Rchr
J-GLOBAL ID:200901028115811525   Update date: Nov. 27, 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 - 2025 Development of a gas-liquid-solid multiphase flow simulation method for evaluation of micro-fluidic devices
  • 2020 - 2021 Development of an X-ray medical vehicle equipped with remote medical treatment functions and infection prevention measures
  • 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 (61):
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Patents (16):
Books (4):
  • Wettability - Basis, Evaluation, Control, and Application -
    NTS Inc. 2024 ISBN:9784860439002
  • 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  (177):
  • Three-dimensional Simulation of Fluid Flow with Heat Transfer and H2O/CO2 Co-electrolysis in SOEC
    (7th Asian SOFC Symposium 2024)
  • E-fuel Production Using Solid Oxide Electrolysis Cell and Fischer-Tropsch-synthesis
    (7th Asian SOFC Symposium 2024)
  • Investigation of Motion of Fine Droplets on Solid Surface by Phase-field Model-based Simulation
    (The JSME 37th Computational Mechanics Conference (CMD2024) 2024)
  • Multi-physics simulation of three-dimensional gas flow with electro-chemical reaction in SOECs
    (EFCF2024: 16th European SOFC & SOE Forum 2024)
  • Research and Development of eV/STOL Effect of Ducted Fan on Aerodynamic Characteristics of the Vehicle
    (JSASS 55th Annual Meeting 2024)
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Works (3):
  • 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
  • Numerical Simulations of Two-phase Flows Using Phase-field Model
    Takada, Naoki 2006 -
  • フェーズフィールド界面追跡法による水滴、水膜、水柱の動きのコンピュータシミュレーション
    高田 尚樹 2005 - 2005
Education (3):
  • 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 (21):
  • 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 (21):
  • 2024/04 - 現在 The Japan Society for Computational Engineering and Science (JSCES) Community-based CAE/CAX Committee Associate Member
  • 2008/07 - 現在 The Japanese Society for Multiphase Flow (JSMF) Member of Research Subcommittee on Numerical Analysis of Meso-scale Structures, Research Planning Committee
  • 2007/11 - 現在 Editorial Board of International Journal of Engineering Systems Modelling and Simulation Editorial member
  • 2023/09 - 2024/09 The Japanese Society for Multiphase Flow (JSMF) JSMF 2024 Multiphase Flow Symposium Executive Committee Member
  • 2022/08 - 2023/07 The Japanese Society for Multiphase Flow (JSMF) JSMF 2022 Lecture Series Steering Committee Member
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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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