Research field (2):
High-performance computing
, Fluid engineering
Research keywords (4):
Muptiphase Flow Simulation
, GPU Computing
, High Performance Computing
, Computational Fluid Dynamics
Research theme for competitive and other funds (35):
2023 - 2026 Elucidation of semi-solid dynamics by innovative computational method and challenge to material microstructure refinement
2019 - 2024 Innovative CFD simulation for multiphase flows including free surfaces
2020 - 2023 Development of AI for autonomous ship handling to accelerate ocean-bottom exploration, and its demonstration at actual sea
2020 - 2023 Development of advanced simulator for solidification microstructure prediction and its application to integration technology of simulation and experiment
2019 - 2020 Study on Liquid Film Dynamics and Forming and Breaking-up of Foam by using Large-scale Numerical Simulation
2017 - 2020 Development of innovative prediction method of material microstructure by quantitative coupling of large-scale simulation and in situ observation
2010 - 2011 Applicability limit of high accuracy simulation for rock-fall and debris-flow using several numerical methods.
2007 - 2009 多モーメント手法による多目的CFDコアの開発
2002 - 2007 新型高性能軟X線レーザーの物理と開発実用化の研究
2005 - 2006 衝撃波・岩石破砕を含む噴火シミュレータのための高精度数値計算スキームの開発
2004 - 2006 Development of Class Library for Fluid-Structure Interaction
2002 - 2003 複数の単色X線を用いたカラーX線診断の基礎研究
2001 - 2003 Construction of Diagnosis System of Blood Flow by CFD Based on Clinical MRI Data
2000 - 2002 家庭用ゲーム機プレイステーション2による大規模並列流体解析システムの構築
2001 - GPU Computing
1999 - 2000 プラズマレンズによる大強度シングルバンチ・重イオンビームの集束に関する研究
1999 - 2000 Numerical Simulation for generation of Carbon Simple Cubic by Dynamic Compression of flyer impact
2000 - Large-scale parallel computing
1997 - 1998 Development of Numerical Method for Mesoscopic Flow
1997 - 1998 Wavelength Scaling of Soft X-ray Lasers Pumped by Fast Capillary Discharges
1996 - 1996 キャピラリー放電X線レーザーの安定性と短波長化スケーリングの解明
1996 - 1996 超新星爆発における超高速エジェクタの解明
1995 - 1996 Interaction of Heavy Ions with High Density Laser Plasma for Inertial Confinement Fusion
1994 - 1994 21世紀の先進工業国における技術のあり方
1991 - 1991 省資源・省エネルギ-型高度技術社会の形態
1990 - 1990 省資源・省エネルギ-型高度技術社会の形態
Development of Adaptive Mesh Refinement Method for Interpolated Differential Operator Scheme
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Papers (124):
Seiya Watanabe, Jun Kawahara, Takayuki Aoki, Kenta Sugihara, Shinsuke Takase, Shuji Moriguchi, Hirotada Hashimoto. Free-surface flow simulations with floating objects using lattice Boltzmann method. Engineering Applications of Computational Fluid Mechanics. 2023. 17. 1
A Yamamura, S Sakane, M Ohno, H Yasuda, T Takaki. Development of a data assimilation system for the investigation of the dendrite solidification process by integrating in situ X-ray imaging and phase-field simulation. IOP Conference Series: Materials Science and Engineering. 2023. 1281. 1. 012049-012049
S Sakane, T Aoki, T Takaki. Phase-field lattice Boltzmann simulation of three-dimensional settling dendrite with natural convection during nonisothermal solidification of binary alloy. IOP Conference Series: Materials Science and Engineering. 2023. 1281. 1. 012053-012053
Y Imai, S Sakane, M Ohno, H Yasuda, T Takaki. Preliminary system for data assimilation to infer material parameters from directional solidification experiments: twin experimental study using phase-field method. IOP Conference Series: Materials Science and Engineering. 2023. 1274. 1. 012040-012040
Y Mitsuyama, S Sakane, T Takaki. Effective evaluation of permeability for interdendritic fluid flow using adaptive mesh refinement: Phase-field lattice Boltzmann study. IOP Conference Series: Materials Science and Engineering. 2023. 1274. 1. 012043-012043