Basic Information

Faculty

• Faculty of Engineering

Email Address

• Email Address

  ohwada.taku.8vkyoto-u.ac.jp

Academic Degree

• 工学修士(京都大学)
• 工学博士(京都大学)

Academic Resume (Graduate Schools)

• 京都大学, 大学院工学研究科修士課程航空工学専攻, 修了
• 京都大学, 大学院工学研究科博士後期課程航空工学専攻, 修了

Academic Resume (Undergraduate School/Majors)

• 京都大学, 工学部航空工学科, 卒業

Language of Instruction

• English

ID,URL

• J-Global ID

  201401004750544391

researchmap URL

• https://researchmap.jp/7000008438

Research

Research Areas

• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Fluid engineering
• Aerospace, marine, and maritime Engineering, Aerospace engineering

Papers

• ILES of an array of three subsonic counter-flow jets issuing from a wing leading edge exposed to hypersonic aerodynamic heating

  Tomonori Shimada; Taku Ohwada

  Advances in Aerodynamics, Dec. 2020, Peer-reviewed, Corresponding author

  
• Numerical investigation of an active TPS for a wing leading edge exposed to high temperature air behind a strong bow shock wave

  Taku Ohwada; Tomonori Shimada; Takuma Kato

  Advances in Aerodynamics, Dec. 2019, Peer-reviewed, Lead author, Corresponding author

  
• A simple, robust and efficient high-order accurate shock-capturing scheme for compressible flows: Towards minimalism

  Taku Ohwada; Yuki Shibata; Takuma Kato; Taichi Nakamura

  Journal of Computational Physics, 01 Jun. 2018, Peer-reviewed

  
• On the remedy against shock anomalies in kinetic schemes

  Taku Ohwada; Ryo Adachi; Kun Xu; Jun Luo

  Journal of Computational Physics, 05 Dec. 2013, Peer-reviewed

  
• Link-wise artificial compressibility method

  Pietro Asinari; Taku Ohwada; Eliodoro Chiavazzo; Antonio F. Di Rienzo

  JOURNAL OF COMPUTATIONAL PHYSICS, Jun. 2012, Peer-reviewed

  
• Artificial compressibility method and lattice Boltzmann method: Similarities and differences

  Taku Ohwada; Pietro Asinari; Daisuke Yabusaki

  COMPUTERS & MATHEMATICS WITH APPLICATIONS, Jun. 2011, Peer-reviewed

  
• Artificial compressibility method revisited: Asymptotic numerical method for incompressible Navier-Stokes equations

  Taku Ohwada; Pietro Asinari

  JOURNAL OF COMPUTATIONAL PHYSICS, Mar. 2010, Peer-reviewed

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• Connection between kinetic methods for fluid-dynamic equations and macroscopic finite-difference schemes

  Pietro Asinari; Taku Ohwada

  COMPUTERS & MATHEMATICS WITH APPLICATIONS, Sep. 2009, Peer-reviewed

  
• On the Essential Role of Kinetic Theory in Numerical Methods for Fluid-Dynamic Equations

  Taku Ohwada; Pietro Asinari

  RAREFIED GAS DYNAMICS (AIP Conference proceedings 1084, Edited by T. Abe), 2009, Peer-reviewed, Invited

  
• COLE-HOPF TRANSFORMATION AS NUMERICAL TOOL FOR THE BURGERS EQUATION

  Taku Ohwada

  APPLIED AND COMPUTATIONAL MATHEMATICS, 2009, Peer-reviewed

  
• Simple derivation of high-resolution schemes for compressible flows by kinetic approach

  T Ohwada; S Fukata

  JOURNAL OF COMPUTATIONAL PHYSICS, Jan. 2006, Peer-reviewed

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• The kinetic scheme for the full-Burnett equations

  T Ohwada; K Xu

  JOURNAL OF COMPUTATIONAL PHYSICS, Nov. 2004, Peer-reviewed

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• Management of discontinuous reconstruction in kinetic schemes

  T Ohwada; S Kobayashi

  JOURNAL OF COMPUTATIONAL PHYSICS, Jun. 2004, Peer-reviewed

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• Deterministic Hybrid Computation of Rarefied Gas Flows

  T. Ohsawa; T. Ohwada

  Rarefied Gas Dynamics (AIP Conference proceedings 663, edited by E.P.Muntz), 2003, Peer-reviewed, Last author, Corresponding author

  
• On the Time Step Error of the DSMC

  T. Hokazono; S. Kobayashi; T. Ohsawa; T. Ohwada

  Rarefied Gas Dynamics (AIP Conference proceedings 663, edited by E.P.Muntz), 2003, Peer-reviewed, Last author, Corresponding author

  
• Direct Simulation of a Flow Produced by a Plane Wall Oscillating in Its Normal Direction

  T. Ohwada; M. Kunihisa

  Rarefied Gas Dynamics (AIP Conference proceedings 663, edited by E.P.Muntz), 2003, Peer-reviewed, Lead author, Corresponding author

  
• On the construction of kinetic schemes

  T Ohwada

  JOURNAL OF COMPUTATIONAL PHYSICS, Mar. 2002, Peer-reviewed

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• Boltzmann schemes for the compressible Navier-Stokes equations

  T Ohwada

  RAREFIED GAS DYNAMICS, 2001, Peer-reviewed, Lead author, Corresponding author

  
• The error of the splitting scheme for solving evolutionary equations

  AV Bobylev; T Ohwada

  APPLIED MATHEMATICS LETTERS, Jan. 2001, Peer-reviewed

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• Higher order time integration of spatially nonhomogeneous Boltzmann equation: Deterministic and stochastic computations

  T Ohwada

  TRANSPORT THEORY AND STATISTICAL PHYSICS, 2000, Peer-reviewed

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• On the generalization of Strang's splitting scheme

  A. V. Bobylev; T. Ohwada

  Riv. Mat. Univ. Parma, 1999, Peer-reviewed

  
• Bifurcation in Cylindrical Couette Flow with Evaporation and Condensation: Effect of Initial Condition

  Y. Sone; T. Ohwada; Y. Makihara

  Rarefied Gas Dynamics (Ed. by R. Brun et al, C'epadu`es 'Editions), 1999, Peer-reviewed

  
• Analytical study of transonic flows of a gas condensing onto its plane condensed phase on the basis of kinetic theory

  Y Sone; F Golse; T Ohwada; T Doi

  EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, May 1998, Peer-reviewed

  
• Higher order approximation methods for the Boltzmann equation

  T Ohwada

  JOURNAL OF COMPUTATIONAL PHYSICS, Jan. 1998, Peer-reviewed

  
• Investigation of heat transfer problem of a rarefied gas between parallel plates with different temperatures

  T. Ohwada

  Rarefied gas Dynamics (Edited by C. Shen, Peking University Press)327, 1997, Peer-reviewed, Lead author, Corresponding author

  
• Heat flow and temperature and density distributions in a rarefied gas between parallel plates with different temperatures. Finite-difference analysis of the nonlinear Boltzmann equation for hard-sphere molecules

  T Ohwada

  PHYSICS OF FLUIDS, Aug. 1996, Peer-reviewed

  
• Numerical analysis of the shear and thermal creep flows of a rarefied gas over the plane wall of a Maxwell-type boundary condition on the basis of the linearized Boltzmann equation for hard-sphere molecules

  M. Wakabayashi; T. Ohwada; F. Golse

  European Journal of Mechanics, B/Fluids, 1996, Peer-reviewed

  
• Numerical examination of applicability of the linearized Boltzmann equation

  Y. Sone; T. Kataoka; T. Ohwada; H. Sugimoto; K. Aoki

  European Journal of Mechanics, B/Fluids, 1994, Peer-reviewed

  
• Numerical analysis of normal shock waves on the basis of the Boltzmann equation for hard-sphere molecules

  T. Ohwada

  Rarefied Gas Dynamics: Theory and Simulations (Edited by D.P. Weaver and B.D. Shizgal, AIAA), 1994, Peer-reviewed, Lead author, Corresponding author

  
• Structure of normal shock waves: Direct numerical analysis of the Boltzmann equation for hard-sphere molecules

  T. Ohwada

  Physics of Fluids A, 1992, Peer-reviewed

  
• ANALYSIS OF THERMAL-STRESS SLIP-FLOW AND NEGATIVE THERMOPHORESIS USING THE BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  T OHWADA; Y SONE

  EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, 1992, Peer-reviewed

  
• Evaporation and condensation of a rarefied gas between its two parallel plane condensed phases with different temperatures and negative temperature-gradient phenomenon –Numerical analysis of the Boltzmann equation for hard-sphere molecules

  Y. Sone; T. Ohwada; K. Aoki

  Lecture notes in Mathematics, Vol. 1460 (Edited by G. Toscani, V. Boffi, and S. Rionero, Springer-Verlag), 1991, Peer-reviewed

  
• Erratum: Numerical analysis of the Poiseuille and thermal transpiration flows between two parallel plates on the basis of the Boltzmann equation for hard-sphere molecules (Physics of Fluids A (1989) 1 (2042))

  Taku Ohwada; Yoshio Sone; Kazuo Aoki

  Physics of Fluids A, 1990, Peer-reviewed

  
• NUMERICAL-ANALYSIS OF THE PLANE COUETTE-FLOW OF A RAREFIED-GAS ON THE BASIS OF THE LINEARIZED BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  Y SONE; S TAKATA; T OHWADA

  EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, 1990, Peer-reviewed

  
• NUMERICAL-ANALYSIS OF THE POISEUILLE AND THERMAL TRANSPIRATION FLOWS BETWEEN 2 PARALLEL PLATES ON THE BASIS OF THE BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  T OHWADA; Y SONE; K AOKI

  PHYSICS OF FLUIDS A-FLUID DYNAMICS, Dec. 1989, Peer-reviewed

  
• NUMERICAL-ANALYSIS OF THE SHEAR AND THERMAL CREEP FLOWS OF A RAREFIED-GAS OVER A PLANE WALL ON THE BASIS OF THE LINEARIZED BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  T OHWADA; Y SONE; K AOKI

  PHYSICS OF FLUIDS A-FLUID DYNAMICS, Sep. 1989, Peer-reviewed

  
• EVAPORATION AND CONDENSATION ON A PLANE CONDENSED PHASE - NUMERICAL-ANALYSIS OF THE LINEARIZED BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  Y SONE; T OHWADA; K AOKI

  PHYSICS OF FLUIDS A-FLUID DYNAMICS, Aug. 1989, Peer-reviewed

  
• TEMPERATURE JUMP AND KNUDSEN LAYER IN A RAREFIED-GAS OVER A PLANE WALL - NUMERICAL-ANALYSIS OF THE LINEARIZED BOLTZMANN-EQUATION FOR HARD-SPHERE MOLECULES

  Y SONE; T OHWADA; K AOKI

  PHYSICS OF FLUIDS A-FLUID DYNAMICS, Feb. 1989, Peer-reviewed

  
• Erratum: "Temperature jump and Knudsen layer in a rarefied gas over a plane wall: Numerical analysis of the linearized Boltzmann equation for hard-sphere molecules" (Physics of Fluids A (1989) 1 (363))

  Yoshio Sone; Taku Ohwada; Kazuo Aoki

  Physics of Fluids A, 1989, Peer-reviewed

  
• Heat transfer and temperature distribution in a rarefied gas between two parallel plates with different temperatures: Numerical analysis of the Boltzmann equation for a hard-sphere molecules

  T. Ohwada, K. Aoki and Y. Sone

  Rarefied Gas Dynamics: Theoretical and Computational Techniques (Edited by E.P. Muntz, D.P. Weaver, and D.H. Campbell, AIAA), 1989, Peer-reviewed, Lead author

  
• Forces on heated cylinders in a highly rarefied gas

  K. Aoki; Y. Sone; T. Ohwada

  Rarefied Gas Dynamics (V. Boffi and C. Cercignani Eds., B.G. Teubner), 1986, Peer-reviewed

  

Misc.

• EVAPORATION AND CONDENSATION OF A RAREFIED GAS BETWEEN ITS TWO PARALLEL PLANE CONDENSED PHASES WITH DIFFERENT TEMPERATURES AND NEGATIVE TEMPERATURE-GRADIENT PHENOMENON : NUMERICAL ANALYSIS OF THE BOLTZMANN EQUATION FOR HARD-SPHERE MOLECULES(Mathematical Analysis of Fluid and Plasma Dynamics)

  Sone Yoshio; Ohwada Taku; Aoki Kazuo

  RIMS Kokyuroku, Dec. 1990

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• 衝撃波捕獲スキームの本質

  大和田拓; 柴田悠希; 加藤拓磨

  ながれ：日本流体力学会誌, 2017, Invited, Lead author, Corresponding author

  
• 気体論スキームの衝撃波捕獲における堅牢性の起源

  大和田拓; 中村太一

  ながれ：日本流体力学会誌, 2014, Invited, Lead author, Corresponding author

  
• 希薄気体力学の基礎的研究

  曾根良夫; 大和田拓

  日本航空宇宙学会誌, 1991, Invited

  
• Forces on Heated Bodies in a Highly Rarefied Gas

  SONE Yoshio; AOKI Kazuo; OHWADA Taku

  Aeronautical and Space Sciences Japan, 1986, Invited

  

Presentations

• Three-dimensional numerical simulation of;an;array of;subsonic counter;flow jets issuing;from a wing;leading edge;exposed to hypersonic aerodynamic heating

  T. Ohwada

  French-Japanese Workshop on Wavelet and Large Eddy Representations to Study Turbulent Flows, RIMS, Kyoto University, 05 Dec. 2019, Invited

  
• Feasibility study of efficient film cooling of wing leading edge exposed to a high temperature gas behind a strong bow shock wave

  T. Ohwada

  1st International Symposium on Advances in Aerodynamics,Chengdu, China, Invited

  
• Essence of Shock Capturing

  T. Ohwada

  International Conference on Flow Physics and Its Application, Mathematical research center, National University of Taiwan, Invited

  
• Essence of Shock Capturing

  T. Ohwada

  11th Asian Computational Fluid Dynamics Conference, Dalian University of Technology, Invited

  
• 衝撃波捕獲の本質

  大和田 拓

  京都大学 数理解析研究所研究集会「非線形波動現象の数理に関する最近の進展」, Invited

  
• Does kinetic theory really contribute to shock-capturing schemes for compressible gas-dynamic equations?

  T. Ohwada

  Issues in Solving the Boltzmann Equation for Aerospace Applications, ICERM, Brown University, Invited

  
• Kinetic methods in computational fluid dynamics

  T. Ohwada

  7th International Conference on Mesoscopic Methods in Engineering and Sciences, University of Alberta, Invited

  
• Kinetic methods in CFD

  T. Ohwada

  8th Asian Computational Fluid Dynamics Conference, Hong Kong University of Science and Technology, Invited

  
• On the Essential Role of Kinetic Theory in Numerical Methods for Fluid-Dynamic Equations

  T. Ohwada; P. Asinari

  26th International Symposium on Rarefied Gas Dynamics, Kyoto University Clock Tower Centennial Hall, Invited

  

External funds: Kakenhi

• Active TPS for a blunt body behind a strong shock wave by means of subsonic counter-flow jets

  Grant-in-Aid for Scientific Research (C)

  Basic Section 19010:Fluid engineering-related

  Kyoto University

  Taku Ohwada

  From 01 Apr. 2019, To 31 Mar. 2022, Project Closed

  Aerodynamic heating;Active TPS;film cooling;hypersonic flow;ILES;空力加熱;衝撃波;フィルム冷却;染み出し冷却;衝撃波捕獲スキーム;陰的LES;乱流解析;亜音速ジェット;乱流;レーリー・テーラー不安定;Hypersonic flow;Aerodynaic heating;counter flowing jet;Shock wave;Turbulence;near-wall streaks;shock wave;counterflow jet;subsonic jet;TPS;Navier-Stokes

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19K04192/
• Theoretical and numerical studies on compressible turbulent flows with shock waves

  Grant-in-Aid for Scientific Research (C)

  Kyoto University

  Taku Ohwada

  From 01 Apr. 2014, To 31 Mar. 2017, Project Closed

  Shock capturing;high order accuracy;carbuncle phenomenon;post shock oscillations;contact discontinuity;turbulence;衝撃波捕獲;高次精度;乱流;圧縮性;ナヴィエ・ストークス;カーバンクル;ポストショック

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-26420109/
• Theory and application of asymptotic numerical method for the incompressible viscous flows

  Grant-in-Aid for Scientific Research (C)

  Kyoto University

  Taku OHWADA

  From 01 Apr. 2009, To 31 Mar. 2012, Project Closed

  擬似圧縮性法;非圧縮Navier-Stokes方程式;格子ボルツマン法;境界条件;リチャードソン補外;非圧縮;ナヴィエ・ストークス

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21560173/
• New approach in computational fluid dynamics on the basis of kinetic theory

  Grant-in-Aid for Scientific Research (C)

  KYOTO UNIVERSITY

  Taku OHWADA

  From 01 Apr. 2005, To 31 Mar. 2007, Project Closed

  ナヴィエ・ストークス;BGK;ハイブリッド;気体論スキーム;非圧縮;格子ボルツマン法;擬似圧縮性法;ナヴィエ・ストークス方程式;BGK方程式;ハイブリッド解法;バーガース方程式, Navier-Stokes;Kinetic equation;BGK;Artificial compressibility method;Lattice Boltzmann method;hybrid method;incompressible

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17560147/
• Theory and appliation of microscopic approaches to macroscopic fluid-dynamic equations

  Grant-in-Aid for Scientific Research (C)

  Kyoto University

  Taku OHWADA

  From 01 Apr. 2002, To 31 Mar. 2004, Project Closed

  kinetic scheme;Navier-Stokes equations;Euler Equations;Boltzmann equation;BGK equation;Splitting methoc;shock wave;boundary layer;Kinetic scheme;Euler equations;compressible;boundary laver, kinetic scheme;Navier-Stokes equations;Euler Equations;Boltzmann equation;BGK equation;Splitting Method;shock wave;boundary layer

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-14550150/
• MATHEMATICAL AND PHYSICAL STUDIES ON SINGULAR FLUID-DYNAMIC LIMITS FOR THE BOLTZMANN EQUATION

  Grant-in-Aid for Scientific Research (B)

  KYOTO UNIVERSITY

  Kazuo AOKI

  From 01 Apr. 2002, To 31 Mar. 2005, Project Closed

  気体分子運動論;ボルツマン方程式;流体力学極限;幽霊効果;蒸発・凝縮;すべり流;テイラー渦流;ベナール対流;混合気体;分子拡散;国際研究者交流;フランス:スウェーデン:アメリカ;ポルツマン方程式;熱ほふく流;拡散すべり流;輸送係数;フランス:イタリア:スウェーデン, kinetic theory of gases;Boltzmann equation;fluid-dynamic limit;ghost effect;evaporation and condensation;slip flows;Taylor Vortices;Benard convection

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-14350047/
• Studies on nonequilibrium phenomena in gas flows-New approach by hybrid micro-macro gasdynamics-

  Grant-in-Aid for Scientific Research (B).

  KYOTO UNIVERSITY

  Yoshio SONE

  From 01 Apr. 1998, To 31 Mar. 2000, Project Closed

  ベナール問題;分岐;安定性;蒸発・凝縮;衝撃波;真空ポンプ;熱ほふく流;円管クエット流;蒸気・凝縮;熱遷移流;ボルツマン方程式;テイラー・クエット流;希薄気体, Benard problem;bifurcation;stability;evaporation and condensation;shock wave;vacuum pump;thermal creep flow;cylindrical Couette flow

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-10044151/
• 斜め衝撃波の反射の気体分子運動論的解析

  Grant-in-Aid for Encouragement of Young Scientists (A)

  Kyoto University

  大和田 拓

  From 01 Apr. 1997, To 31 Mar. 1999, Project Closed

  衝撃波;反射;ポルツマン方程式;高次精度;剛体球分子;DSMC法;数値解析;ボルツマン方程式

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-09751005/
• Development of a vacuum pump without a moving part with the aid of thermal transpiration flow of a rarefied gas

  Grant-in-Aid for Scientific Research (B)

  KYOTO UNIVERSITY

  Yoshio SONE

  From 01 Apr. 1997, To 31 Mar. 1999, Project Closed

  真空ポンプ;熱遷移流;ポアズイユ流;希薄気体;ボルツマン方程式;気体分子運動論;蒸発・凝縮流;真空工学, vacuum pump;thermal transpiration flow;Poiseulle flow;rarefied gas;Boltzmann equation;molecular gas dynamics;evaporation and condensation;vacuum technology

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-09555064/
• 垂直衝撃波の反射における気体論的境界条件の影響

  Grant-in-Aid for Encouragement of Young Scientists (A)

  Kyoto University

  大和田 拓

  From 01 Apr. 1996, To 31 Mar. 1997, Project Closed

  衝撃波;反射;ボルツマン方程式;時間分割法;数値解析

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-08751061/
• Studies on the stability of low pressure gases on the basis of kinetic theory

  Grant-in-Aid for Scientific Research (B)

  KYOTO UNIVERSITY

  Yoshio SONE

  From 01 Apr. 1996, To 31 Mar. 1998, Project Closed

  希薄気体;安定性;分岐;ボルツマン方程式;テーラー・クェット流;ベナ-ル問題;蒸発・凝縮;熱ほふく流;テーラー・クェット問題, rarefied gas;stability;bifurcation;Taylor-Couette flow;Boltzmean equation;Benard problem;evaporation and condensation;thermal creep flow

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-08455463/
• 二平行平板間の希薄気体中の熱伝達問題:剛体球分子ボルツマン方程式の数値解析

  Grant-in-Aid for Encouragement of Young Scientists (A)

  Kyoto University

  大和田 拓

  From 01 Apr. 1994, To 31 Mar. 1995, Project Closed

  希薄気体;熱伝導;ボルツマン方程式;非線形;剛体球分子;拡散反射;マックスウェル型境界条件;数値解析

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-06750938/
• 分子気体力学による低圧気流の理論的研究

  Grant-in-Aid for international Scientific Research

  Kyoto University

  曾根 良夫

  From 01 Apr. 1994, To 31 Mar. 1996, Project Closed

  低圧気流;分子気体力学;気体分子運動論;非平衡熱力学;ボルツマン方程式;蒸発・凝縮;ベナ-ル問題;離散分子速度モデル

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-06044117/
• 不完全乱反射壁上の剪断すべり流と熱ほふく流:剛体球分子ボルツマン方程式の数値解析

  Grant-in-Aid for Encouragement of Young Scientists (A)

  Kyoto University

  大和田 拓

  From 01 Apr. 1993, To 31 Mar. 1994, Project Closed

  剪断すべり流;熱ほふく流;すべり係数;クヌーセン層;剛体球分子;ボルツマン方程式;マックスウェル型境界条件;適応係数

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-05750812/
• Analytical and numerical studies of nonlinear problems of a low density gas

  Grant-in-Aid for General Scientific Research (B)

  KYOTO UNIVERSITY

  Yoshio SONE

  From 01 Apr. 1991, To 31 Mar. 1994, Project Closed

  希薄気体力学;ボルツマン方程式;蒸発・凝縮;熱泳動;低圧気流;気体論;膨張流;数値解析;気体分子運動論;低密度(希薄)気体;蒸発;自由膨張流;抗力;クヌーセン層;衝撃波;凝縮;クヌ-セン層, Rarefied Gas Dynamics;Boltzmann equation;Evaporation and condensation;Shock waves;Kinetic theory of gases;Thermophoresis;Numerical analysis;Low density flows

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-03452098/

External funds: others

• Numerical Analysis of the Boltzmann equation

Education

Teaching subject(s)

• From 01 Apr. 2025, To 31 Mar. 2026

  Fluid Dynamics 1

  5142, Fall, Faculty of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Introduction to Engineering Science A

  5110, Spring, Faculty of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Fluid Dynamics 2

  5143, Spring, Faculty of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  V405, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Fluid Dynamics for Aeronautics and Astronautics

  G411, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Applied Dynamics

  G047, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Mathematical Description of Natural Phenomena

  N112, Spring, Institute for Liberal Arts and Sciences, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,F

  V035, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2025, To 31 Mar. 2026

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,D

  V031, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2025, To 31 Mar. 2026

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,B

  V027, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2025, To 31 Mar. 2026

  Basic Seminar of Complex Mechanical Engineering,2

  G059, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2024, To 31 Mar. 2025

  Fluid Dynamics2

  5143, Spring, Faculty of Engineering, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Fluid Dynamics1

  5142, Fall, Faculty of Engineering, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  V405, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Fluid Dynamics for Aeronautics and Astronautics

  G411, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Applied Dynamics

  G047, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,F

  V035, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2024, To 31 Mar. 2025

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,D

  V031, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2024, To 31 Mar. 2025

  Seminar of Complex Mechanical Engineering for the 21st Century COE Program,B

  V027, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2024, To 31 Mar. 2025

  Basic Seminar of Complex Mechanical Engineering,2

  G059, Fall, Graduate School of Engineering, 1
• From 01 Apr. 2023, To 31 Mar. 2024

  Fluid Dynamics2

  5143, Spring, Faculty of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Fluid Dynamics1

  5142, Fall, Faculty of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Introduction to Engineering Science A

  5110, Spring, Faculty of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Engineering Ethics

  2105, Spring, Faculty of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  V405, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Fluid Dynamics for Aeronautics and Astronautics

  G411, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Applied Dynamics

  G047, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Master's Thesis

  G499, Year-long, Graduate School of Engineering, 0
• From 01 Apr. 2023, To 31 Mar. 2024

  Experiments and Exercises in Aeronautics and Astronautics II

  G420, Year-long, Graduate School of Engineering, 4
• From 01 Apr. 2023, To 31 Mar. 2024

  Experiments and Exercises in Aeronautics and Astronautics I

  G418, Year-long, Graduate School of Engineering, 4
• From 01 Apr. 2022, To 31 Mar. 2023

  Fluid Dynamics for Aeronautics and Astronautics

  G411, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Graduation Thesis2

  5998, Fall, Faculty of Engineering, 6
• From 01 Apr. 2022, To 31 Mar. 2023

  Fluid Dynamics1

  5142, Fall, Faculty of Engineering, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Graduation Thesis1

  5995, Spring, Faculty of Engineering, 4
• From 01 Apr. 2022, To 31 Mar. 2023

  Engineering Laboratory in Aeronautics and Astronautics 2

  5067, Fall, Faculty of Engineering, 1
• From 01 Apr. 2022, To 31 Mar. 2023

  Engineering Laboratory in Aeronautics and Astronautics 1

  5066, Spring, Faculty of Engineering, 1
• From 01 Apr. 2022, To 31 Mar. 2023

  Engineering Exercise in Aeronautics and Astronautics

  5145, Spring, Faculty of Engineering, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Fluid Dynamics2

  5143, Spring, Faculty of Engineering, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  V405, Spring, Graduate School of Engineering, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Applied Dynamics

  G047, Spring, Graduate School of Engineering, 2
• From Apr. 2011, To Mar. 2012

  Mathematical Description of Natural Phenomena

  Spring, 全学共通科目
• From Apr. 2011, To Mar. 2012

  流体力学２（エネ宇）

  Spring, 工学部
• From Apr. 2011, To Mar. 2012

  航空宇宙流体力学

  Spring, 工学研究科
• From Apr. 2011, To Mar. 2012

  航空宇宙流体力学セミナー

  Spring, 工学研究科
• From Apr. 2012, To Mar. 2013

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2012, To Mar. 2013

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2012, To Mar. 2013

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2013, To Mar. 2014

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2013, To Mar. 2014

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2013, To Mar. 2014

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2014, To Mar. 2015

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2014, To Mar. 2015

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2014, To Mar. 2015

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2015, To Mar. 2016

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2015, To Mar. 2016

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2015, To Mar. 2016

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2016, To Mar. 2017

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2016, To Mar. 2017

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2016, To Mar. 2017

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2017, To Mar. 2018

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2017, To Mar. 2018

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2017, To Mar. 2018

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2018, To Mar. 2019

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2018, To Mar. 2019

  Mathematical Description of Natural Phenomena

  Spring, 全学共通科目
• From Apr. 2018, To Mar. 2019

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2018, To Mar. 2019

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2019, To Mar. 2020

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2019, To Mar. 2020

  Mathematical Description of Natural Phenomena

  Spring, 全学共通科目
• From Apr. 2019, To Mar. 2020

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2019, To Mar. 2020

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2020, To Mar. 2021

  Applied Dynamics

  Spring, 工学研究科
• From Apr. 2020, To Mar. 2021

  Fluid Dynamics1

  Fall, 工学部
• From Apr. 2020, To Mar. 2021

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2020, To Mar. 2021

  Mathematical Description of Natural Phenomena

  Spring, 全学共通科目
• From Apr. 2020, To Mar. 2021

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2020, To Mar. 2021

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科
• From Apr. 2021, To Mar. 2022

  Applied Dynamics

  Spring, 工学研究科
• From Apr. 2021, To Mar. 2022

  Fluid Dynamics1

  Fall, 工学部
• From Apr. 2021, To Mar. 2022

  Fluid Dynamics2

  Spring, 工学部
• From Apr. 2021, To Mar. 2022

  Mathematical Description of Natural Phenomena

  Spring, 全学共通科目
• From Apr. 2021, To Mar. 2022

  Fluid Dynamics for Aeronautics and Astronautics

  Spring, 工学研究科
• From Apr. 2021, To Mar. 2022

  Seminar on Fluid Dynamics for Aeronautics and Astronutics

  Spring, 工学研究科

Participation in PhD Defense

• Kinetic theory study on non-equilibrium dense fluids(非平衡な高密度流体についての運動論的研究)

  MIYAUCHI TAKUMU, Graduate School of Engineering, Sub-chief Examiner

  24 Mar. 2025
• Numerical Analysis of Thermally Driven Rarefied Gas Flows inside Micro Devices

  SUGIMOTO SHOGO, Graduate School of Engineering, Chief Examiner

  23 Mar. 2023

Administration

Faculty management (title, position)

• From 01 Apr. 2017, To 31 Mar. 2019

  工学研究科　工学部図書委員会　委員