| Master Students |
Thesis Title |
Year |
| Naoki Yoshida |
Effects of aspect ratio variation in square cylinders on aerodynamic characteristics and flow mechanisms |
2025 |
| Yuya Umemoto |
Oscillation characteristics of load transformation matrices in fluid-structure interaction |
2024 |
| Chinatsu Eto |
Turbulence transition modeling in wall model LES for predicting transitional boundary layer with wall heating and cooling |
2024 |
| Haruki Nagata |
Data compression of high-fidelity large-scale flow data based on image compression methods |
2024 |
| Issei Honma |
Kinetic energy and entropy conservation scheme (KEEP-FR scheme) for higher-order accurate flux reconstruction methods |
2024 |
| Kokei Matsumoto |
Machine-learning method for correcting time evolution errors with coarse time increments in turbulence simulations |
2024 |
| Hiromichi Sashida |
Mechanism of energy transfer from flow in transonic forced oscillating airfoils at a high Reynolds number |
2024 |
| Seiya Sato |
Effects of dispersion errors in the KEEP scheme on aeroacoustic analysis |
2023 |
| Daisuke Takada |
Grid-resolution convergence of wall-modeled LES |
2023 |
| Soju Maejima |
Unsupervised machine learning SGS modeling for coarse-grid LES |
2023 |
| Tsubasa Miyake |
Explicit consideration of Reynolds stress terms in resolvent analysis input |
2023 |
| Kanako Maruyama |
Issues in KEEP scheme in unstructured grid method and construction of low-pass filter based on the theory |
2023 |
| Takumi Aoyama |
Prediction of transonic oscillating airfoil at high Reynolds number using wall-modeled LES |
2022 |
| Ryosuke Ida |
A theoretical analysis for shock thickness control using explicit artificial viscosity |
2022 |
| Yuta Iwatani |
Analysis of the self-sustaining mechanisms of transonic airfoil buffet with modal analysis |
2022 |
| Shoichi Nasukawa |
Non-equlibrium effects on wall-modeled LES of shock/boundary layer interacting separated flows |
2022 |
| Yuji Fujiwara |
Fully conservative and pressure-equilibrium preserving scheme for compressible multi-component flows |
2022 |
| Kazuki Tanino |
Coarse-grid LES using deep-learning-based super-resolution |
2021 |
| Ryo Kamogawa |
ODE-based wall modeling in LES for non-equilibrium separated turbulent boundary layers |
2020 |
| Nao Shima |
Issues and proposed approaches for kinetic energy and entropy preserving schemes for compressible flows |
2020 |
| Yutaka Hanada |
Toward subgrid-scale flame modeling for LES of turbulent combustion with detailed chemical kinetics |
2020 |
| Sayako Ishitsuka |
Mechanisms of near-wall turbulence generation in wall-modeled large-eddy simulation |
2019 |
| Riki Ota |
Data-driven approach to wall modeling in LES using erroneous near-wall physical quantities |
2019 |
| Ryo Hirai |
Analysis of mean-velocity scaling in wall-heated and -cooled turbulent boundary layers |
2019 |
| Yuki Mori |
Wall-modeled LES of shock-turbulent boundary layer interactions |
2019 |
| Seidai Watanabe |
Turbulence structures and wall friction in longitudinal vortex-turbulent boundary layer interactions |
2019 |
| Yuya Takahashi |
A flame-capturing model for CFD with detailed chemical kinetics |
2018 |
| Daisuke Numata |
Analysis of transonic airfoil buffet mechanism with self-excited oscillation |
2018 |
| Shota Hayakawa |
Mean flow effects on sound propagation of fan noise using linearized Euler equations |
2018 |
| Yiwei Pan |
Assessments of interface capturing methods for compressible multi-component flows |
2018 |
| Yuji Shimoyama |
Prediction accuracy of near-wall fluctuations of thermodynamic variables and flow structures in wall-modeled large-eddy simulation |
2018 |
| Yoshihito Oikawa |
RANS modeling of turbulent boundary layers at supercritical pressure |
2017 |
