1. |
Mohamed M. Kamra, Changhong Hu, Seiya Watanabe, Wake Prediction of Tidal Current Turbines Using Machine Learning, 日本船舶海洋工学会春季講演会, 2022.05. |
2. |
Changhong Hu, Mohamed M. Kamra, Seiya Watanabe, Numerical and Experimental Investigation of Dam-Break Flow Against a Vertical Cylinder, 36th International Workshop on Water Waves and Floating Bodies, 2018.04. |
3. |
Changhong Hu, Experimental and Numerical Study of Dam Break Flow Impact on a Vertical Cylinder, The 4th Symposium on Computational Marine Hydrodynamics, 2021.01. |
4. |
Changhong Hu, Numerical and Experimental Study on Sloshing in a Tank with Complicated Inner Structures, The 2nd International Workshop on Numerical and Experimental Modelling of Wave -Structure Interaction, 2020.11. |
5. |
Changhong Hu, Development of a Medium-Scale Floating Offshore Wind Turbine System, International Workshop on Offshore Wind Energy (IWOWE), 2019.12. |
6. |
Changhong Hu, Development of Unstructured Grid Free Surface Flow Solver, The 3rd CMHL Symposium on Computational Marine Hydrodynamics, 2019.12. |
7. |
Jabir AL Salami, Changhong Hu, Kazuaki Hanada, Development of SPH for Simulating Magnetohydrodynamic Flows, Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2019.11. |
8. |
Jabir AL Salami, Changhong Hu, Kazuaki Hanada, Development of SPH method for simulation of liquid metal divertors, The 28th International Toki Conference on Plasma and Fusion Research, 2019.11. |
9. |
Mohamed M. Kamra, Changhong Hu, Numerical Study of Sloshing Motion on Unstructured Mesh Using UMTHINC, The 11th International Workshop on Ship and Marine Hydrodynamics, 2019.09. |
10. |
Yusaku Kyozuka, Daisaku Sakaguchi, Makoto Sueyoshi, Changhong Hu, A floating/submersible shrouded tidal current turbine system applicable in low speed tidal flow, The 13th European wave and tidal conference, 2019.09. |
11. |
Changhong HU, An unstructured grid FVM for violent free surface flows, The 3rd HEU International Workshop on Numerical Tank, 2019.02. |
12. |
Hongzhong Zhu, Changhong Hu, Makoto Sueyoshi, Shigeo Yoshida, A Study on Integration of Wave Energy Converter and Semi-submersible Floating Wind Turbine: A Water Tank Test, the 4th Asian Wave and Tidal Energy Conference (AWTEC 2018), 2018.09. |
13. |
Yingyi Liu, Shigeo Yoshida, Hiroshi Yamamoto, Akinori Toyofuku, Changhong Hu, Makoto Sueyoshi, Hongzhong Zhu, Release of a reliable open-source package for performance evaluation of ocean renewable energy devices, the 4th Asian Wave and Tidal Energy Conference (AWTEC 2018), 2018.09. |
14. |
Cheng Liu, Changhong Hu, CFD Simulation of Tidal Current Farm by Using AL Model, the 13th OpenFOAM Workshop, 2018.06. |
15. |
Cheng Liu, Changhong Hu, Numerical Simulation of Breaking Waves Using Adaptive Mesh Approach, 33rd International Workshop on Water Waves and Floating Bodies, 2018.04. |
16. |
Changhong Hu, Cheng Liu, Simulation of Violent Free Surface Flow by AMR-IBM Method, 10th International Workshop on Ship and Marine Hydrodynamics, 2017.11. |
17. |
Kangping Liao, Wenyang Duan, Qingwei Ma, Shan Ma, Binbin Zhao, Changhong Hu, Numerical analysis of wave impact loads on semi-submersible platform, the ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering, 2017.06. |
18. |
Mohamed M. Kamra, Changhong Hu, Numerical Simulation of Free Surface Impact on a Vertical Cylinder Using UMTHINC, The 27th International Offshore and Polar Engineering Conference, 2017.06. |
19. |
Xuhui Li, Changhong Hu, David Le Touze, Water Entry Simulation by a Lattice Boltzmann Method, 32nd International Workshop on Water Waves and Floating Bodies, 2017.04. |
20. |
Hongzhong Zhu, Changhong Hu, Kangping Liao, Yingyi Liu, A Study on Control of Wave Energy Converter for Motion Suppression of Semisubmersible, 10th IFAC Conference on Control Applications in Marine Systems, 2016.09. |
21. |
Hongzhong Zhu, Changhong Hu, Kangping Liao, Yingyi Liu, Suspension Design of A Semi-Submersible Platform, the ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering, 2016.06. |
22. |
Ping Cheng, Decheng Wan, Changhong Hu, Unsteady Aerodynamic Simulations of Floating Offshore Wind Turbines with Overset Grid Technology, The 26th International Offshore and Polar Engineering Conference, 2016.06. |
23. |
Pengfei Li, Decheng Wan, Changhong Hu, Fully Coupled Dynamic Response of a Semi-submerged FloatingWind Turbine System in Wind and Waves, The 26th International Offshore and Polar Engineering Conference, 2016.06. |
24. |
Xuhui Li, Changhong Hu, Water entry simulation by a GPU accelerated lattice Boltzmann method, 日本船舶海洋工学会春季講演会, 2016.05. |
25. |
Hongzhong Zhu, Changhong Hu, Control of a Combined Floating Platform with Wave Energy Converter for Pitching Reduction, 日本船舶海洋工学会春季講演会, 2016.05. |
26. |
Changhong Hu, Cheng Liu, Improvement of Immersed Boundary Method for Simulation of Fluid-Structure Interaction, 31st International Workshop on Water Waves and Floating Bodies, 2016.04. |
27. |
Cheng Liu, Changhong Hu, Block-Structured AMR method for High Accurate Shock Wave Capturing Schemes, 第29回数値流体力学シンポジウム, 2015.12. |
28. |
Xuhui Li, Changhong Hu, Fei Jiang, Efficient GPU implementation of the multiphase lattice Boltzmann flux solver, 第29回数値流体力学シンポジウム, 2015.12. |
29. |
Changhong Hu, Cheng Liu, Development and Validation of RANS CFD Model for Hydrodynamic Prediction of a Horizontal Tidal Current Turbine, The 11th European wave and tidal conference, 2015.09. |
30. |
Cheng Liu, Changhong Hu, CFD Prediction of the Hydrodynamic Performance of a Horizontal Tidal Current Turbine, The 34th International Conference on Ocean, Offshore and Arctic Engineering, 2015.06. |
31. |
Yingyi Liu, Changhong Hu, Sueyoshi Makoto, Hidetsugu Iwashita, Hydrodynamic Analysis of a Semi-Submersible FOWT by Hybrid Panel-Stick Models, The 25th International Offshore and Polar Engineering Conference, 2015.06. |
32. |
Xuhui Li, Changhong Hu, Comparative Study of Force Evaluation Schemes in Lattice Boltzmann Method for Moving Complex Boundaries, 第28回数値流体力学シンポジウム, 2014.12. |
33. |
Cheng Liu, Changhong Hu, Numerical Simulation of a Horizontal Axis Tidal Turbine Using OpenFOAM, 日本船舶海洋工学会講演会, 2014.11. |
34. |
Xuhui Li, Changhong Hu, Numerical Simulation of Wave-Body Interaction by Lattice Boltzmann Method, 日本船舶海洋工学会講演会, 2014.11. |
35. |
Changhong Hu, Sueyoshi Makoto, Cheng Liu, Yingyi Liu, Hydrodynamic Analysis of a Semi-Submersible Type Floating Wind Turbine, The 11th Pacific/Asia Offshore Mechanics Symposium, 2014.10. |
36. |
Yingyi Liu, Changhong Hu, Sueyoshi Makoto, Shigeo Yoshida, Yuji Ohya, Development of an Integrated Analysis Tool for Semi-Submersible Floating Offshore Wind Turbine System, GRAND RENEWABLE ENERGY 2014, 2014.08. |
37. |
Yusaku kyozuka, Sueyoshi Makoto, Changhong Hu, Yuji Ohya, Demonstration Experiment of Offshore Wind Power Generation by a Hexagonal Floating Platform in Hakata Bay, GRAND RENEWABLE ENERGY 2014, 2014.08. |
38. |
Changhong Hu, Sueyoshi Makoto, Yusaku kyozuka, Shigeo Yoshida, Yuji Ohya, Development of New Floating Platform for Multiple Ocean Renewable Energy, GRAND RENEWABLE ENERGY 2014, 2014.07. |
39. |
Kangping Liao, Changhong Hu, Sueyoshi Makoto, Wave Energy Converter as an Anti-motion Device for Floating Offshore Wind Turbine, GRAND RENEWABLE ENERGY 2014, 2014.07. |
40. |
Cheng Liu, Changhong Hu, CFD Simulation of a Floating Wind Turbine Platform in Rough Sea Conditions, The 24th International Offshore and Polar Engineering Conference, 2014.06. |
41. |
Yingyi Liu, Changhong Hu, Sueyoshi Makoto, Shigeo Yoshida, Yuichiro Honda, Yuji Ohya, Time domain simulation of a semi-submersible type floating wind turbine, The 24th International Offshore and Polar Engineering Conference, 2014.06. |
42. |
Changhong Hu, Cheng Liu, CFD Simulation of Violent Ship-Wave Interactions, The 1st International Conference on Computational Engineering and Science for Safety and Environmental Problems , 2014.04. |
43. |
Cheng Liu, Changhong Hu, CFD Simulation of a Catenary Moored Floating Wind Turbine Platform in Large Waves, 第27回数値流体力学シンポジウム, 2013.12. |
44. |
Changhong Hu, Makoto Sueyoshi, Chen, Liu, Yusaku Kyozuka, Yuji Ohya, Numerical and Experimental Study on a Floating Platform for Offshore Renewable Energy, the ASME 2012 32th International Conference on Ocean, Offshore and Arctic Engineering , 2013.06. |
45. |
Changhong Hu, Kangping Liao, Wenyang Duan, CFD Simulation of Flexible Ship in Regular Head Waves, the ASME 2012 32th International Conference on Ocean, Offshore and Arctic Engineering , 2013.06. |
46. |
CFD Simulation of a Floating Wind Turbine Foundation in Waves. |
47. |
Experimental Study of a Triangular Semi-submergible Floating Body for Wind Turbines. |
48. |
Development of CIP Based Cartesian Grid Method and Its Application to Strongly Nonlinear Wave-Body Interactions. |
49. |
Large-Scale Simulation of Violent Flow Impacting on an Obstacle. |
50. |
Parallel Simulation of RIAM-CMEN for Strongly Nonlinear Wave-Ship Interaction. |
51. |
VIV Simulation of 2-D Deformable Cylinder Using Coupled FDM/FEM Method. |
52. |
Development of a Hybrid LBM/FVM Approach for Numerical Simulation of CO2. |
53. |
2-D Numerical Simulation of Elastic Floating Structure Response to Regular Waves. |
54. |
2-D Numerical Simulation of Elastic Floating Structure Response to Regular Waves. |
55. |
Demonstration Experiment of Offshore Wind Power Generation on a Floating Platform in Hakata Bay. |
56. |
Numerical Simulation of Floating Wind Turbine Platform in Large Waves. |
57. |
Numerical Simulation of Ship Motion in Oblique Waves by CIP based Cartesian Grid Method. |
58. |
Numerical Simulation of Water Wave by THINC Scheme. |
59. |
Numerical Simulation of Strongly Nonlinear Free Surface Problems by CIP Method Changhong Hu and Masashi Kashiwagi 55th National Congress of Theoretical & Applied Mechanics Kyoto, Japan, 24-26 Jan., 2006. |
60. |
Validation of CIP based Method for Strongly Nonlinear Wave-Body Interactions Changhong Hu, Akihiko Kitadai and Masashi Kashiwagi The autumn conference of the Japan Society of Naval Architects and Ocean Engineers Fukuoka, Japan, 24-25 Nov., 2005. |
61. |
On the NTNU Center for Ships and Ocean Structures Changhong Hu The autumn conference of the Japan Society of Naval Architects and Ocean Engineers Fukuoka, Japan, 24-25 Nov., 2005. |
62. |
3D numerical simulation of strongly nonlinear ship-wave interactions by CIP method Changhong Hu, Masashi Kashiwagi The 15th Computational Mechanics Conference Tsukuba University, Japan, 19-21 Nov., 2005. |
63. |
3-D Computation of Ship-Wave Interaction by CIP / Cartesian Grid Method Changhong Hu, Masashi Kashiwagi and Odd Faltinsen 8th Numerical Towing Tank Symposium Varna, Bulgaria, 2-4 Oct., 2005. |
64. |
Recent Progress in CIP Method for Strongly Nonlinear Ship-Wave Interactions Changhong Hu, Masashi Kashiwagi and Odd Faltinsen 4th Interactional Workshop on Ship Hydrodynamics Shanghai, China, 24-27 Sept., 2005. |
65. |
3-D Numerical Simulation of Freely Moving Floating Body by CIP Method Changhong Hu, Odd Faltinsen and Masashi Kashiwagi 15th International Offshore and Polar Engineering Conference Seoul, Korea, 19-24 June 2005. |
66. |
3-D Numerical Simulation of Water-Entry Problem by CIP based Cartesian Grid Method Changhong Hu, Odd Faltinsen and Masashi Kashiwagi 20th International Workshop on Water Waves and Floating Bodies Longyearbyen, Norway, 29 May-1 June, 2005. |
67. |
Development and Validation of CIP based Cartesian Grid Method for Nonlinear Wave-Body Interactions Changhong Hu, Odd Faltinsen and Masashi Kashiwagi 7th Numerical Towing Tank Symposium Hamburg, Germany, 3-5 Oct. 2004.. |
68. |
Numerical Simulation of Violent Sloshing by CIP Method Changhong Hu, Masashi Kashiwagi and Zdravko Kishev 19th International Workshop on Water Waves and Floating Bodies Cortona, Italy, 28-31 March, 2004. |
69. |
Application of CIP-CSL3 Scheme for Capturing Extremely Nonlinear Free Surface Changhong Hu and Masashi Kashiwagi 9th Symposium on Nonlinear and Free-Surface Flows Hiroshima University, Dec. 2003. |
70. |
On the Precision of Numerical Simulation of Wave Impact Phenomenon by CIP Method Changhong Hu and Masashi Kashiwagi The 16th Computational Mechanics Conference Kobe, Nov. 2003. |
71. |
Three Dimensional Numerical Simulation of Water on Deck by CIP Method Changhong Hu, Masashi Kashiwagi and Zdravko The autumn conference of the Society of Naval Architects of Japan Kobe, Nov. 2003. |
72. |
Development of CFD Simulation Method for Extreme Wave-Body Interactions Changhong Hu and Masashi Kashiwagi 8th International Conference on Numerical Ship Hydrodynamics Busan, Korea, Sep. 2003. |
73. |
Numerical Simulation of Extreme Wave-Body Interaction by CIP Method Changhong Hu and Masashi Kashiwagi Mechanical Engineering Congress, 2003 Japan Tokushima University, Aug. 2003. |
74. |
2-D and 3-D Numerical Simulation of Dam Breaking by CIP Method Changhong Hu and Masashi Kashiwagi 17th Ocean Engineering Symposium Tokyo, Jul. 2003. |
75. |
Numerical Simulation of Non-Linear Free Surface Wave Generation by CIP Method and Its Applications Changhong Hu and Masashi Kashiwagi ISOPE 2003 Honolulu, USA, May 2003. |
76. |
Numerical Simulation of Extreme Wave-Body Interaction by CIP Method Changhong Hu and Masashi Kashiwagi The spring conference of the Society of Naval Architects of Japan Tokyo, May 2003. |
77. |
A CIP Based Numerical Simulation Method for Extreme Wave-Body Interaction Changhong Hu and Masashi Kashiwagi 18th International Workshop on Water Waves and Floating Bodies Le Croisic, France, Apr. 2003. |
78. |
2-D Numerical Simulation of Extreme Wave-Body Interactions Changhong Hu and Masashi Kashiwagi 8th Symposium on Nonlinear and Free-Surface Flows Hiroshima University, Dec. 2002. |
79. |
CFD Modeling of Marine Compartment Fires Changhong Hu and Nobuyoshi Fukuchi TECHNO-OCEAN 2002 Kobe, Nov. 2002. |
80. |
CFD Simulations of Nonlinear Waves and Interactions with a Structure Tsutomu Momoki, Masashi Kashiwagi and Changhong Hu TECHNO-OCEAN 2002 Kobe, Nov. 2002. |
81. |
The Characteristic Analysis of Oil Pool Fires Phenomena for Fire Safety Design in Engine Room (Part 1) An Experimental Study on Thermal Properties and States during Oil Burning Nobuyoshi Fukuchi, Jun Takao, Takeshi Shinoda and Changhong Hu The autumn conference of the Society of Naval Architects of Japan Kure, Nov. 2002. |
82. |
Numerical Study on Interaction of Waves with Structures by CIP Method Changhong Hu, Masashi Kashiwagi and Tsutomu Momoki The 15th Computational Mechanics Conference Kagoshima, Nov. 2002. |
83. |
A Study on the Ventilation System of Metallic Fume and the Working Environment in a Fabrication Shop (Part 1) The Analysis of Fume Transportation in Turbulent flow Changhong Hu and Nobuyoshi Fukuchi The spring conference of the Society of Naval Architects of Japan Tokyo, May 2002. |
84. |
A Field Modelling Approach to Predict Hot Gas Movement Induced by Marine Compartment Fires Changhong Hu and Nobuyoshi Fukuchi ISOPE 2002 Kitakyushu, Japan, May 2002. |
85. |
Application of Computational Fluid Dynamics in the Fire Safety Design of Marine Systems Changhong Hu and Nobuyoshi Fukuchi PRADS 2001 Shanghai, China, Sep. 2001. |
86. |
The Characteristic Analysis of Turbulent Diffusion on the Functional Design of Marine Systems (Part 2.) The Effect of Heat Radiation on Turbulent Natural Convection in an Enclosure Changhong Hu, Nobuyoshi Fukuchi and Tohru Nakashima The spring conference of the Society of Naval Architects of Japan Tokyo, May 2001. |
87. |
A Study on Numerical Simulation of Turbulent Natural Convection by LES Changhong Hu and Nobuyoshi Fukuchi No. 102 conference of the West-Japan Society of Naval Architects Shimonoseki, May 2001. |
88. |
Modeling and Numerical Simulation of Turbulent Buoyant Flow in a Compartment Fire Changhong Hu and Nobuyoshi Fukuchi ICES'2K Los Angeles, USA, Aug. 2000. |
89. |
Three Dimensional Numerical Simulation of the Turbulent Thermal Convection in an Open Compartment Changhong Hu, Nobuyoshi Fukuchi and Koichi Yoshida No. 100 conference of the West-Japan Society of Naval Architects Sasebo, May 2000. |
90. |
Computation of Turbulent Thermal Convection with Large Temperature Variation (Part 1) Numerical Simulation of Compressible Flow Using Low Mach-Number Approximation Changhong Hu and Nobuyoshi Fukuchi The autumn conference of the Society of Naval Architects of Japan Nagasaki, Nov. 1999. |
91. |
The Threshold Conditions and Characteristic Analysis of the Marine Fire Spread Phenomena (Part 2) Heat Transfer in Multi-Compartments by Field Mathematical Model Nobuyoshi Fukuchi, Changhong Hu, Hiromasa Ohishi and Hisahiro Fujii The spring conference of the Society of Naval Architects of Japan Tokyo, May 1999. |
92. |
The Effect of Richardson Number and Reynolds Number on Stability of a ShearedDensity Interface Nobuyoshi Fukuchi, Changhong Hu, Takeshi Shinoda, Yousuke Nakamura and Junichi Mori Tokyo, Nov. 1998. |
93. |
Impact Pressure on a Horizontal Platform by a Solitary Wave Yusaku Kyozuka, Susumu Sugiyama, Changhong Hu No. 97 conference of the West-Japan Society of Naval Architects Tokyo, Nov. 1998. |
94. |
A Numerical Analysis in Instability of Stratified Shear Flow Nobuyoshi Fukuchi and Changhong Hu ICES'98 Atlanta, USA, Oct. 1998. |
95. |
A Basic Study on Instability of Stratified Shear Flow Changhong Hu and Nobuyoshi Fukuchi The spring conference of the Society of Naval Architects of Japan Tokyo, May 1998. |