Fukuda Kota

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

Direct numerical simulation of subsonic, transonic and supersonic flow over an isolated sphere up to a Reynolds number of 1000

Journey to the Second Prize of the Solar Challenge in South Africa

Tokai University Solar Car Team Endeavors Towards World Competition (Team Management Aiming for the World's Top)

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

Investigation of a gas�Cparticle flow with particle�Cparticle and particle�Cwall collisions by immersed boundary method

Numerical Simulation on Acceleration Characteristics of a Supersonic Free Jet through a Plasmajet

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

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

Investigation on subsonic to supersonic flow around a sphere at low Reynolds number of between 50 and 300 by direct numerical simulation

Cooperative Development of the Solar Car by the International Project between UAE and Japanese Universities

A Simple Immersed Boundary Method for Compressible Flow Simulation around a Stationary and Moving Sphere

A Numerical Scheme Based on an Immersed Boundary Method for Compressible Turbulent Flows with Shocks: Application to Two-Dimensional Flows around Cylinders

NUMERICAL INVESTIGATION ON UNSTEADY VORTICAL FLOWS WITH A GRID-FREE VORTEX METHOD

A grid-free redistribution model for a vortex method and turbulent flow analysis

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Development of urine flow simulation in the kidney for risk classification and prevention of renal stone formation

Accurate interface capturing for two-phase flow simulation with immersed boundary method

Examination on Turbulence Mixing and Sound Generation Phenomena in High Mach Number Multiphase Flows by DNS Analysis

Construction of LES Model based on DNS Analysis of High Mach Number Multiphase Flow

Vortex Deformation Model and its Application for Investigation of Turbulence Phenomena

Numerical Analysis of Flow inside a Virtual Impactor by a Vortex Method

Construction of Turbulence Model based on Vortex Methods