王汉封

教授 博士生导师 硕士生导师

所在单位:土木工程学院

办公地点:高速铁路建造技术国家工程实验室,风洞实验室205

联系方式:wanghf@csu.edu.cn Email:wanghf@csu.edu.cn Mobile:13875856504

学位:工学博士学位

主要任职:风洞实验室主任

其他任职:土木工程国家级实验教学示范中心副主任

学科:土木工程

学术成果

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Journal Papers: 

1. Yi Wu, Hanfeng Wang, Zhaohui Liu, Jing Li, Liqi Zhang, C. Zheng, Experimental Investigation on Turbulence Modification in a Horizontal Channel Flow at Relatively Low Mass Loadings, Acta Mech. Sinica, 2006, 22: 99-108. pdf

2. H.F. Wang, Y. Zhou, C.K. Chan & K.S. Lam Effect of initial conditions on interaction between a boundary layer and a wall-mounted finite-length-cylinder wake, Physics of Fluids, 2006, 18: 065106 

3. Wang H F, Zhou Y, Zhou T M & Chan C K 2009 Momentum and heat transport in a finite-length-cylinder wake, Experiments in Fluids. 46, 1173-1185. 

4. Hanfeng Wang, Yu Zhou. The finite-length square cylinder near wake. Journal of Fluid Mechanics, 2009, 638, 453-490. 

5. T. Zhou, H. Wang, S.F. Mohd. Razali, Y. Zhou & L. Cheng. Three dimensional vorticity measurements in the wake of a yawed circular cylinder. Physics of Fluids, 2010, 22, 015108. 

6. H.F. Wang, S.F. Mohd Razali, T.M. Zhou, Y. Zhou & L. Cheng Streamwise evolution of an inclined cylinder wake. Experiments in Fluids, 2011, 51: 553-570. 

7. H.F. Wang, Y. Zhou & J. Mi Effects of aspect ratio on the drag of a wall-mounted finite-length cylinder in subcritical and critical regimes. Experiments in Fluids, 2012, 53: 1-14 

8. J. Li, H.F. Wang, Z.H. Liu*, S. Chen & C.G. Zheng An experimental study on turbulence modification in the near-wall boundary layer of a dilute gas-particle channel flow. Experiments in Fluids, 2012, 53: 1385-1403. 

9. Bao S., Chen S., Liu Z.H., Li J., Wang H.F. & Zheng C.G. Simulation of the flow around an upstream transversely oscillating cylinder and a stationary cylinder in tandem. Physics of Fluids, 2012, 24(2): 023603.

10. H. Wang, M. Xu. Intermittency of vortex shedding in the near wake of a finite-length square prism, pp 173-178. inY. Zhou et al. (eds.)Fluid-Structure-Sound Interactions and Control,Lecture Notes in Mechanical Engineering, 2014,  Springer-Verlag, Berlin Heidelberg, 2014.

11. H.F. Wang, Y. Zhou, POD analysis of a finite-length cylinder near wake, Experiments in fluids. 2014, 55: 1790.

12. X.H. He, Y.F. Zou, H.F. Wang, Y. Han & K. Shi Aerodynamic characteristics of a trailing rail vehicles on viaduct based on still wind tunnel experiments. Journal of Wind Engineering and Industrial Aerodynamics, 2014, 135: 22-33.

13. H.F. Wang, C. Zou, Y.P. Zhang Vortex Shedding Intermittensy and Its Effects on the Aerodynamics Forces of a Finite-Length Square Cylinder, in Y. Zhou et al. (eds.) Fluid-Structure-Sound Interactions and Control,Lecture Notes in Mechanical Engineering, 2016,  Springer-Verlag, Berlin Heidelberg, 2016.

14. Jing Li, Hanfeng Wang*, Yan Xiong, Guifeng Jiang, Zhaohui Liu & Chuguang Zheng. Experimental investigation on turbulence modification in a dilute gas-particle axisymmetric opposed jets flow. Chemical Engineering Journal, 2016, 286: 76-90.

15. H.F. Wang, Y. Zhou, C. Zou & X.H. He  Aerodynamic Drag Reduction of an Ahmed Body Based on Deflectors. Journal of Wind Engineering and Industrial Aerodynamics, 2016, 148: 34-44.

16. X. Luo, T. Zhou, Y. Zhou, H. Wang & L. Cheng Experimental invesigation on wake Characteristics sbehind a yawed square cylinder. Journal of Fluids and Structures, 2016, 61: 274-294.

17. Wang HF, Peng S, Zhou Y & He XH Transition along a finite-length cylinder in the presence of a thin boundary layer. Experiments in Fluids, 2016,2016, 57(5):1-10

18. Xuhui He, Kang Shi,Teng Wu,Yunfeng Zou, Hanfeng Wang, Hongxi Qin. Aerodynamic performance of a novel wind barrier for train-bridge system. Wind and Structures, 2016, 23 (3): 171-189 

19. Xia C, Wang HF, Shan XZ, Yang ZG & Li QL. Effects of ground configurations on the slipstream and near wake of a high-speed train.  Journal of Wind Engineering and Industrial Aerodynamics, 2017, 168: 177-189

20. He XH, Li H, Wang HF*, Fang DX & Liu MT Effects of geometrical parameters on the aerodynamic characteristics of a streamlined flat box girder. Journal of Wind Engineering and Industrial Aerodynamics, 2017, 170: 56-67

21. Wang HF, Zhao XY, He XH & Zhou Y Effects of oncoming flow conditions on the aerodynamics forces on a cantilevered square cylinder, Journal of Fluids and Structures, 2017, 75:140-157.

22. HQ Ji, XH He, YF Zou, HF Wang In-plane modal frequencies and mode shapes of two stay cables interconnected by uniformly distributed cross-ties. Journal of Fluids and Structures, 2018, 417: 38-55.

23. Chao Xia, Hanfeng Wang, Di Bao & Zhigang Yang Unsteady flow structures in the wake of a high-speed strain. Experimental thermal and fluid science, 2018, 98: 381-396.

24. Hanfeng Wang , Si Peng, Ying Li & Xuhui He Control of the aerodynamic forces of a finite-length square cylinder with steady slot suction at its free end. Journal of Wind Engineering and Industrial Aerodynamics, 2018, 179: 338-348.

25. Wang H.F., Peng S., Li S.Q. (2019) Control of the Aerodynamic Forces of a Cantilevered Square Cylinder with Free-End Suction. In: Zhou Y., Kimura M., Peng G., Lucey A., Huang L. (eds) Fluid-Structure-Sound Interactions and Control. FSSIC  2017. Lecture Notes in Mechanical Engineering. Springer, Singapore.

26. Azlin Mohd Azmi,Tongming Zhou, Yu Zhou, Hanfeng Wang & Liang Cheng. Coherent structures in a screen cylinder wake. Physical Review Fluids, 2018, 3: 074702.

27.  Wei Guo, Zhipeng Zhai, Hanfeng Wang, Qiongxiang Liu, Kai Xu, Zhiwu Yu.  Shaking Table Test and Numerical Analysis of an Asymmetrical Twin-Tower Super High-rise Building Connected with Long-span Steel Truss.  The structural design of tall and special buildings, 2019, e1630, DOI: 10.1002/tal.1630

28. Li Ying, Li Shiqing, Zeng Lingwei & Wang Hanfeng*. Control of the VIV of a cantilevered square cylinder with free-end suction. Wind and Structures, 2019, Vol. 29. No. 1, 75-84.

29. Si Peng, Hanfeng Wang*, Lingwei Zeng & Xuhui He  Low-frequency dynamics of the flow around a finite-length square cylinder. Experimental Thermal and Fluid Science, 2019,109,109877.

30. Huan Li, Xuhui He, Hanfeng Wang & Ahsan Kareem  Aerodynamics of a scale model of a high-speed train on a streamlined deck in cross winds. Journal of Fluids and Structures, 2019, 91, 102717.

31. Li H., He XH., Wang HF., Peng S., Zhou S. & Hu L. Aerodynamics of a  2D bluff body with the cross section of a train. Advances in Structure Engineering. 2020,23(12)2679-2693.

32. He XH., Li H., Hu L., Wang HF. & Karrem A. Cross wind aerodynamic characteristics of a stationary interior railway carriage through a long-span truss girder bridge. Engineering structure, 2020, 208, P110350. 

33. Y. Wang, J. Wang, X. Xiao, S. Wang, P.T. Kien, J. Dong, J. Mi, X. Pan, H. Wang*, M. Xu, Multi-functional wind barrier based on triboelectric nanogenerator for power generation, self-powered wind speed sensing and highly efficient windshield. Nano Energy, 2020, 73, 104736. (https://doi.org/10.1016/j.nanoen.2020.104736)

34. Zeng Lingwei, Wang Hanfeng, Li Ying, He Xuhui, Measurement for the Thickness of Water Droplets/Film on Curved Surface with Digital Image Projection (DIP) Technique. Sensor, 2020, 20(8), 2409. (https://www.mdpi.com/1424-8220/20/8/2409)

35. Xiaoyu Shi, Md. Mahbub Alam, Honglei Bai & Hanfeng Wang, The effect of Reynolds number on the elliptical cylinder wake, Wind and Structures, 2020, 30(5), 525-532.

36. Hanfeng Wang, Lingwei Zeng,  Md. Mahbub Alam, Wei Guo, LES of the flow around a finite-length square cylinder with free-end slot suction, Wind and Structures, 2020, 30(5), 533-546.

37. Simin Zou, Xuhui He, Hanfeng Wang Numerical investigation on the crosswind effects on a train running on a bridge, Engineering Applications of Computational Fluid Mechanics, 2020, 14:1, 1458-1471, DOI: 10.1080/19942060.2020.1832920 (https://doi.org/10.1080/19942060.2020.1832920)

38. Shijun Chu, Chao Xiao, Hanfeng Wang, Yajun Fan, Zhigang Yang Three-dimensional spectral proper orthogonal decomposition analyses of the turbulent flow around a seal‑vibrissae‑shaped cylinder, Physics of Fluids, 2021, 33, 025106. (https://doi.org/10.1063/5.0035789)

39. E. Deng, Weichao Yang, Xuhui He, Zhihui Zhu, Hanfeng Wang, Youwu Wang, Ang Wang, Lei Zhou Aerodynamic response of high-speed trains under crosswind in a bridge-tunnel section with or without a wind barrier, Journal of Wind Engineering and Industrial Aerodynamics, 2021, 210, 104502. 

40. Chongyu Zhao,Hanfeng Wang,Lingwei Zeng,Md. Hahbub Alam , Xiaoyan Zhao   Effects of oncoming flow turbulence on the near wake and forces of a 3D square cylinder.pdf 

. Journal of Wind Engineering and Industrial Aerodynamics, 2021, 214, 104674. 

41. Md. Mahbub Alam, Liming Chao, Shafiqur Rehman, Chunning Ji, Hanfeng Wang Energy harvesting from passive oscillation of inverted foil. Physics of Fluids, 2021 (submitted)

42. Lingwei Zeng, Hanfeng Wang, Liangqiao Li, Guo Wei, Fumin Yi Experimental investigation on the pressure on platform screen door in a subway station. Tunnelling and Underground Space Technology, 2021 (submitted).




1、王汉封 有限长度钝体尾流的三维特性,中南大学学报,2011,42(2):495-500.

2、栗晶; 王汉封; 柳朝晖; 陈胜; 郑楚光 气固两相槽道湍流拟序结构变动的PIV测量,工程热物理学报,2011, 32(7):1157-1160.

3、王汉封、栗晶、 柳朝晖、 郑楚光 水平槽道内气固两相湍流中颗粒行为的PIV实验研究,实验流体力学,2012, 26(3):38-44.

4、栗晶、蒋贵丰、王汉封、 易超、 柳朝晖、 郑楚光 稀疏气固两相湍流边界层拟序结构变动特性,化工学报,2012, 63(11):3407-3417.

5、王汉封、徐萌霞 有限长正方形棱柱绕流的双稳态现象,力学与实践,2013,35(3):,46-50.

6、王汉封、邹超、张运平 利用导流板控制25°倾角Ahmed类车体尾流与气动阻力,湖南大学学报,2014, 41(4):94-100.

7、 王汉封、张运平、邹超 导流板对25°倾角Ahmed类车体尾流与气动阻力的影响 ,实验流体力学,2014, 28(1):31-37.

8、王汉封、刘卓峰、林祥德 圆柱尾流中眼镜蛇探针与热线的性能对比,实验流体力学,2014, 28(5):104-110.

9、王汉封、徐胜金 用POD方法研究有限长正方形棱柱尾流的双稳态现象,空气动力学学报,2014, 32(6):827-832.

10、王汉封、邹超 均匀流中悬臂圆柱体气动力雷诺数效应, 湖南大学学报,2015,42(5):65-71.

11、王汉封、邹超、赵东伟、王启文. 高宽比为5的悬臂正方形棱柱气动力特性,实验流体力学,2015, 29(6):8-15.

12、王汉封、扬帆、 邹超、邹云峰  边界条件对有限长正方形棱柱气动力的影响,振动与冲击,2016,35(5):39-46.

13、彭思、王汉封、李石清 顶部定常吸气对高层建筑模型气动力的影响,哈尔滨工业大学学报,2017,49(12): 159-164.

14、张明超、王汉封、杨帆 等  近壁圆柱气动力的雷诺数效应,水动力学研究与进展,2018,33(5):666-673.

15、李石清、王汉封、罗元隆、罗振兵 不同湍流边界层中高层建筑模型气动力特性,中南大学学报(自然科学版),2020,51(6),1606-1614.

16、赵崇宇、王汉封 利用顶部柔膜颤振抑制三维方形棱柱气动力,气体物体,2021,6(3):68-76.

17、曾令伟、王汉封、彭思 自由端狭缝吸气控制三维方柱绕流,空气动力学学报,2019,已录用

18、曾令伟、易富民、黎良桥、王汉封 地铁车站站台门风压特性试验研究,实验流体力学,2020,已录用




Conference Paper

1. Wang Hanfeng POD analysis of the finite-length square cylinder wake, 7th International Colloquium on Bluff Body Aerodynamics and Applications (BBAA7),Sep. 2-6, 2012,Shanghai,China

2. Wang Hanfeng, Xu Mengxia. Control of the aerodynamic drag of Ahmed model with slot jet, 7th International Colloquium on Bluff Body Aerodynamics and Applications (BBAA7),Sep. 2-6, 2012,Shanghai,China

3 王汉封,徐萌霞. 有限长正方形棱柱绕流的双稳态现象, 第七届全国流体力学学术会议, 2012年11月12-14日,广西,桂林

4. 王汉封,徐胜金. 基于POD方法识别有限长钝体尾流形态,第十六届全国结构风工程会议,2013年7月29日-8月3日,四川,成都

5. Wang Hanfeng, Wang Qiwen, Zou Chao, Zhang Yunfping. Vortex shedding intermittency of a finite-length cylinder and its effects on the aerodynamics forces. 11thUKWind Engineering Society Conference, WES  2014,Sep. 8-10, 2014,Birmingham,UK

6. Wang Hanfeng, Zou Chao, Zhang Yunping. Control of the Near Wake and Aerodynamic Drag of an Ahmed Model with Deflectors, 11th UK Wind Engineering Society Conference, WES  2014, Sep. 8-10, 2014, Birmingham, UK

7. Wang Hanfeng, Zou Chao, Zhang Yunping. Vortex shedding intermittency and its effects on the aerodynamic forces of a finite-length square cylinder. 3rd Symposium on Fluid Structure Sound Interaction and Control (FSSIC 3),Perth,Western Australia, 5-9, July, 2015

8. 王汉封,扬帆,邹超. 边界条件对有限长正方形棱柱气动力的影响,第十七届全国结构风工程学术会议,2015年8月14-19日,湖北,武汉

9. Wang Hanfeng, Peng Si, He Xuhui, Zhou Yu. Effects of oncoming flow conditions on the aerodynamic forces of a cantilevered square prism. the 8th International Colloquium on Bluff Body Aerodynamics and Applications (BBAA VIII), Northeastern University inBoston,USA,June 7-11, 2016. 

10. 王汉封,彭思,赵东伟. 来流条件对有现场正方形棱柱气动力的影响,第九届全国流体力学学术会议,2016年10月20-23,南京

11. 王汉封,彭思,邹超. 尾部导流板对类车体尾流与气动力的控制作用,第16届分离流、涡旋与流动控制会议,2016年10月27-30日,湖南,长沙

12. 彭思,王汉封,李石清. 顶部吸气对高层建筑模型气动力的影响, 第18届全国结构风工程学术会议暨第4届全国风工程研究生论坛,2017年8月16-19日,湖南,长沙

13. 李石清,王汉封,罗元隆. 参考风速对简化高层建筑模型气动力量纲一化的影响, 第18届全国结构风工程学术会议暨第4届全国风工程研究生论坛,2017年8月16-19日,湖南,长沙

14. 张明超,王汉封,彭思. 近壁面圆柱体气动力雷诺数效应, 第18届全国结构风工程学术会议暨第4届全国风工程研究生论坛,2017年8月16-19日,湖南,长沙

15. H.F. Wang, S. Peng, S.Q. Li Control of the aerodynamic forces of a cantilevered square cylinder with free-end suction, the 4th Symposium on Fluid Structure Sound Interaction and Control (FSSIC 4), Tokyo, Japan, 21-24, Aug. 2017 (Organized by Nihon University)

16. Huan Li, Xuhui He, Hanfeng Wang, Mengting Liu Investigations on the Strouhal numbers of stationary flat-box girder,the 4th Symposium on Fluid Structure Sound Interaction and Control (FSSIC 4), Tokyo, Japan, 21-24, Aug. 2017 (Organized by Nihon University)

17. Simin Zou, Xuhui He, Hanfeng Wang Aerodynamic characteristics of vehicle-bridge systen to cross wind,the 4th Symposium on Fluid Structure Sound Interaction and Control (FSSIC 4), Tokyo, Japan, 21-24, Aug. 2017 (Organized by Nihon University)

18. 李石清,王汉封,彭思. 顶部吸气对高层建筑模型抗风性能的影响,首届中国空气动力学大会,2018年8月15-19,四川,绵阳

19. 李颖,王汉封,何旭辉. 基于图像处理的水膜厚度测量方法,首届中国空气动力学大会,2018年8月15-19,四川,绵阳

20. 曾令伟,王汉封. 自由端狭缝吸气控制方柱绕流,第19届全国结构风工程学术会议,2019年4月, 福建,厦门

21. 李振圻,王汉封,曾令伟 并列二维板尾流及气动力研究,第19届全国结构风工程学术会议,2019年4月, 福建,厦门

22. Hanfeng Wang, Lingwei Zeng, Si Peng, Xuhui He. A novel method for suppressing the VIV of a finite-length square cylinder. The 15th International Conference on Wind Engineering (ICWE), September 1-6, 2019, Beijing, China.

23. Lingwei Zeng, Hanfeng Wang*, Si Peng, Control of the flow around a three-dimensional square cylinder with free-end slot suction, the 19th Symposium on Advances in Structural Engineering and Mechanics (ASEM19), Jeju island, Korea, 17-21, Sep. 2019.

24. 赵崇宇,王汉封,利用顶部柔性薄膜颤振控制三维方柱气动力,第18届全国分离流、漩涡和流动控制会议,2020年10月,山西,太原

25. LingWei Zeng, Hanfeng Wang* ChongYu Zhao. Effect of oncoming turbulence intensity on the flow around a finite-length square cylinder.The 24th Annual Conference of HKSTAM 2020 in conjunction with The 16th Shanghai, Hong Kong.(2020,12, 5).


专 利:

(1) 一种涡街风速计, 王汉封 李卓峰 余志武 李耀庄. 发明专利 ZL201310097907.X


(2) 测压管用限流夹, 王汉封 陈海洋 李欢 王祯伟 李耀庄. 发明专利 ZL201420078377.4


(3) 高速列车横风扰流装置, 彭思 王汉封 杨少杭 蒋东 胡雷 何旭辉. 实用新型专利 ZL201520937308.9


(4) 室内通风采光装置,王汉封 彭思 李颖 黎良桥 李耀庄,实用新型专利 ZL201621042631.0