SETA takeshi

写真a

Title

Professor

Research Fields, Keywords

Computational Fluid Dynamics

Main Research Achievement 【 display / non-display

  • 【Papers】 Analytical and numerical studies of the boundary slip in the immersed boundary-thermal lattice Boltzmann method  2018.03

    【Papers】 Smoothed profile-lattice Boltzmann method for non-penetration and wetting boundary conditions in two and three dimensions  2017.12

    【Papers】 Numerical Stability Analysis of FDLBM  2002.04

Degree 【 display / non-display

  • 1996.03 -  Doctor (Engineering)  Tokyo Institute of Technology

Campus Career 【 display / non-display

  • 2019.10
     
     

    University of ToyamaAcademic Assembly   Faculty of Engineering   Professor  

  • 2019.10
     
     

    University of ToyamaFaculty of Engineering   Department of Engineering   Professor  

  • 2019.04
    -
    2019.09

    University of ToyamaGraduate School of Science and Engineering for Research   Environmental and Energy Sciences   Energy Systems   Professor  

  • 2019.04
    -
    2019.09

    University of ToyamaFaculty of Engineering   Department of Engineering   Professor  

  • 2018.04
    -
    2019.03

    University of ToyamaFaculty of Engineering   Department of Engineering   Associate Professor  

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Academic Society Affiliations 【 display / non-display

  • 1993.10
     
     
     

    The Japan Society of Mechanical Engineers

  • 2002.04
     
     
     

    The Heat Transfer Society of Japan

  • 2002.04
     
     
     

    The Japanese Society for Multiphase Flow

  • 2002.06
     
     
     

    Atomic Energy Society of Japan

  • 2008.04
     
     
     

    Japan Society for Computational Methods in Engineering

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Field of expertise (Grants-in-aid for Scientific Research classification) 【 display / non-display

  • Fluid engineering

 

Research project summary 【 display / non-display

  • We verify the effectiveness of the two-relaxation-time collision operator in reducing boundary slip computed by the IB-LBM. Rigorous analysis of the symmetric shear flows reveals that the relaxation time for the antisymmetric part controls the boundary velocity and the boundary slip velocity.

Papers 【 display / non-display

  • Derivation of multicomponent lattice Boltzmann equations by introducing a nonequilibrium distribution function into the Maxwell iteration based on the convective scaling

    Yamamoto, K., Seta T.

    Journal of Statistical Physics ( Springer )  182   89 - 110   2021.01

    Single Work

    DOI

  • Numerical simulations of flows in cerebral aneurysms using the lattice Boltzmann method with single- and multiple-relaxation time collision models

    Osaki, S., Hayashi, K., Kimura, H., Seta, T., Kohmura, E., and Tomiyama A.

    Computers & Mathematics with Applications ( Elsevier )  78 ( 8 ) 2746 - 2760   2019.10

    Joint Work

    DOI

  • Detection of Hemodynamic Characteristics Before Growth in Growing Cerebral Aneurysms by Analyzing Time-of-Flight Magnetic Resonance Angiography Images Alone: Preliminary results

    Kimura, H., Hayashi, K., Taniguchi, M., Hosoda, K., Fujita, A., Seta, T., Tomiyama, A., and Kohmura, E.

    World Neurosurgery, ( Elsevier )  122   e1439 - e1448   2019.02

    Joint Work

    DOI

  • 格子ボルツマン法によ曲面境界を有する熱流動解析

    瀬田剛

    計算数理工学論文集   18   1 - 6   2018.12

    Single Work

  • Analytical and numerical studies of the boundary slip in the immersed boundary-thermal lattice Boltzmann method

    Seta, T., Hayashi, K., and Tomiyama, A.

    International Journal for Numerical Methods in Fluids ( Wiley )  86 ( 7 ) 454 - 490   2018.03

    Joint Work

    DOI

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Grant-in-Aid for Scientific Research 【 display / non-display

  • Grant-in-Aid for Scientific Research(C)

    Project Year: 2016.04  -  2019.03 

  • Grant-in-Aid for Scientific Research(C)

    Project Year: 2011.04  -  2014.03 

Presentations 【 display / non-display

  • Reduction of the temperature jump in the immersed boundary-thermal lattice Boltzmann method

    American Physical Society 68th Annual DFD Meeting  2015.11  -  2015.11 

 

Academic Activity 【 display / non-display

  • 2015.08
    -
    2018.07

    The Japanese Society for Multiphase Flow  

  • 2015.04
    -
    2016.03

    The Japan Society of Mechanical Engineers  

  • 2014.04
    -
    2015.03

    The Japan Society of Mechanical Engineers  

  • 2012.08
    -
    2014.07

    The Japanese Society for Multiphase Flow  

  • 2011.08
    -
    2012.08

    The Japanese Society for Multiphase Flow  

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