Rchr
J-GLOBAL ID:200901028115811525   Update date: Mar. 26, 2024

Takada Naoki

タカダ ナオキ | Takada Naoki
Affiliation and department:
Job title: Leader, Group
Other affiliations (1):
  • AIST  New-generation Medical Treatment and Diagnosis Research Laboratory   Team Member
Homepage URL  (2): https://unit.aist.go.jp/ieco/tfs/https://unit.aist.go.jp/ieco/en/index.html
Research field  (9): Nano/micro-systems ,  Thermal engineering ,  Fluid engineering ,  Computational science ,  Fluid engineering ,  Nano/micro-systems ,  Nanomaterials ,  Environmental materials/recycling technology ,  Environmental load reduction/restoration technology
Research keywords  (73): Time Dependent Ginzburg Landau Equation ,  Gas Dynamics ,  Boltzmann Equation ,  Numerical Analysis ,  Surface ,  Simulation ,  Fluid Dynamics ,  Hydrodynamics ,  Mesoscale Model ,  Continuum Model ,  Multi-phase-field Model ,  Micro fluid dynamics ,  Interface ,  DPF ,  Mesoscopic Simulation ,  Incompressible Flow ,  Diesel Particulate Filter ,  Marangoni Effect ,  Microfluidic Device ,  Micro Channel ,  Capillary Force ,  Capillarity ,  Surface Texturing ,  Contact Line ,  Interfacial Tension ,  Level-set Method ,  Allen-Cahn Equation ,  Droplet ,  Liquid-Liquid Two-phase Flow ,  Computational Science ,  Micro and Nano Devices ,  Thermodynamics ,  Contact Angle ,  Wettability ,  Microfluidics ,  Interface Tracking ,  Diffuse-interface Model ,  Free Energy ,  Phase-field Method ,  Gas-Liquid Two-phase Flow ,  Multiphase Flow ,  Computational Engineering ,  Computational Mechanics ,  Finite Difference Method ,  Finite Volume Method ,  Computational Fluid Dynamics ,  Fluids Engineering ,  Fluid Mechanics ,  Navier-Stokes Equation ,  ナヴィエ・ストークス方程式 ,  Diffuse-interface Method ,  Phase Change ,  Shock Wave ,  Compressible Flow ,  Porous Media ,  Cahn-Hilliard Equation ,  Free Energy Theory ,  Statistical Dynamics ,  Nonequilibrium Thermodynamics ,  Moving Boundary ,  Surface tension ,  Interface Reconstruction ,  Interface-Capturing Method ,  Interface-Tracking Method ,  Numerical Simulation ,  Liquid Film ,  Bubble ,  Multi-phase Flow ,  Two-phase Flow ,  Phase Field Model ,  Cellular Automaton ,  Lattice Gas Method ,  Lattice Boltzmann Method
Research theme for competitive and other funds  (11):
  • 2020 - 2023 Development of a gas-liquid-solid multiphase flow simulation method for evaluation of micro-fluidic devices
  • 2020 - 2021 遠隔診療機能を装備し感染防護対策されたエックス線診療車の開発
  • 2016 - 2019 Mechanism study and control of photo-induced translational motion of crystals
  • 2015 - 2018 Development and validation of high-fidelity unstructured-grid numerical model for interfacial multiphase flows toward engineering applications
  • 2014 - 2018 Development of a computational fluid dynamics method based on a phase-field model for simulation of microscopic two-phase flows with phase change through porous media
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Papers (116):
  • Juyong Jung, Shimpei Saito, Satoshi Someya, Soumei Baba, Naoki Takada. Fabrication of thin inorganic temperature-sensitive paint using ball milling and its temporal response delay. Measurement Science and Technology. 2024
  • Shimpei Saito, Naoki Takada, Soumei Baba, Satoshi Someya, Hiroshi Ito. Generalized equilibria for color-gradient lattice Boltzmann model based on higher-order Hermite polynomials: A simplified implementation with central moments. Physical Review E. 2023. 108. 6. 065305-1-065305-21
  • Juyong Jung, Shimpei Saito, Satoshi Someya, Soumei Baba, Naoki Takada. The temporal response of inorganic temperature-sensitive phosphor films with different layer thickness and composition. Sensors and Actuators A: Physical. 2023. 362. 114662-114662
  • Shimpei Saito, Soumei Baba, Koichi Kinoshita, Naoki Takada, Satoshi Someya. Development and Evaluation of Small and Lightweight Heat Exchanger Using Metal 3D Printer. Welding Technology. 2023. 71. 8. 79-83
  • Shintaro Aihara, Naoki Takada, Tomohiro Takaki. Highly conservative Allen-Cahn-type multi-phase-field model and evaluation of its accuracy. Theoretical and Computational Fluid Dynamics. 2023. 37. 639-659
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MISC (60):
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Patents (16):
Books (3):
  • Handbook of Non-Invasive and Visualization Technbology
    NTS Inc., Tokyo, Japan 2007 ISBN:9784860431334
  • Handbook of Gas-Liquid Two-Phase Flow Technology - Second Edition
    Corona Publishing Co., Ltd., Tokyo, Japan 2006 ISBN:9784339045789
  • Lattice Gas and Lattice Boltzmann Methods - New Methods of Computational Fluid Dynamics -
    Corona Publishing Co., Ltd., Tokyo, Japan 1999 ISBN:9784339043433
Lectures and oral presentations  (172):
  • Evaluation of Effect of Three-dimensional Structured Solid Surface Wettability on Fine Droplet by Phase-field Model-based Simulation
    (JSME Computational Mechanics Conference (CMD2023) 2023)
  • High speed visualization and measurement of heat transfer surface in forced convection boiling of water using in organic TSP
    (JSME Thermal Engineering Conference 2023 2023)
  • 熱力学的一貫性を有する非理想流体の格子ボルツマンモデリング
    (混相流シンポジウム2023 2023)
  • 金属3Dプリンタによる3次元多孔質を有する沸騰伝熱面の実験的評価
    (混相流シンポジウム2023 2023)
  • Simulation of Fine Droplet Motion for Evaluation of Wettability of Three-dimensional Micro-structured Surface
    (Multiphase Flow Symposium 2023 2023)
more...
Works (1):
  • 格子ボルツマン法に基づく2次元単相流数値流体力学シミュレーション解析コード
    高田 尚樹 2013 - 現在
Education (4):
  • 1998 - 1998 Kobe University Graduate School of Science and Technology Research Student, Intern in Japan Atomic Energy Research Institute (JAERI)
  • 1995 - 1998 Kobe University Graduate School of Science and Technology (Doctoral Course) Department of Industrial Science
  • 1993 - 1995 Kobe University Graduate School of Engineering (Master Course) Department of Production Mechanical Engineering
  • 1989 - 1993 Kobe University Faculty of Engineering Department of Production Mechanical Engineering
Professional career (1):
  • Doctor of Engineering (Kobe University)
Work history (20):
  • 2023/10 - 現在 National Institute of Advanced Industrial Science and Technology (AIST) Thermofluid System Group, Research Institute for Energy Conservation Group Leader
  • 2023/06 - 現在 National Institute of Advanced Industrial Science and Technology (AIST) New-generation Medical Treatment and Diagnosis Research Laboratory Team member
  • 2021/06 - 2023/09 National Institute of Advanced Industrial Science and Technology (AIST) Thermofluid System Group, Research Institute for Energy Conservation Chief Senior Researcher
  • 2020/04 - 2021/05 AIST Research Institute for Energy Conservation (iECO) Thermal Energy Applications Group Chief Senior Researcher
  • 2019/10 - 2020/03 AIST Research Center for Ubiquitous MEMS and Micro Engineering (UMEMSME) ChemBio Fluidics Research Team Chief Senior Researcher
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Committee career (20):
  • 2023/09 - 現在 日本混相流学会 混相流シンポジウム2024実行委員会委員
  • 2022/08 - 現在 日本混相流学会 2022年度混相流レクチャーシリーズ運営委員
  • 2008/07 - 現在 日本混相流学会 研究企画委員会 研究分科会「メゾスケール構造の数値解析」委員
  • 2007/11 - 現在 Editorial Board of International Journal of Engineering Systems Modelling and Simulation Editorial member
  • 2019/08 - 2021/08 Japanese Society for Multiphase Flow (JSMF) Councilor
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Awards (6):
  • 2022/03 - National Institute of Advanced Industrial Science and Technology (AIST) The AIST President Award 2021 (Special Contribution) Development of a mobile X-ray Care Unit for Initial Diagnosis of COVID-19 patients: Equipped with an infection-controlled examination room and a telemedicine facility
  • 2020/01 - Japan Society of Mechanical Engineers (JSME) The 2019 Best Technological Presentation, Computational Mechanics Division (CMD), JSME Application of Lattice Boltzmann Method to Conservative Diffuse-interface Model-based Advection Equation
  • 2015/04 - Japan Society of Mechanical Engineers (JSME) The 2014 Best Presentation, Computational Mechanics Division (CMD), JSME Phase-field Model-based Simulation of Motion of Fluid Particles on Textured Surfaces
  • 2014/07 - Japan Society for Computational Engineering and Science (JSCES) The 19th Conference on Computational Engineering and Science Best Paper Award Application of a Phase-field Model-based Lattice Boltzmann Method to Numerical Analysis of Two-phase Fluid Motion on Solid Surface
  • 2007/03 - Japan Society of Mechanical Engineers (JSME) The 2006 Best Presentation, Computational Mechanics Division (CMD), JSME Phase-field Modeling for Numerical Simulation of Two-Phase Flows
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Association Membership(s) (5):
Architectural Institute of Japan (AIJ) ,  Japan Society of Mechanical Engineers (JSME) ,  Atomic Energy Society of Japan (AESJ) ,  Japanese Society for Multiphase Flow (JSMF) ,  Japan Society for Aeronautical and Space Sciences (JSASS)
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