侯国祥:男,博士后,教授,1972年8月生, 2000年于华中科技大学获得船舶工程博士学位,同年进入博士后流动站,2002年3月应邀赴加拿大国家水研究所合作研究,其后赴澳大利亚Adlaide大学,德国布伦瑞克大学合作、讲学;在《Physical Review E.》、《Computers and Fluids》、《Physics of Fluids》、《Chemical Engineering Science》、《China Ocean Engineerin》等期刊上发表论文100多篇,其中50多篇被SCI、EI索引;武汉船舶行业协会副秘书长,湖北省科技协会专家;承担国家自然科学基金、973、863、中央军事委员会科学技术装备委员会、解放军装备研究项目多项。
发表论文与著作
侯国祥,《流体力学》,机械工业出版社,2015年12月
《工程流体力学》,机械工业出版社,2006年7月
侯国祥、王志鹏,《海洋资源与环境》,华中科技大学出版社,2013年2月
80. 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, 000463879900010
81. Wei He, Shuai Yang, Wei Xie, Guoxiang Hou, Research on Motion Reduction of a T-Foil on the Wave-Piercing Catamaran, 2nd International Conference on Frontiers of Materials Synthesis and Processing, Materials Science and Engineering 493 (2019) , 012061, 20191406740892,
82. Wen-Qiang Guo Guo-Xiang Hou, Analysis of vulnerability and recoverability of the Energy System in China based on inoperability Input-Output Model and a Dynamic Extension, 2nd International Conference on Frontiers of Materials Synthesis and Processing, Materials Science and Engineering 493 (2019), 032205, 20193307305602, wos:000491996702110
83. Yuan Gao, Guoxiang Hou*, Liuming Yang, Yang Yu, Chang Shu, Numerical Study of Flow Characteristics Around Underwater Vehicle Model at High Reynolds Number, Proceedings of the Twenty-ninth (2019) International Ocean and Polar Engineering Conference, Honolulu, Hawaii, USA, June 16-21, 2019, 1540-1546, 20183805844877
84. Liuming Yang, Yuan Gao, Shuai Zhao, Yang Yu and Guoxiang Hou, Lattice Boltzmann study on drag reduction of a bluff body by slip boundary, 2019 the 3nd International Conference on Fluid Mechanics and Industrial Applications (FMIA 2019), 012036, 20193707437936
85. Wen-qiang Guo, Guo-xiang Hou, Study on effect of surface roughness on resistance based on results from experiments and simulation with CFD and LBM, 2019 the 3nd International Conference on Fluid Mechanics and Industrial Applications (FMIA 2019), 012039, 20193707437939, WOS:000614875700039
86. Liuming Yang, Yuan Gao, Shuai Zhao, Yang Yu and Guoxiang Hou*, Lattice Boltzmann study on drag reduction of a bluff body by slip boundary[C]. Journal of Physics: Conference Series, 2019, 1300(01):012036. (EI)
87. 陈宝国,赵帅,侯国祥,何巍,船用回转支承疲劳寿命试验机设计,中国水运,19(7),2019,130-131.
88. 贺苗,王泽楠,侯国祥*,张静,刘玉亮,水文气象数据对舰机协同影响模型设计分析,中国水运,18(11),2018,45-47.
89. Liuming Yang, Yang Yu, Liming Yang, Guoxiang Hou, Analysis and assessment of the no-slip and slip boundary conditions for the discrete unified gas kinetic scheme, Physical Review E. Vol. 101(2), 2020,023312, WOS: 000515061900004
90. Binbin Zhou, Guoxiang Hou, The Research on Vibration Mode of a Ship Pump Group, the 2nd annual International Conference on Mechanical Engineering and Materials (ICMEM 2019), 20-21 December 2019, Guangzhou, China, 272-279
91. Liuming Yang, Chang Shu, Yang Yu, Yan Wang, Guoxiang Hou, A mass-conserved fractional step axisymmetric lattice Boltzmann flux solver for incompressible multiphase flows with large density ratio, Physics of Fluids, 2020, 32(10), 103308 (); 0***1000032
92. Liuming Yang, Chang Shu, Zhen Chen, Guoxiang Hou*, Yan Wang, An improved multiphase lattice Boltzmann flux solver for the simulation of flow with large density ratio and complex interface [J]. Physics of Fluids, 2021, 33(1):033306 SCI,
93. Liuming Yang, Chang Shu, Zhen Chen, Yan Wang and Guoxiang Hou*, A simplified lattice Boltzmann flux solver for multiphase flows with large density ratio [J]. International Journal for Numerical Methods in Fluids, 2021, 32(10), 1895-1912.
94. Wen-qiang Guo, Sen-yun Liu, Guo-xiang Hou,* and Yang Yu, A new corner boundary condition for the discrete unified gas kinetic scheme, International Journal for Numerical Methods in Fluids, 2021,93:1520-1539. Wen-qiang Guo, Sen-yun Liu, Guo-xiang Hou∗, Yang Yu, A new corner boundary condition for the discrete unified gas kinetic scheme, International Journal for Numerical Methods in Fluids, 2021,93:1520-1539.
95. Yuan Gao, Liuming Yang, Yang Yu, Guoxiang Hou, Zhongbao Hou, Consistent forcing scheme in the simplified lattice Boltzmann method for incompressible flows, Communications in Computational Physics, 2021, 30(5):1427-1452 DOI: 10.4208/cicp.OA-2021-0058, WOS:000711870700007
96. Yuan Gao, Liuming Yang, Yang Yu, Guoxiang Hou, Zhongbao Hou, Improved simplied and highly stable lattice Boltzmann methods for incompressible flows [J]. International Journal of Modern Physics C, 2021, 32(6):2150077, 10.1142/S0129183121500777, WOS:000652194700008,2022未统计
97. Yuan Gao, Yang Yu, Liuming Yang, Shenglei Qin, Guoxiang Hou, Development of a coupled simplified lattice Boltzmann method for thermal flows, Computers and Fluids, 2021, 229: 105042, WOS:000698616000008
98. Yang Yu, Liuming Yang, Yuan Gao, Guoxiang Hou, Lattice Boltzmann investigation of the
influence of slip distributions on the flow past a diamond cylinder at low-Reynoldsnumber[J]. Physics of Fluids, 2021, 33(1):073611
99. Yang Yu, Liuming Yang ∗, Yuan Gao, Guoxiang Hou ∗, Lattice Boltzmann study of low-Reynolds-number flow past square cylinders with varying slip distributions, Ocean Engineering, 2021, 236, 109425
100. Wenqiang Guo, Guoxiang Hou,*, Yin Guan, Liu, Senyun, numerical study on slip flow using the discrete unified gas-kinetic scheme, International Journal of Numerical Methods for Heat and Fluid Flow, 2022, 32(7), 2476-2505,卷:32期:7页:2476-2505DOI:10.1108/HFF-05-2021-0359出版年:MAY 16 :2022
101. 秦声雷,侯国祥*,郭文强,周斌斌,姜思远,基于格子Boltzmann方法的液润表面减阻规律研究,中国舰船研究,2021年10月,Vol.16,No.5,pp163-171
102. Shenglei Qin, Liuming Yang, Guoxiang Hou, Yuan Gao, Wenqiang Guo, Jiahao Shi, A one-step simplified lattice Boltzmann method without evolution of distribution functions, International Journal for Numerical Methods in Fluids, 2022;1–25, WOS:000773376100001
103. Wenqiang Guo (郭文强), Guoxiang Hou (侯国祥), Anisotropic slip boundary condition for three-dimensional Lattice Boltzmann simulations of liquid microflows, Physics of Fluids, 2022, 34(7) 072008
104. Wenqiang Guo (郭文强), Guoxiang Hou (侯国祥), Three-dimensional simulations of anisotropic slip microflows 3 using the discrete unified gas kinetic, Entropy 24(7): 907 (2022)【B, 2.738】
105. Qiaodan Chen (陈乔丹), Jun Duan (段军), Zhongbao Hou (侯中葆), Guoxiang Hou (侯国祥)*, and Leimin Deng (邓磊敏) *,Effect of the surface pattern on the drag property of the superhydrophobic surface, Physics of Fluids, 34(11), 114113 (2022 )
106. Liuming Yang, Shicheng Liu, Lei Ao, Yang Yu*,‡ Guoxiang Hou†,‡ Yan Wang, Development and assessment of the interface lattice Boltzmann flux solvers for multiphase flows, International Journal of Modern Physics C, Vol. 33, No. 12 (2022) 2250165
107. Miao He, Zailin Guan*, Chuangjian Wang, Guoxiang Hou*, Multiple-Rack Strategies Using Optimization of Location Assignment Based on MRCGA in Miniload Automated Storage and Retrieval System, Processes 2023, 11(3), 950.
1. 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); 000454631000032
2. Li Chen, Yang Yu, and Guoxiang Hou∗, Sharp-interface immersed boundary lattice Boltzmann method with reduced spurious-pressure oscillations for moving boundaries, Physical Review E. Vol. 87(5), 2013,053306, WOS:000319806400006
3.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
4. 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, 000423643600006
5. 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, 000447099100014
6.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, 000435140600001
7.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, 000424351700001
8. Li Chen, Yang Yu, Guoxiang Hou∗, 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, Vol. 74, 2014, pp439-467, WOS:000329509500004,20140317200160
9. Yang Yu, Li Chen, Jianhua Lu, Guoxiang Hou∗, A coupled lattice Boltzmann and Particle Level Set method for free-surface flows, ScienceAsia 40 (2014): 238–247 WOS: 000341405200008
10. KaiWang, Yao Zhang, Yang Yu, Guo-Xiang Hou∗, Feng Zhou, Yang Wu, Simulation of boundary slip on a liquid-solid surface based on the lattice Boltzmann method, ScienceAsia 41 (2015): 130–135 WOS:000359364700008
11. 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, 000407470000001
12. Yujia Huang, Baiwei Feng, Guoxiang Hou, Liang Gao, Mi Xiao, Homotopy method for inverse design of the bulbous bow of a container ship, China Ocean Engineerin, Vol. 31(1) , 2017, pp98–102, 000392625000012
13. Peng Yu-cheng, Chen Xi-yang, Cao Yan, Hou Guo-xiang, Numerical Study of Cavitation on the Surface of the Guide Vane in Three Gorges Hydropower Unit, Journal of Hydrodynamics, Vol.22, No.5, 2010.10, pp703-708 (SCI:000285816200013)
14.Yang Yu, Li Chen, Jianhua Lu, Guoxiang Hou∗, An improved surface tension and wall adhesion model for free-surface flows in the lattice Boltzmann method, International Journal of Applied Mathematics & Statistics, Vol. 46(16),2013, pp 324-340, 20134016797645
15.Chen Li, Yu Yang, Hou Guoxiang, A sharp interface immersed boundary lattice Boltzmann method with reduced spurious pressure oscillations for moving boundaries, The 4th International Conference on Computational Methods (ICCM2012), Gold Coast, Australia
16.Chunxu Wang, Tao Zhang, Guoxiang Hou, Haifei Zhu, Noise prediction of submerged free jet based on Kirchhoff formulation, Journal of Ship Mechanics, 14(3), 2010, 305-313
17.Chunxu Wang, Tao Zhang, Guoxiang Hou, Noise prediction of submerged free jet based on theory of vortex sound, Journal of Ship Mechanics, 14(6) , 2010, 670-677
18.Guoxiang Hou, Yujia Huang, Yuting Fei*,Kai Wang, Biao Gu, Calculation method of force and power of flap-type wave generator, 2015 International Conference on Frontiers of Manufacturing Science and Measuring Technology (ICFMM2015), 2015,12,18,432-439
19.Kai Wang, Yang Yu, Liuming Yang, Guoxiang Hou*, Lattice Boltzmann based internal wave-maker, Proceedings of the Twenty-seventh (2017) International Ocean and Polar Engineering Conference,San Francisco, CA, USA, June 25-30, 2017, 775-781
20.Wei Chen, Hao Zhang, Lei Wang, Wenjun Leng, Guoxiang Hou, Drag Calculation of Macroscopic Objects with Riblet Microstructure, Proceedings of the Twenty-seventh (2017) International Ocean and Polar Engineering Conference,San Francisco, CA, USA, June 25-30, 2017, 858-864
21.Qi-fei YU, Guo-xiang HOU*, Yang-jian DING, Bo LI, The Research on Mechanical Impedance of the Base for Some Ships’ Pump Group, 2018 International Conference on Electrical, Control and Mechanical Engineering (ECME2018), 236-244
22.Zenan Wang, Jing Zhang, Guoxiang Hou*, Yuliang Liu, The design of warship and aircraft collaborative operation analytical system based on ocean hydrometeorological data, 2018 International Conference on Resources, Energy and Environmental Technology (REET 2018) Qingdao, China, April, 2018, 032153, 20183405737132
23.Xinxiong Liu, Jing Zhang, Guoxiang Hou, Zenan Wang, Virtual reality and its application in military, 2018 International Conference on Resources, Energy and Environmental Technology (REET 2018) Qingdao, China, April, 2018, 032155, 20183405737134
24.Liuming Yang, Guoxiang Hou*, Yang Yu, Kai Wang, Lattice Boltzmann Simulation on Drag Reduction by Adhesion-regulated Superhydrophobic Surfaces, Proceedings of the Twenty-eighth (2018) International Ocean and Polar Engineering Conference,Sapporo, Japan, June 10-15, 2018, 155-162, 20183805844877
26.胡犇,许晟,梅国辉,侯国祥,基于Patran的小水线面双体船有限元结构强度分析,船舶科学技术,33(10), 2011,47-49.
27.王春旭,邹建,张涛,侯国祥,水下湍射流噪声试验研究, 船舶力学,14(1), 2010,172-180.
28.唐振远,侯国祥,有限水深格林函数的计算, 船舶力学,14(1-2), 2012,172-180.
29.郑礼建,许晟,左文锵,侯国祥,LPC快艇加装声呐球鼻模型阻力试验,船海工程,40(205),2011,77-78.
30.上官纯飞,侯国祥,某型仿生船水动力性能数值验证研究,船海工程,42(212),2013,53-56.
31.陈力,余洋,侯国祥,格子Boltzmann方法的声学运动边界比较研究,气体物理,2012,7(4),60-69
32.Yang Yu, Li Chen, Jianhua Lu, Guoxiang Hou, An improved single-phase free-surface lattice Boltzmann model with surface tension and wall adhesion, Applied Mechanics and Materials, Vol. 300-301, 2013, pp 1062-1066
32.陈力, 余洋, 侯国祥, 基于格子Boltzmann方法的适用于声学运动边界的比较研究,计算流体力学研究进展(第十五届全国计算流体力学会议论文集)
34.肖伟,侯国祥,穿浪双体船纵向运动的理论预报研究,中国水运,13(2),2013,2-4.
36.黄兴,肖伟,侯国祥,穿浪双体船的阻力性能分析,中国水运,13(2),2013,5-6.
37.Yang Yu, Li Chen, Jianhua Lu, Guoxiang Hou, Numerical simulation of filling process in casting based on a hybrid lattice Boltzmann and particle level set model, Applied Mechanics and Materials, Vol. 345, 2013, pp 349-352
38.Li Chen, Yang Yu, Guoxiang Hou, Flow-induced noise radiation from the rotational bodies based on fluid mechanics using hybrid immersed boundary lattice-Boltzmann/FW-H method, Applied Mechanics and Materials, Vol. 345, 2013, pp 345-348
39. 刘伟,侯国祥,许晟,王永宁,杨帅,带自控翼穿浪双体船纵向运动研究,舰船科学技术,36(6), 2014,26-30.
40. 王志鹏,侯国祥,余洋,许晟,祝玉梅,两种三维数值造波方法的对比研究,流体动力学
41. 陈游洋,侯国祥,综合集成桅杆的简化研究,船海工程,Vol. 42(212),2013,53-56.
42. 陈游洋,侯国祥,张维衡,刘土光,基于双缩尺比的桅杆振动研究,船海工程,42(212),2013,53-56.
43. 刘伟,侯国祥,转舵速度对船舶操纵性影响研究,中国水运,13(2),2013,5-6.
44. Fei Yu-Ting, Hou Guo-Xiang*, Wang Kai, Yu Yang, Development of Seakeeping Test and Data Processing System, International Journal of Computational Engineering Research (IJCER), Vol. 5(1), 2015, pp 33-39
45. 张耀,王凯,杨帅,陈晨,费宇庭,侯国祥,基于船舶耐波性评价的型线优化,中国舰船研究,2015年12月,Vol.10,No.6,pp8-14
46.Yao Zhang, Kai-Wang, Guo-Xiang Hou†, Research on motion reduction of wave-piercing catamaran with automatic control flap and T-foil, 2nd Annual International Conference on Mechanics and Mechanical Engineering [MME 2015], Chengdu, China, December 534-542, 2015
47. 吴廉巍,冯伟,余海涛,侯国祥,航速对舱底泵抽吸性能的影响,中国水运,16(8),2016,28-30.
49. Yujia Huang, Guoxiang Hou†, Baiwei Feng, An inverse design of the bulbous bow of KCS container ship, Proceedings of the Twenty-sixth (2016) International Ocean and Polar Engineering Conference, Rhodes, Greece, June 26-July 1, 922-926, EI: 20163802824914
50. Shao-Quan Deng, Guo-Xiang Hou, A Numerical Study on the Resistance Prediction of a Medium Speed Craft, 3nd Annual International Conference on Mechanics and Mechanical Engineering [MME 2016], Chengdu, China, December, 2016
51. Kang Chen, Pei-Tao Yang, Guo-Xiang Hou, Design of fatigue life testing machine for slewing bearing based on LabView, 3nd Annual International Conference on Mechanics and Mechanical Engineering [MME 2016], Chengdu, China, December, 2016
52. 张超,许士华,梅国辉,祝玉梅,侯国祥,台湾海峡高速三体船型船长论证,中国水运,17(3),2017,1-4.