Hou Guoxiang
Faculty Content
Professor
Email: houguoxiang@163.com
Academic Areas: Computational fluid dynamics (CFD),
Research Interests: Lattice Boltzmann method (LBM) and its applications, Multiphase flow simulation, Drag Reduction by Slippery Surfaces, Fluid Noise Prediction and Control
Academic Degrees
September, 1995- May, 2000: Ph.D. in Dept. of Naval Arch. & Ocean Eng., HUST
September, 1991-July, 1995: Bachelor. S. in Dept. of Naval Arch. & Ocean Eng., HUST
Professional Experience
1. November, 2006 – Present: Professor in School of Naval Architecture and Ocean Engineering, HUST
2. February, 2002 – November, 2006: Associate Professor in School of Transportation Science and Engineering, HUST
3. May, 2000 – January, 2002: Postdoctoral in College of Hydropower & Digitalization Engineering, HUST
Publications
1. Kai Wang, Zhenhua Chai, Guoxiang Hou∗, Wei Chen, Sheng Xu, Slip boundary condition for lattice Boltzmann modeling of liquid flows, Computers and Fluids, 161 (2018): 60–73
2. Kai Wang, Guoxiang Hou‡,Wei Chen, Sheng Xu, Shihua Xu, A coupled lattice Boltzmann and fractal geometry method for laminar liquid flows, Fluid Dynamics Research, Vol.50 2018, 045506
3. Wei Chen, Kai Wang, Lei Wang, Guoxiang Hou, Wenjun Leng, Lattice Boltzmann study of slip flow over structured surface with transverse slots, Fluid Dynamics Research, Vol.50, 2018, 025511
4. Liuming Yang, Yang Yu, Guoxiang Hou∗, Kai Wang, Yeping Xiong, Boundary conditions with adjustable slip length for the lattice Boltzmann simulation of liquid flow, Computers and Fluids, 174 (2018): 200–212
5. Yujia Huang, Baiwei Feng, Guoxiang Hou*, Liang Gao, Mi Xiao, Homotopymethod for inverse design of the bulbous bow of a container ship, China Ocean Engineerin, Vol. 31(1), 2017, 98–102
6. Yujia Huang, Guoxiang Hou†, Xide Cheng, Baiwei Feng, Liang Gao, Mi Xiao, A new vortex search algorithm with gradient-based approximation for optimization of the fore part of KCS container ship, J Mar Sci Technol, Vol. 22(3), 2017, 403-413
7. Wang, Kai, Zhang, Yao, Yu, Yang, Hou, Guoxiang*, Zhou, Feng, Wu, Yang, Simulation of boundary slip on a liquid-solid surface based on the lattice Boltzmann method, ScienceAsia, 2015, 41(2), 130-135
8. Chen, Li, Yu, Yang, Lu, Jianhua, Hou, Guoxiang*, A comparative study of lattice Boltzmann methods using bounce-back schemes and immersed boundary ones for flow acoustic problems, International Journal for Numerical Methods in Fluids, 2014, 74(6), 439-467
9. Yu, Yang, Chen, Li, Lu, Jianhua, Hou, Guoxiang*, A coupled lattice Boltzmann and particle level set method for free-surface flows, ScienceAsia, 2014, 40(3), 238-247
10. Chen, Li, Yu, Yang, Hou, Guoxiang*,Sharp-interface immersed boundary lattice Boltzmann method with reduced spurious-pressure oscillations for moving boundaries, PHYSICAL REVIEW E, 2013, 87(5), 053306-1-053306-11
11. Liuming Yang, Yang Yu, Huijie Pei, Yuan Gao, Guoxiang Hou, Lattice Boltzmann simulations of liquid flows in microchannel with an improved slip boundary condition, Chemical Engineering Science, 202(2019), 105-117
12. Kai Wang, Liuming Yang, Yang Yu, Guoxiang Hou∗, Influence of slip boundary on the hydrofoil with a curved slip boundary condition for the latticeBoltzmann method, Physics of Fluids, 30, 123601 (2018)
Courses Taught
Engineering Fluid Dynamics, Undergraduate
Computational fluid dynamics (CFD), Graduate
Project
1. Research on hydrodynamic noise prediction of underwater vehicle based on the lattice Boltzmann method, National Natural Science Foundation of China (No. 51475179)
2. Study on the theory and experiment on friction reduction of ship resistance, National Natural Science Foundation of China (No. 51679099)
3. Study on the theory and experiment for drag reduction of the Autonomous Underwater Vehicle, National Natural Science Foundation of China (No. 51979115)
4. Research on Mechanism and Key Technology of Anti-pollution and Reducing Resistance of Boats and Ships, National Defense Science and Technology Innovation Special Zone Project
5. Study on hydrodynamic characteristics of seawater circulation cooling system, China Ship Research and Design Center
Awards
