機械物理系専攻 准教授
  • 2007/10 - 2020/09 Osaka University Assistant Professor
  • 2004/06 - 2007/09 Deutscher Akademischer Austauschdienst Forschungsstipendiat
Committee career (1):
  • 2009/04 - 現在 大阪大学サイバーメディアセンター 高性能計算機システム委員
Awards (2):
  • 2020/05 - Heat Transfer Society of Japan Scientific Contribution Award of the Heat Transfer Society of Japan
  • 2018/04 - 日本機械学会 日本機械学会賞(論文)
Association Membership(s) (4):
日本混相流学会 ,  American Physical Society ,  日本伝熱学会 ,  日本機械学会
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