高橋 俊

Takahashi Shun

  • 准教授
  • 学位:博士(工学)

基本情報

所属

  • Undergraduate School of Engineering / Department of Mechanical Systems Engineering
  • Undergraduate School of Engineering / Department of Prime Mover Engineering
  • Graduate School of Science and Technology / Course of Science and Technology
  • Graduate School of Engineering / Course of Mechanical Engineering
  • Micro/Nano Technology Center

ジャンル

  • Simulation

研究と関連するSDGs

  • Industry, Innovation and Infrastructure

詳細情報

研究キーワード

  • Information Science
  • Fluid Engineering
  • Computer Science
  • Computational Fluid Dynamics

研究分野

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

論文

A simple collision algorithm for arbitrarily shaped objects in particle‐resolved flow simulation using an immersed boundary method

Optimization of a gas-particle flow solver on vector supercomputers

Direct Numerical Simulation of Gas–Particle Flows with Particle–Wall Collisions Using the Immersed Boundary Method

Direct numerical simulation of flow around a heated/cooled isolated sphere up to a Reynolds number of 300 under subsonic to supersonic conditions

Numerical simulation on solid–liquid multiphase flow including complex-shaped objects with collision and adhesion effects using immersed boundary method

Investigation of A Gas–particle Flow with Particle–particle and Particle–wall Collisions by Immersed Boundary Method

Prediction of heat transfer in a heat pipe by two-phase flow simulation based on conservative level set method

Direct numerical simulation of flow past a sphere at a reynolds number between 500 and 1000 in compressible flows

Direct numerical simulation of flow past a transversely rotating sphere up to a Reynolds number of 300 in compressible flow

Fluid Analysis for Improvement of a Medical Stent including Adhesion of Blood Cells based on Immersed Boundary Method

Flow simulation around a kidney stone by using immersed boundary method

Numerical simulation of gas-liquid two phase flow for prediction of engine oil consumption

High resolution LES by using wall model and cut cell method based on uniform Cartesian grid

Heat transfer prediction of two-phase flow in a thermal transport device

Coupling Simulation of Gas-particle Flow around Multiple Particle-wall Collisions

Analysis of Fluid Dynamic Effects between Adjacent Streamline Bodies

Towards Aerodynamic Characteristics Investigation Based on Cartesian Methods for Low-Reynolds Number Flow Simulation

Numerical Simulation on Flow including Collision and Adhesion based on Immersed Boundary Method

Liquid-gas Two-phase Flow Simulation Based on Sharp-Interface Immersed Boundary Method

Investigation of Interaction between Multiple Particles and Vortices by Three-dimensional Direct Numerical Simulation

講演・口頭発表等

  • FLOW SIMULATION AROUND AHMED BODY BY CARTESIAN-BASED METHOD
  • Flow Simulation around Ahmed Body Using Cartesian Mesh Method
  • Building-Cube Method: A Block-Structured Cartesian Mesh Approach for Near-Future Peta-Flops Computers

所属学会

  • JSCES
  • Japan Society for Aeronautical and Space Sciences
  • American Institute of Aeronautics and Astronautics

共同研究・競争的資金等の研究課題

Unsteady Flow Simulation

Multi-physics Simulation for Real Physics

Study of high performance large scaled flow simulation

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