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RELATED PAPERS
2025
Kodama, Y., Hirota, M. & Kobayashi, H. Generation of structured grids using shrink and recover algorithm. J Mar Sci Technol (2025).
https://doi.org/10.1007/s00773-025-01061-3
https://doi.org/10.1007/s00773-025-01061-3
2024
Sakamoto, N., Hino, T., Kobayashi, H., Ohashi, K., Parameter adaptation of k - ω SST turbulence model for improving resolution of moderately separated flows around 2D wing and 3D ship hulls via EnKF data assimilation. J Mar Sci Technol (2024). https://doi.org/10.1007/s00773-024-01026-y, 2024.9.
Kobayashi, H. et al., “Dual single-phase approach for computing both water and air flow around a ship”, Proceeding of 15th International Conference on Hydrodynamics, Rome, 2024.9.
西岡諒, 坂本信晶, 大橋訓英 他, “回転円筒を模擬したCFD計算による流場に対する表面粗度の影響調査”, 日本船舶海洋工学会講演会論文集 38, 807-815, 2024.5.
Sakamoto, N., Hino, T., Ohashi, K. et al., “Revisiting DA for Parameters of k-ω SST Model with 2D NACA4412 and their application to 3D hull forms”. 日本船舶海洋工学会講演会論文集 38, 755-762, 2024.5.
Suzuki, R. et al., “Estimation of steady wave forces and moment acting on an obliquely moving ship in short waves, and its application in a manoeuvring simulation ”, Applied Mathematical Modelling 125, Part A, 261-292, https://doi.org/10.1016/j.apm.2023.08.046, 2024.1.
Kobayashi, H. et al., “Dual single-phase approach for computing both water and air flow around a ship”, Proceeding of 15th International Conference on Hydrodynamics, Rome, 2024.9.
西岡諒, 坂本信晶, 大橋訓英 他, “回転円筒を模擬したCFD計算による流場に対する表面粗度の影響調査”, 日本船舶海洋工学会講演会論文集 38, 807-815, 2024.5.
Sakamoto, N., Hino, T., Ohashi, K. et al., “Revisiting DA for Parameters of k-ω SST Model with 2D NACA4412 and their application to 3D hull forms”. 日本船舶海洋工学会講演会論文集 38, 755-762, 2024.5.
Suzuki, R. et al., “Estimation of steady wave forces and moment acting on an obliquely moving ship in short waves, and its application in a manoeuvring simulation ”, Applied Mathematical Modelling 125, Part A, 261-292, https://doi.org/10.1016/j.apm.2023.08.046, 2024.1.
2023
鏡園将成, 安川宏紀, 坂本信晶 他, “Free-Run CFDによる浅水域における船の旋回運動シミュレーション”, R5 日本船舶海洋工学会講演会論文集 37, 401-409, 2023.11.
松永 勇也, 高橋 克尚, 古川 芳孝, 大森 拓也 他, “狭水路を航行する船体に作用する流体力に関する研究” 日本船舶海洋工学会講演会論文集 37, 415-420, 2023.11.
Kobayashi, H. et al., “Numerical estimation for wind forces of a container ship with various loading patterns of containers”, Proceedings of 10th PAAMES/AMEC, Kyoto, 2023.10.
Sakamoto, N., “Computational investigation of shallow water effect in Esso Osaka under zig-zag maneuvers in full scale”, Proceedings of 10th PAAMES/AMEC, Kyoto, 2023.10.
Sakamoto, N., “Parameter estimation for 1-eq./2-eq turbulence models by EnKF data assimilation: twin experiment with 2D flat plate” Proceedings of the ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering 7, 2023.6.
Sakamoto, N. et al., “Adaptation of a parameter in k-omega SST model for separated turbulent flow using EnKF data assimilation”, 日本船舶海洋工学会講演会論文集 36, 79-85, 2023.6.
Sakamoto, N., Ohashi, K. et al., "Overset RaNS simulations and validations for the effect of false bottom to the KCS under static drift and static rudder in shallow water", Journal of Marine Science and Technology 28, 248-269, https://doi.org/10.1007/s00773-023-00922-z, 2023.1.
松永 勇也, 高橋 克尚, 古川 芳孝, 大森 拓也 他, “狭水路を航行する船体に作用する流体力に関する研究” 日本船舶海洋工学会講演会論文集 37, 415-420, 2023.11.
Kobayashi, H. et al., “Numerical estimation for wind forces of a container ship with various loading patterns of containers”, Proceedings of 10th PAAMES/AMEC, Kyoto, 2023.10.
Sakamoto, N., “Computational investigation of shallow water effect in Esso Osaka under zig-zag maneuvers in full scale”, Proceedings of 10th PAAMES/AMEC, Kyoto, 2023.10.
Sakamoto, N., “Parameter estimation for 1-eq./2-eq turbulence models by EnKF data assimilation: twin experiment with 2D flat plate” Proceedings of the ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering 7, 2023.6.
Sakamoto, N. et al., “Adaptation of a parameter in k-omega SST model for separated turbulent flow using EnKF data assimilation”, 日本船舶海洋工学会講演会論文集 36, 79-85, 2023.6.
Sakamoto, N., Ohashi, K. et al., "Overset RaNS simulations and validations for the effect of false bottom to the KCS under static drift and static rudder in shallow water", Journal of Marine Science and Technology 28, 248-269, https://doi.org/10.1007/s00773-023-00922-z, 2023.1.
2022
大橋訓英 他, "流体構造連成による波浪中での船体運動と応力解析", 第36回 数値流体力学シンポジウム講演集, 2022.12.
小林寛 他, "Numerical simulation for ship motion of a damaged ship in beam sea", 第36回 数値流体力学シンポジウム講演集, 2022.12.
小林寛 他, "Numerical simulation of turning motion in regular head waves", 第36回 数値流体力学シンポジウム講演集, 2022.12.
Kobayashi, H. et al., "CFD assessment of the wind loads of superstructures through RANS", Applied Ocean Research, Vol.129, 1-24, https://doi.org/10.1016/j.apor.2022.103364, 2022.12.
大森拓也 他, "狭水路における旋回運動時操縦流体力のCFD計算法", 日本船舶海洋工学会講演会論文集 35,373-376, 2022.11.
高橋克尚 他, "狭水路を斜航する船体と舵に働く流体力について", 日本船舶海洋工学会講演会論文集 35, 323-326, 2022.11.
Sakamoto, N. et al., "Viscous CFD estimation of rudder-related parameters in MMG model for a ship with flap rudder", 日本船舶海洋工学会講演会論文集 35, 367-372, 2022.11.
Sakamoto, N. et al., "False bottoms revisited: computational study for KCS under pure yaw motion in shallow water(H/T=1.2)", Journal of Marine Science and Technology 28, 117-135, https://doi.org/10.1007/s00773-022-00912-7, 2022.11.
Ohmori,T. et al., "Numerical study to improve the estimation of manoeuvring fluid force for a container ship in deep and restricted water", Proceedings of PRADS 2022, 2022.10.
大橋訓英, "重合格子による有限体積法と格子ボルツマン法のハイブリッド化に関する基礎検討", 日本流体力学会年会2022 講演論文集, 2022.9.
Andersson, J. et al.,"Ship-scale CFD benchmark study of a pre-swirl duct on KVLCC2", Applied Ocean Research 123, 103-134, https://doi.org/10.1016/j.apor.2022.103134, 2022.6.
Kume, K., Hamada, T., Kobayashi, H. et al., “Evaluation of aerodynamic characteristics of a ship with flettner rotors by wind tunnel tests and RANS-based CFD” Ocean Engineering 254 111345-111345、 2022.6.
小林寛 他, "Numerical simulation for ship motion of a damaged ship in beam sea", 第36回 数値流体力学シンポジウム講演集, 2022.12.
小林寛 他, "Numerical simulation of turning motion in regular head waves", 第36回 数値流体力学シンポジウム講演集, 2022.12.
Kobayashi, H. et al., "CFD assessment of the wind loads of superstructures through RANS", Applied Ocean Research, Vol.129, 1-24, https://doi.org/10.1016/j.apor.2022.103364, 2022.12.
大森拓也 他, "狭水路における旋回運動時操縦流体力のCFD計算法", 日本船舶海洋工学会講演会論文集 35,373-376, 2022.11.
高橋克尚 他, "狭水路を斜航する船体と舵に働く流体力について", 日本船舶海洋工学会講演会論文集 35, 323-326, 2022.11.
Sakamoto, N. et al., "Viscous CFD estimation of rudder-related parameters in MMG model for a ship with flap rudder", 日本船舶海洋工学会講演会論文集 35, 367-372, 2022.11.
Sakamoto, N. et al., "False bottoms revisited: computational study for KCS under pure yaw motion in shallow water(H/T=1.2)", Journal of Marine Science and Technology 28, 117-135, https://doi.org/10.1007/s00773-022-00912-7, 2022.11.
Ohmori,T. et al., "Numerical study to improve the estimation of manoeuvring fluid force for a container ship in deep and restricted water", Proceedings of PRADS 2022, 2022.10.
大橋訓英, "重合格子による有限体積法と格子ボルツマン法のハイブリッド化に関する基礎検討", 日本流体力学会年会2022 講演論文集, 2022.9.
Andersson, J. et al.,"Ship-scale CFD benchmark study of a pre-swirl duct on KVLCC2", Applied Ocean Research 123, 103-134, https://doi.org/10.1016/j.apor.2022.103134, 2022.6.
Kume, K., Hamada, T., Kobayashi, H. et al., “Evaluation of aerodynamic characteristics of a ship with flettner rotors by wind tunnel tests and RANS-based CFD” Ocean Engineering 254 111345-111345、 2022.6.
2021
Sakamoto, N. et al., "Effect of false bottom to the KCS under pure yawing motion in shallow water”, 日本船舶海洋工学会講演会論文集 33(33) 193-198, 2021.11.
大橋訓英, “船体周り流れの重合格子における領域分割とハイブリッド並列計算手法の開発” , 日本流体力学会年会講演集, 2021.9.
Sakamoto, N. et al., "Fundamental validation of cavitation and interface capturing models implemented on NAGISA", 混相流シンポジウム2021講演論文集, 2021.8.
Sakamoto et al.,"CFD based turning circle maneuvering simulation for a merchant ship with high-lift rudder", Proceedings of 31st ISOPE 2021, 2729-2736, 2021.6.
Ohashi, K., "Numerical simulation of strongly coupled liquid fluids in tanks inside of floating body and its motions with incoming lateral regular waves", Proceedings of ECCOMAS MARINE 2021, 2021.6.
大橋訓英 他, "船体に働く波浪荷重と流体構造連成解析について", 第26回 計算工学講演会 2021 講演会論文集, 2021.5.
Kobayashi, H. et al., "Parametric study of added resistance and ship motion in head waves through RANS : Calculation guideline", Applied Ocean Research 110, 102573-192573, https://doi.org/10.1016/j.apor.2021.102573, 2021.5.
Kobayashi, H. et al., “Solid block approach for hole-cutting procedure in overset assembling”, Proceedings of 14th International Symposium, PRADS 2019, lecture notes in civil engineering 63, 83-94, https://doi.org/10.1007/978-981-15-4624-2_5, 2021.1.
Korkmaz, K.B., Werner, S., Sakamoto, N. et al., “CFD based form factor determination method”, Ocean Engineering 220(108451), 2021.1.
Ohashi, K., "Numerical simulation of sloshing in LNG tank including irregular tank motion using moving grid technique", Proceedings of WCCM-ECCOMAS Congress 2021, 2021.1.
大橋訓英, “船体周り流れの重合格子における領域分割とハイブリッド並列計算手法の開発” , 日本流体力学会年会講演集, 2021.9.
Sakamoto, N. et al., "Fundamental validation of cavitation and interface capturing models implemented on NAGISA", 混相流シンポジウム2021講演論文集, 2021.8.
Sakamoto et al.,"CFD based turning circle maneuvering simulation for a merchant ship with high-lift rudder", Proceedings of 31st ISOPE 2021, 2729-2736, 2021.6.
Ohashi, K., "Numerical simulation of strongly coupled liquid fluids in tanks inside of floating body and its motions with incoming lateral regular waves", Proceedings of ECCOMAS MARINE 2021, 2021.6.
大橋訓英 他, "船体に働く波浪荷重と流体構造連成解析について", 第26回 計算工学講演会 2021 講演会論文集, 2021.5.
Kobayashi, H. et al., "Parametric study of added resistance and ship motion in head waves through RANS : Calculation guideline", Applied Ocean Research 110, 102573-192573, https://doi.org/10.1016/j.apor.2021.102573, 2021.5.
Kobayashi, H. et al., “Solid block approach for hole-cutting procedure in overset assembling”, Proceedings of 14th International Symposium, PRADS 2019, lecture notes in civil engineering 63, 83-94, https://doi.org/10.1007/978-981-15-4624-2_5, 2021.1.
Korkmaz, K.B., Werner, S., Sakamoto, N. et al., “CFD based form factor determination method”, Ocean Engineering 220(108451), 2021.1.
Ohashi, K., "Numerical simulation of sloshing in LNG tank including irregular tank motion using moving grid technique", Proceedings of WCCM-ECCOMAS Congress 2021, 2021.1.
2020
Sakamoto, N., Kobayashi, H. et al., "An overset RaNS prediction and validation of full scale stern wake for 1,600TEU container ship and 63,000 DWT bulk carrier with an energy saving device", Applied Ocean Research 105, 1-23, https://doi.org/10.1016/j.apor.2020.102417, 2020.12
大橋訓英, "タンク内流動と浮体運動の強連成シミュレーション", 第34回 数値流体力学シンポジウム講演集, 2020.12.
Sakamoto, N., Suzuki, R. et al., “Model and full scale CFD of the Esso Osaka under 35deg turning circle maneuver in deep water”, 日本船舶海洋工学会講演会論文集 31, 165-170, 2020.11.
梅田隼 他, "付加物が航行型AUVの流力性能に与える影響", 日本船舶海洋工学会講演会論文集 31, 377-381, 2020.11.
Ohashi, K., "A new approach for handling body motions combining a grid deformation method and an overset grids technique", Ocean Engineering 213, 1-23, https://doi.org/10.1016/j.oceaneng.2020.107836, 2020.10.
大橋訓英, "不規則運動下でのLNGタンクのスロッシング計算", 日本流体力学会年会 2020 講演論文集, 2020.9.
Sakamoto, N. et al., "Application of “THINC” interface capturing scheme to the structured overset CFD solver", 混相流シンポジウム2020 講演論文集, 2020.8.
Ohashi, K., "Development of the numerical method for simulation of ship motions in regular waves with changing wave direction", Proceedings of ICCM 2020, 2020.8.
大橋訓英, "自走する船群の数値シミュレーション", 第25回 計算工学講演会講演論文集, 2020.5.
Sakamoto, N., Kobayashi, H. et al., "Overset RaNS study for the effect of false bottom to the KCS under static drift in shallow water", 日本船舶海洋工学会講演会論文集 30, 569-574, 2020.5.
Kobayashi, H. et al., "Numerical Study for Wind Resistance of a Bulk Carrier", 日本船舶海洋工学会春季講演会, 2020.5.
久米健一他, "船首部形状変更と波浪中抵抗増加の関係について -水槽試験によるCFD計算の検証-", 日本船舶海洋工学会春季講演会, 2020.5.
梅田隼他, "航行型AUV隊列制御の実海域試験と数値計算", 日本船舶海洋工学会春季講演会, 2020.5.
Ohashi, K., "Numerical study of roughness model effect including low-Reynolds number model and wall function method at actual ship scale",Journal of Marine Science and Technology 26, 24-36, https://doi.org/10.1007/s00773-020-00718-5, 2020.3.
大橋訓英, "タンク内流動と浮体運動の強連成シミュレーション", 第34回 数値流体力学シンポジウム講演集, 2020.12.
Sakamoto, N., Suzuki, R. et al., “Model and full scale CFD of the Esso Osaka under 35deg turning circle maneuver in deep water”, 日本船舶海洋工学会講演会論文集 31, 165-170, 2020.11.
梅田隼 他, "付加物が航行型AUVの流力性能に与える影響", 日本船舶海洋工学会講演会論文集 31, 377-381, 2020.11.
Ohashi, K., "A new approach for handling body motions combining a grid deformation method and an overset grids technique", Ocean Engineering 213, 1-23, https://doi.org/10.1016/j.oceaneng.2020.107836, 2020.10.
大橋訓英, "不規則運動下でのLNGタンクのスロッシング計算", 日本流体力学会年会 2020 講演論文集, 2020.9.
Sakamoto, N. et al., "Application of “THINC” interface capturing scheme to the structured overset CFD solver", 混相流シンポジウム2020 講演論文集, 2020.8.
Ohashi, K., "Development of the numerical method for simulation of ship motions in regular waves with changing wave direction", Proceedings of ICCM 2020, 2020.8.
大橋訓英, "自走する船群の数値シミュレーション", 第25回 計算工学講演会講演論文集, 2020.5.
Sakamoto, N., Kobayashi, H. et al., "Overset RaNS study for the effect of false bottom to the KCS under static drift in shallow water", 日本船舶海洋工学会講演会論文集 30, 569-574, 2020.5.
Kobayashi, H. et al., "Numerical Study for Wind Resistance of a Bulk Carrier", 日本船舶海洋工学会春季講演会, 2020.5.
久米健一他, "船首部形状変更と波浪中抵抗増加の関係について -水槽試験によるCFD計算の検証-", 日本船舶海洋工学会春季講演会, 2020.5.
梅田隼他, "航行型AUV隊列制御の実海域試験と数値計算", 日本船舶海洋工学会春季講演会, 2020.5.
Ohashi, K., "Numerical study of roughness model effect including low-Reynolds number model and wall function method at actual ship scale",Journal of Marine Science and Technology 26, 24-36, https://doi.org/10.1007/s00773-020-00718-5, 2020.3.
2019
大橋訓英, "移動格子手法によるLNGタンクのスロッシング計算", 第33回 数値流体力学シンポジウム講演論文集, 2019.11.
小林寛他, "向波中の波浪中抵抗増加CFD計算における計算条件の設定について -RANS計算のパラメトリックスタディ-", 日本船舶海洋工学会講演会論文集 29, 2019.11.
Sakamoto, N., Kobayashi, H. et al., "Overset RaNS computation of flow around bulk carrier with ESD in full scale and its validation", 日本船舶海洋工学会講演会論文集 29, 199-204, 2019.11.
Ohashi, K., "Comparison of wall function model with low-Reynolds number model under roughness effect condition at actual ship scale", Proceedings of NuTTS 2019, 2019.9.
Araki, M. et al., "Model experiments and CFD simulations of offshore support vessel with heavy suspended load in waves", Proceedings of 11th International Workshop on Ship and Marine Hydrodynamics, 2019.9.
大橋訓英, "マルチタイムステップと動的重合格子法による船舶の推進状態の計算手法の開発", 日本流体力学会年会 2019 講演論文集, 2019.9.
Sakamoto, N., Ohashi, K. et al., "Identification of KVLCC2 manoeuvring parameters for a modular-type mathematical model by RaNS method with an overset approach", Ocean Engineering 188, 1-16, 2019.9.
Ohashi, K. et al., "Development of a structured overset Navier-Stokes solver including a moving grid with a full multigrid method", Journal of Marine Science and Technology 24(3), 884-901, https://doi.org/10.1007/s00773-018-0594-7, 2019.9.
大橋訓英, "実船スケール(レイノルズ数10 の9 乗相当) における壁関数と粗度条件の適用性調査", 第24回 計算工学講演会講演論文集, 2019.5.
Ohashi, K., "Numerical study of roughness model effect at actual ship scale", Proceedings of ECCOMAS MARINE 2019, 2019.5.
Sakamoto, N., “Evaluation of hydrodynamic performance of pre-swirl and post-swirl ESDs for merchant ships by numerical towing tank procedure”, Ocean Engineering 178, 104-133, 2019.4.
小林寛他, "向波中の波浪中抵抗増加CFD計算における計算条件の設定について -RANS計算のパラメトリックスタディ-", 日本船舶海洋工学会講演会論文集 29, 2019.11.
Sakamoto, N., Kobayashi, H. et al., "Overset RaNS computation of flow around bulk carrier with ESD in full scale and its validation", 日本船舶海洋工学会講演会論文集 29, 199-204, 2019.11.
Ohashi, K., "Comparison of wall function model with low-Reynolds number model under roughness effect condition at actual ship scale", Proceedings of NuTTS 2019, 2019.9.
Araki, M. et al., "Model experiments and CFD simulations of offshore support vessel with heavy suspended load in waves", Proceedings of 11th International Workshop on Ship and Marine Hydrodynamics, 2019.9.
大橋訓英, "マルチタイムステップと動的重合格子法による船舶の推進状態の計算手法の開発", 日本流体力学会年会 2019 講演論文集, 2019.9.
Sakamoto, N., Ohashi, K. et al., "Identification of KVLCC2 manoeuvring parameters for a modular-type mathematical model by RaNS method with an overset approach", Ocean Engineering 188, 1-16, 2019.9.
Ohashi, K. et al., "Development of a structured overset Navier-Stokes solver including a moving grid with a full multigrid method", Journal of Marine Science and Technology 24(3), 884-901, https://doi.org/10.1007/s00773-018-0594-7, 2019.9.
大橋訓英, "実船スケール(レイノルズ数10 の9 乗相当) における壁関数と粗度条件の適用性調査", 第24回 計算工学講演会講演論文集, 2019.5.
Ohashi, K., "Numerical study of roughness model effect at actual ship scale", Proceedings of ECCOMAS MARINE 2019, 2019.5.
Sakamoto, N., “Evaluation of hydrodynamic performance of pre-swirl and post-swirl ESDs for merchant ships by numerical towing tank procedure”, Ocean Engineering 178, 104-133, 2019.4.
2018
大橋訓英, "二方程式乱流モデルにおける粗度モデルの実船スケールでの影響調査", 第32回 数値流体力学シンポジウム講演論文集, 2018.12.
荒木元輝 他, "舶用CFDソルバーを用いた直管圧損計算", 日本船舶海洋工学会講演会論文集, 2018.11.
Sakamoto, N., Ohashi, K., "Implementation of THINC-type VoF Advection Scheme on Structured FVM Solver", Proceedings of 10th NuTTS, 2018.10.
大橋訓英, "動的重合格子による船舶の自由表面影響下での推進状態の数値シミュレーション", 日本流体力学会年会講演集, 2018.9.
Tahara, Y., Ichinose, Y., Kaneko, A., "Simulation Based Global Concept and Local Geometry Optimization for Ship Design Considering Propulsive Performance in Actual Seas and Fatigue Damage Evaluation by Using Global Oceanographic Model and Onboard Monitored Data", Proceedings of 32nd Symposium on Naval Hydrodynamics, 2018.8.
Ohashi, K., “Numerical study of flows around a ship hull including elastic deformation effect using a mode function", ECCOMAS ECCM-ECFD 2018.6.
大橋訓英 他, "Xeon Phiによる共有メモリ型計算手法の数理モデルを含む船舶周り流れへの適用", 第23回 計算工学講演会講演集, 2018.6.
Ohashi, K. et al., "Numerical simulation of free running of a ship with using dynamic overset grid method", Ship Technology Research 65(3), 153-162, https://doi.org/10.1080/09377255.2018.1482610, 2018.9.
Tahara, Y., Ichinose, Y., Kaneko, A., Kasahara, Y., "Variable decomposition approach applied to multi-objective optimization for minimum powering of commercial ships", Journal of Marine Science and Technology, 2018.4., https://doi.org/10.1007/s00773-018-0551-5
Ohashi, K. "Development of numerical method to simulate flows around a ship at propulsion conditions in regular waves coupling with the ship propulsion plant model", Applied Ocean Research 73, 141-148, https://doi.org/10.1016/j.apor.2018.02.006, 2018.4.
荒木元輝 他, "舶用CFDソルバーを用いた直管圧損計算", 日本船舶海洋工学会講演会論文集, 2018.11.
Sakamoto, N., Ohashi, K., "Implementation of THINC-type VoF Advection Scheme on Structured FVM Solver", Proceedings of 10th NuTTS, 2018.10.
大橋訓英, "動的重合格子による船舶の自由表面影響下での推進状態の数値シミュレーション", 日本流体力学会年会講演集, 2018.9.
Tahara, Y., Ichinose, Y., Kaneko, A., "Simulation Based Global Concept and Local Geometry Optimization for Ship Design Considering Propulsive Performance in Actual Seas and Fatigue Damage Evaluation by Using Global Oceanographic Model and Onboard Monitored Data", Proceedings of 32nd Symposium on Naval Hydrodynamics, 2018.8.
Ohashi, K., “Numerical study of flows around a ship hull including elastic deformation effect using a mode function", ECCOMAS ECCM-ECFD 2018.6.
大橋訓英 他, "Xeon Phiによる共有メモリ型計算手法の数理モデルを含む船舶周り流れへの適用", 第23回 計算工学講演会講演集, 2018.6.
Ohashi, K. et al., "Numerical simulation of free running of a ship with using dynamic overset grid method", Ship Technology Research 65(3), 153-162, https://doi.org/10.1080/09377255.2018.1482610, 2018.9.
Tahara, Y., Ichinose, Y., Kaneko, A., Kasahara, Y., "Variable decomposition approach applied to multi-objective optimization for minimum powering of commercial ships", Journal of Marine Science and Technology, 2018.4., https://doi.org/10.1007/s00773-018-0551-5
Ohashi, K. "Development of numerical method to simulate flows around a ship at propulsion conditions in regular waves coupling with the ship propulsion plant model", Applied Ocean Research 73, 141-148, https://doi.org/10.1016/j.apor.2018.02.006, 2018.4.
2017
田原裕介, 新郷将司, 金井亮浩, "重合格子技術と非線形最適化理論を導入したCFD援用最適省エネルギーデバイス設計法", 日本船舶海洋工学会論文集 26 巻, pp.1-16, https://doi.org/10.2534/jjasnaoe.26.1, 2017.12.
大橋訓英, "モード法による弾性変形を考慮した波浪中船体周り流れの数値シミュレーション", 第31回 数値流体力学シンポジウム講演集, 2017.12.
Kobayashi, H., "Shallow water effect for a high block coefficient ship", Proceedings of the 20th NuTTS, 2017.10.
Ohashi, K. et al., "Numerical simulation of flows around moving bodies using an overset moving grid technique", Proceedings of the 20th NuTTS, 2017.10.
大橋訓英 他, "フルマルチグリッド手法と動的重合格子による船舶の推進状態の数値シミュレーション", 日本流体力学会年会講演集, 2017.8.
坂本信晶 他, “船舶水中騒音規制に対する海技研の取り組み”, 海上技術安全研究所 第17回研究発表会論文集, 2017.7.
大橋訓英 他, "Xeon Phi による共有メモリ型計算手法の船舶周り流れへの適用性について", 第22回 計算工学講演会講演集, 2017.6.
田原裕介, 金子杏実, 笠原良和, "499GT型ケミカルタンカーの船型バリエーションの開発", 日本船舶海洋工学会春季講演会, 2017.5.
Ohashi, K., "Development of numerical method to simulate flows around a ship in regular waves including the effect of ship propulsion plant model", ECCOMAS MARINE 2017.5.
小野寺直幸 他, “GPUを用いた格子ボルツマン法による固気液連成解析モデルの開発”, 計算工学講演会論文集, 2017.5.
大橋訓英, "モード法による弾性変形を考慮した波浪中船体周り流れの数値シミュレーション", 第31回 数値流体力学シンポジウム講演集, 2017.12.
Kobayashi, H., "Shallow water effect for a high block coefficient ship", Proceedings of the 20th NuTTS, 2017.10.
Ohashi, K. et al., "Numerical simulation of flows around moving bodies using an overset moving grid technique", Proceedings of the 20th NuTTS, 2017.10.
大橋訓英 他, "フルマルチグリッド手法と動的重合格子による船舶の推進状態の数値シミュレーション", 日本流体力学会年会講演集, 2017.8.
坂本信晶 他, “船舶水中騒音規制に対する海技研の取り組み”, 海上技術安全研究所 第17回研究発表会論文集, 2017.7.
大橋訓英 他, "Xeon Phi による共有メモリ型計算手法の船舶周り流れへの適用性について", 第22回 計算工学講演会講演集, 2017.6.
田原裕介, 金子杏実, 笠原良和, "499GT型ケミカルタンカーの船型バリエーションの開発", 日本船舶海洋工学会春季講演会, 2017.5.
Ohashi, K., "Development of numerical method to simulate flows around a ship in regular waves including the effect of ship propulsion plant model", ECCOMAS MARINE 2017.5.
小野寺直幸 他, “GPUを用いた格子ボルツマン法による固気液連成解析モデルの開発”, 計算工学講演会論文集, 2017.5.
2016
小野寺直幸 他, "格子ボルツマン法による気液二相流解析モデルの開発", 第30回 数値流体力学シンポジウム講演集, 2016.12.
大橋訓英, "主機関特性モデルとリンクした船舶の波浪中推進状態の数値シミュレーション", 第30回 数値流体力学シンポジウム講演集, 2016.12.
小林寛 他,"Numerical Simulation With Overset Approach For a Bulk Carrier(JBC) In Shallow Water", 日本船舶海洋工学会秋季講演会, 2016.11.
Kobayashi, H., Kodama, Y., "Developing Spline Based Overs.11.rid Assembling Approach and Application to Unsteady Flow Around a Moving Body", Journal of Mathematics and System Science 6, 339-347, 2016.9.,
大橋訓英 他, "動的重合格子による自走する船体の数値シミュレーション", 日本流体力学会年会講演集, 2016.9.
小野寺直幸 他, "格子ボルツマン法による気相・液相連成解析手法の開発", 日本流体力学会年会講演集, 2016.9.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による船舶周りの自由表面流体解析の高速化", 第29回計算力学講演会講演集, 2016.9.
Tahara, Y. et al., "Application of simulation based design for ESD installed commercial ships", Proceedings of the 31st Symposium on Naval Hydrodynamics, 2016.9.
Kobayashi, H., Ohashi, K., "Flow simulation around a rotating propeller with dynamic overset grid approach", Proceedings of The 7th International Conference on Computational Methods (ICCM2016), 2016.8.
Ohashi, K., Kobayashi, H., "Performance improvement of flow computations with an overset-grid method including body motions using a full multigrid method", Proceedings of 7th ECCOMAS Congress, 2016.6.
Onodera, N. et al., "Large-scale free-surface flow simulation using lattice Boltzmann method on multi-GPU cluster", Proceedings of 7th ECCOMAS Congress 2016.6.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による船舶周りの自由表面流解析", 第21回計算工学講演会講演集, 2016.6.
大橋訓英, "主機関特性モデルとリンクした船舶の波浪中推進状態の数値シミュレーション", 第30回 数値流体力学シンポジウム講演集, 2016.12.
小林寛 他,"Numerical Simulation With Overset Approach For a Bulk Carrier(JBC) In Shallow Water", 日本船舶海洋工学会秋季講演会, 2016.11.
Kobayashi, H., Kodama, Y., "Developing Spline Based Overs.11.rid Assembling Approach and Application to Unsteady Flow Around a Moving Body", Journal of Mathematics and System Science 6, 339-347, 2016.9.,
大橋訓英 他, "動的重合格子による自走する船体の数値シミュレーション", 日本流体力学会年会講演集, 2016.9.
小野寺直幸 他, "格子ボルツマン法による気相・液相連成解析手法の開発", 日本流体力学会年会講演集, 2016.9.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による船舶周りの自由表面流体解析の高速化", 第29回計算力学講演会講演集, 2016.9.
Tahara, Y. et al., "Application of simulation based design for ESD installed commercial ships", Proceedings of the 31st Symposium on Naval Hydrodynamics, 2016.9.
Kobayashi, H., Ohashi, K., "Flow simulation around a rotating propeller with dynamic overset grid approach", Proceedings of The 7th International Conference on Computational Methods (ICCM2016), 2016.8.
Ohashi, K., Kobayashi, H., "Performance improvement of flow computations with an overset-grid method including body motions using a full multigrid method", Proceedings of 7th ECCOMAS Congress, 2016.6.
Onodera, N. et al., "Large-scale free-surface flow simulation using lattice Boltzmann method on multi-GPU cluster", Proceedings of 7th ECCOMAS Congress 2016.6.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による船舶周りの自由表面流解析", 第21回計算工学講演会講演集, 2016.6.
2015
Kobayashi, H., “Overset grid approach for the flow behind a high block coefficient ship with an appendage”, Proceedings of the 29th Computational Fluid Dynamics Symposium, 2015.12.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による自由表面流れの数値解析", 第29回 数値流体力学シンポジウム講演集, 2015.12.
Kobayashi, H., Ohashi, K., Hirata, N., "Overset grid approach for the flow behind a high block coefficient ship with an appendage", 第29回 数値流体力学シンポジウム講演集, 2015.12.
大橋訓英, "フルマルチグリッド手法を用いた重合格子による流場計算の高速化", 第29回 数値流体力学シンポジウム講演集, 2015.12.
荒木元輝 他, “省エネ付加物に関する形状最適化とその尺度影響に関する一考察 “, 日本船舶海洋工学会講演会論文集 (20) 411-414 2015.11.
大橋訓英 他, "重合移動格子による運動を伴う物体周り流れの数値計算", 日本流体力学会年会講演集, 2015.9.
Araki, M. et al., "Effect of Rudder Horn and Propeller Hub Vortex for CFD Maneuvering Simulations", MARSIM 2015.9.
小野寺直幸 他, "GPUを用いた格子ボルツマン法による自由表面流れの数値解析", 第29回 数値流体力学シンポジウム講演集, 2015.12.
Kobayashi, H., Ohashi, K., Hirata, N., "Overset grid approach for the flow behind a high block coefficient ship with an appendage", 第29回 数値流体力学シンポジウム講演集, 2015.12.
大橋訓英, "フルマルチグリッド手法を用いた重合格子による流場計算の高速化", 第29回 数値流体力学シンポジウム講演集, 2015.12.
荒木元輝 他, “省エネ付加物に関する形状最適化とその尺度影響に関する一考察 “, 日本船舶海洋工学会講演会論文集 (20) 411-414 2015.11.
大橋訓英 他, "重合移動格子による運動を伴う物体周り流れの数値計算", 日本流体力学会年会講演集, 2015.9.
Araki, M. et al., "Effect of Rudder Horn and Propeller Hub Vortex for CFD Maneuvering Simulations", MARSIM 2015.9.
2014
大橋訓英 他, "重合格子対応構造格子NSソルバーの開発", 第28回 数値流体力学シンポジウム論文集, 2014.12.
Tahara, Y., "CFD-Based Multiobjective Robust Design Optimization of a Waterjet Propelled High Speed Ship", 日本船舶海洋工学会秋季講演会, 2014.11.
Tahara, Y., Diez, M., Volpi, S., Chen, X., Campana, E., Stern, F., "CFD-Based Single and Multiobjective Stochastic Optimization of a Waterjet Propelled High Speed Ship", Proceedings of 30th Symposium on Naval Hydrodynamics, 2014.11.
Araki, M. et al., "An analysis of bilge keel effects using RANS with overset grids method", The 14th International Ship Stability Workshop, 2014.10.
Sakamoto, N. et al., “Development of URaNS Maneuvering Simulator and its Application to ESSO OSAKA” , Proceedings of 17th Numerical Towing Tank Symposium, 2014.9.
大橋訓英, "重合格子手法による円柱周り波浪場の数値シミュレーション", 日本流体力学会年会, 2014.9.
小林寛, 児玉良明, 平田信行, "動的重合格子法を用いたプロペラ周りの粘性流れ計算", 日本船舶海洋工学会講演会講演集, 2014.5.
荒木元輝 他,"RANSによる舵角試験時舵力の尺度影響に関する一考察", 日本船舶海洋工学会講演会講演集, 2014.5.
田原裕介, 新郷将司, 金井亮浩, "重合格子技術を導入したCFD援用操縦性能評価法の基礎的検討", 日本船舶海洋工学会春季講演会, 2014.5.
Sakamoto, N. et al., “Scale Effect Analysis in ESD installed on Panamax Bulk Carrier by RaNS with Overset Grid”, 日本船舶海洋工学会春季講演会講演集, 2014.5.
Tahara, Y., "CFD-Based Multiobjective Robust Design Optimization of a Waterjet Propelled High Speed Ship", 日本船舶海洋工学会秋季講演会, 2014.11.
Tahara, Y., Diez, M., Volpi, S., Chen, X., Campana, E., Stern, F., "CFD-Based Single and Multiobjective Stochastic Optimization of a Waterjet Propelled High Speed Ship", Proceedings of 30th Symposium on Naval Hydrodynamics, 2014.11.
Araki, M. et al., "An analysis of bilge keel effects using RANS with overset grids method", The 14th International Ship Stability Workshop, 2014.10.
Sakamoto, N. et al., “Development of URaNS Maneuvering Simulator and its Application to ESSO OSAKA” , Proceedings of 17th Numerical Towing Tank Symposium, 2014.9.
大橋訓英, "重合格子手法による円柱周り波浪場の数値シミュレーション", 日本流体力学会年会, 2014.9.
小林寛, 児玉良明, 平田信行, "動的重合格子法を用いたプロペラ周りの粘性流れ計算", 日本船舶海洋工学会講演会講演集, 2014.5.
荒木元輝 他,"RANSによる舵角試験時舵力の尺度影響に関する一考察", 日本船舶海洋工学会講演会講演集, 2014.5.
田原裕介, 新郷将司, 金井亮浩, "重合格子技術を導入したCFD援用操縦性能評価法の基礎的検討", 日本船舶海洋工学会春季講演会, 2014.5.
Sakamoto, N. et al., “Scale Effect Analysis in ESD installed on Panamax Bulk Carrier by RaNS with Overset Grid”, 日本船舶海洋工学会春季講演会講演集, 2014.5.
2013
田原裕介, "重合格子技術と非線形最適化理論を導入したCFD援用最適形状設計法 -決定論型最適化手法およびロバストデザイン型最適化手法の導入- ", 第27回 数値流体力学シンポジウム, 2013.12.
荒木元輝 他, "重合格子法を用いた船舶省エネ付加物に関するパラメトリック・スタディ", 第27回 数値流体力学シンポジウム講演集, 2013.12.
大橋訓英 他, "推進器影響を考慮した波浪中船体周り流れのシミュレーション", 第27回 数値流体力学シンポジウム講演集, 2013.12.
田原裕介, 金井亮浩, 新郷将司, "重合格子技術と非線形最適化理論を導入したCFD援用最適省エネルギーデバイス設計法-特に最適解の評価について-", 日本船舶海洋工学会秋季講演会, 2013.11.
Kobayashi, H. et al., "CFD simulation of wash wave with capturing approach for free surface deformation", 12th International Conference on Fast Sea Transportation (FAST), 2013.9.
Tahara, Y., Kobayashi, H., "CFD-Based Multiobjective Robust Design Optimization of Delft Catamaran", 12th International Conference on Fast Sea Transportation (FAST), 2013.9.
Ohashi, K., Sakamoto, N., Hino, T., "Numerical simulation of flows around KVLCC2 hull with ship motions in regular waves ", ECCOMAS MARINE 2013.9.
大橋訓英, "規則波中の円柱周り波浪場の数値計算", 日本流体力学会年会, 2013.9.
Sakamoto, N. et al., “RANS simulations of twin-skeg container ship with podded propulsor by unit-based self propultion analysis”, 日本船舶海洋工学会春季講演会講演集 2013.5.
大橋訓英, "楕円体周り流場への代数型非線形乱流モデルの適用", 第28回 生研TSFDシンポジウム, 2013.3.
荒木元輝 他, "重合格子法を用いた船舶省エネ付加物に関するパラメトリック・スタディ", 第27回 数値流体力学シンポジウム講演集, 2013.12.
大橋訓英 他, "推進器影響を考慮した波浪中船体周り流れのシミュレーション", 第27回 数値流体力学シンポジウム講演集, 2013.12.
田原裕介, 金井亮浩, 新郷将司, "重合格子技術と非線形最適化理論を導入したCFD援用最適省エネルギーデバイス設計法-特に最適解の評価について-", 日本船舶海洋工学会秋季講演会, 2013.11.
Kobayashi, H. et al., "CFD simulation of wash wave with capturing approach for free surface deformation", 12th International Conference on Fast Sea Transportation (FAST), 2013.9.
Tahara, Y., Kobayashi, H., "CFD-Based Multiobjective Robust Design Optimization of Delft Catamaran", 12th International Conference on Fast Sea Transportation (FAST), 2013.9.
Ohashi, K., Sakamoto, N., Hino, T., "Numerical simulation of flows around KVLCC2 hull with ship motions in regular waves ", ECCOMAS MARINE 2013.9.
大橋訓英, "規則波中の円柱周り波浪場の数値計算", 日本流体力学会年会, 2013.9.
Sakamoto, N. et al., “RANS simulations of twin-skeg container ship with podded propulsor by unit-based self propultion analysis”, 日本船舶海洋工学会春季講演会講演集 2013.5.
大橋訓英, "楕円体周り流場への代数型非線形乱流モデルの適用", 第28回 生研TSFDシンポジウム, 2013.3.
2012
田原裕介, "高速ウォータージェット推進船型の最適設計を目的としたSBDシステムの開発CFD援用多目的ロバストデザイン最適化", 第10回最適化シンポジウム(OPTIS2012), 2012.12.
児玉良明他, "付加物つき船体まわり流れ計算のための重合格子法システムUP_GRIDの開発", 第26回 数値流体力学シンポジウム, 2012.12.
大橋訓英 他, "不規則波中の円柱周り流れのシミュレーション", 第26回 数値流体力学シンポジウム, 2012.12.
小林寛,"船尾後流計算結果の可視化について", 第26回 数値流体力学シンポジウム, 2012.12.
児玉良明 他, “海技研の新しい重合格子法システムUP_GRIDの主な機能”, 日本船舶海洋工学会秋季講演会講演集 2012.11.
Sakamoto, N. et al., “Unsteady wake analysis for Series60(CB=0.6) pitching and heaving in regular head seas by URANS”, 第26回数値流体力学シンポジウム講演集, 2012.12.
坂本信晶 他, “移動格子法による非線形・大振幅運動する物体の非定常CFD解析”, 第25回数値流体力学シンポジウム講演集 2011.12.
Sakamoto, N. et al., “Viscous CFD Simulations of DTMB model 5512 under Pure Yaw Maneuvering Motion”日本船舶海洋工学会秋季講演会講演集 2012.11.
Kobayashi, H., Lugni, C., "Wave Reconstruction for Deterministic Prediction of Nonlinear Wave-field", 15th Numerical Towing Tank Symposium, 2012.10.
Ohashi, K., Ogawa, Y., Shiraishi, K., "Study on the evaluation for performance of the crossflooding arrangements by means of the Computational Fluid Dynamics", The 11th International Conference on the Stability of Ships and Ocean Vehicles (STAB 2012), 2012.9.
Tahara, Y., Kobayashi, H., Kandasamy, M., Peri, D., Campana, E.F., Stern, F., "CFD-based MultiobjectiveStochastic Optimization of Waterjet Propelled High Speed Ships", 29th Symposium on Naval Hydrodynamics, 2012.8.
Tahara, Y., Hino, T., Kandasamy, M., He, W., Stern, F., "CFD calculation of downwind sail performance using flying shape measured by wind tunnel test", 4th High Performance Yacht Design Conference, 2012.3.
Ohashi, K., Hino, T., "Numerical study on the applicability of wall function models for the flows around an appendage attached to a body", AIAA paper 2012-0445, 2012.1.
児玉良明他, "付加物つき船体まわり流れ計算のための重合格子法システムUP_GRIDの開発", 第26回 数値流体力学シンポジウム, 2012.12.
大橋訓英 他, "不規則波中の円柱周り流れのシミュレーション", 第26回 数値流体力学シンポジウム, 2012.12.
小林寛,"船尾後流計算結果の可視化について", 第26回 数値流体力学シンポジウム, 2012.12.
児玉良明 他, “海技研の新しい重合格子法システムUP_GRIDの主な機能”, 日本船舶海洋工学会秋季講演会講演集 2012.11.
Sakamoto, N. et al., “Unsteady wake analysis for Series60(CB=0.6) pitching and heaving in regular head seas by URANS”, 第26回数値流体力学シンポジウム講演集, 2012.12.
坂本信晶 他, “移動格子法による非線形・大振幅運動する物体の非定常CFD解析”, 第25回数値流体力学シンポジウム講演集 2011.12.
Sakamoto, N. et al., “Viscous CFD Simulations of DTMB model 5512 under Pure Yaw Maneuvering Motion”日本船舶海洋工学会秋季講演会講演集 2012.11.
Kobayashi, H., Lugni, C., "Wave Reconstruction for Deterministic Prediction of Nonlinear Wave-field", 15th Numerical Towing Tank Symposium, 2012.10.
Ohashi, K., Ogawa, Y., Shiraishi, K., "Study on the evaluation for performance of the crossflooding arrangements by means of the Computational Fluid Dynamics", The 11th International Conference on the Stability of Ships and Ocean Vehicles (STAB 2012), 2012.9.
Tahara, Y., Kobayashi, H., Kandasamy, M., Peri, D., Campana, E.F., Stern, F., "CFD-based MultiobjectiveStochastic Optimization of Waterjet Propelled High Speed Ships", 29th Symposium on Naval Hydrodynamics, 2012.8.
Tahara, Y., Hino, T., Kandasamy, M., He, W., Stern, F., "CFD calculation of downwind sail performance using flying shape measured by wind tunnel test", 4th High Performance Yacht Design Conference, 2012.3.
Ohashi, K., Hino, T., "Numerical study on the applicability of wall function models for the flows around an appendage attached to a body", AIAA paper 2012-0445, 2012.1.