哈尔滨工业大学2021年博士研究生导师信息:王聪

2021-03-02 13:50:24来源:哈尔滨工业大学

  2021年博士研究生招生入学考试工作已经展开,新东方在线考博频道将为广大2021考博考生发布转载各博士招生单位发布的2021年博士研究生招生简章、考博专业目录、考博参考书目、及导师联系方式,以下是哈尔滨工业大学2021年博士研究生导师信息:王聪。

  点击查看:全国各院校2021博士研究生招生简章汇总 

  基本信息

哈尔滨工业大学航天学院教授、博士生导师,飞行器动力学与控制研究所书记、副所长。主要研究方向:航天大型柔性结构动力学、振动与控制,跨介质运动体多相流动力学,潜射武器水下发射技术等。主持或承担军科委基础加强重点项目、国防基础科研重点/一般项目、国防973项目子项、航天科技创新基金以及航天领域基础与预先研究项目等科研项目,获得国防科技进步二等奖两项,三等奖两项,发表学术论文150余篇,参编专著一部,获授权专利30余项。

  主要任职

哈尔滨工业大学飞行器动力学与控制研究所书记、副所长;复杂环境动力学与控制研究中心主任;哈尔滨工业大学力学学科教授委员会委员;国防科工局国防基础科研应用力学专家组专家;军科委重点基础研究项目专家组专家;水中兵器学术委员会委员,航天一院一部水下发射技术研究中心特聘专家;航天科工集团第二研究院高级顾问;《兵工学报》、《哈尔滨工业大学学报》、《数字海洋与水下攻防》、《振动与冲击》编委

  教育经历

  1. 2002年 哈尔滨工业大学航天学院 博士学位

  2. 1993年 东北林业大学机电工程学院 硕士学位

  3. 1989年 东北林业大学机电工程学院 学士学位

  工作经历

时间工作经历
1993.06-现在

哈尔滨工业大学 航天学院

1998.10-1999.02

俄罗斯萨玛拉航空航天大学访问

Samara State-maintained Aerospace University, Russia

  我的新闻

  研究生培养

新闻标题
复杂环境动力学与控制研究中心
发表时间
2014-12-31

研究生学位课:

  1. 近代力学实验方法(II)

  2. 结构动力学

  3. 结构振动控制

研究生招生:

1. 博士研究生3-5名

2. 硕士研究生8-10名

  研究领域

主要研究方向:

  1. 航天大型柔性结构动力学、振动与控制

  2. 运动体多相流动力学、水下发射技术

  团队情况

顾问、合作指导老师:

  1. 黄文虎:工程院院士,研究方向:动力学与控制

  2. 何钟怡:教授,博导,研究方向:流体动力学

团队成员:

  1. 张嘉钟:教 授,博导,研究方向:航天器系统动力学,多相流动力学

  2. 魏英杰:教 授,博导,研究方向:多相流动力学

  3. 高晶波:副教授,博士,研究方向:复杂结构系统动力学,实验模态分析

  4. 曹 伟:副教授,博士,研究方向:结构动力学,多相流动力学

  5. 王 超:副教授,博士,研究方向:纳米材料力学

  6. 黄庆新:高级工程师,研究方向:结构动力学,振动测试技术

  7. 建阳:博士后,研究方向: 等离子体流动控制技术

  科研项目

科研项目:

  1. 军科委基础加强项目“--高效协同跨介质多相流动力学研究”,2016-2018;

  2. 国防基础科研项目“---动力学建模与仿真分析”,2014-2016;

  3. 航天科技集团基础研究“---结构纵横扭模态耦合效应研究”,2014-2015;

  4. 航天科技集团预先研究项目“---在轨模态辨识”,2013-2014;

  5. 国防基础科研项目“---流体动力与弹道特性研究”,2013-2015;

  6. 国防973项目子课题“---流体动力基础研究”,2011-2014;

  7. 航天科技集团基础研究项目“---缩比模型试验研究”,2009-2012;

  8. 航天科技集团预先研究项目“---模态分析模型及软件开发”,2009-2011;

  9. 航天科技创新基金项目“---动力学建模与振动控制”,2009-2010;

  10. 国防基础科研重点项目“---发射基础技术研究”,2007-2011;

  11. 国防基础科研项目“---自主航行及集成技术研究”,2006-2010;

  12. 国防973项目子课题“---流体动力基础研究”,2004-2008。

  科学研究

新闻标题
基础与条件
发表时间
2015-08-13

研究基础与技术积累:<内部>

大型复杂多刚柔体系统动力学与振动控制

跨水空介质运动体动力学分析与试验

潜射运动体连续发射复杂流场计算与试验

空化与超空化流动计算与试验

流固耦合动力学


研究条件:

HT01通气超空化水洞

多射弹连续发射试验系统

跨介质入水试验装置

小型垂直发射试验系统

PIV,LDV

高速数字相机

高性能计算机及大型工程软件

LMS测试与分析系统

系列电动振动台

......

  学术论文

1. Wang, Jinqiang; Wang, Cong; Wei, Yingjie;Bounded neural adaptive formation control of multiple underactuated AUVs under uncertain dynamics. ISA transactions. 2020-Jun-05 (Epub 2020 Jun 05)

2. Du, Yanfeng; Wang, Cong; Zhou, Yan; Vibration Control for Flexible Spacecraft using Multi Impulse Robust Input Shaper and Optimal Control Method. ADVANCES IN APPLIED MATHEMATICS AND MECHANICS. VOL123797-814. JUN 2020

3. Zhang, Chengju; Wang, Cong; Wang, Jinqiang; Neuro-adaptive trajectory tracking control of underactuated autonomous surface vehicles with high-gain observer. APPLIED OCEAN RESEARCH. VOL97 102051. APR 2020

4. Wang, Jinqiang; Wang, Cong; Wei, Yingjie; Filter-backstepping based neural adaptive formation control of leader-following multiple AUVs in three dimensional space. OCEAN ENGINEERING. VOL201 107150. APR 1 2020

5. Yang, Liu; Wei, Yingjie; Wang, Cong; Numerical investigations on the deformation styles and stress distributions of hyperelastic/viscoelastic spheres during water entry. JOURNAL OF APPLIED PHYSICS. VOL1276 064901. FEB 14 2020

6. Xia, Weixue; Wang, Cong; Wei, Yingjie; Position detection method and hydrodynamic characteristics of the water entry of a cylinder with multidegree motion. EXPERIMENTS IN FLUIDS. VOL612 57. FEB 6 2020

7. Zhang, Chengju; Wang, Cong; Wei, Yingjie; Neural network adaptive position tracking control of underactuated autonomous surface vehicle. JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY. VOL342855-865. FEB 2020

8. Zhang, Chengju; Wang, Cong; Wei, Yingjie; Neural-Based Command Filtered Backstepping Control for Trajectory Tracking of Underactuated Autonomous Surface Vehicles.IEEE ACCESS. VOL842481-42490. 2020

9. Wang, Jinqiang; Wang, Cong; Wei, Yingjie; Sliding mode based neural adaptive formation control of underactuated AUVs with leader-follower strategy. APPLIED OCEAN RESEARCH .VOL: 94 101971. JAN 2020

10. Xia, Weixue; Wang, Cong; Wei, YingJie; Experimental study on water entry of inclined circular cylinders with horizontal velocities. INTERNATIONAL JOURNAL OF MULTIPHASE FLOW. V118: 37-49. SEP 2019

11. Wang, JinQiang; Wang, Cong; Wei, YingJie; On the fuzzy-adaptive command filtered backstepping control of an underactuated autonomous underwater vehicle in the three-dimensional space. JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY. V(33) 6: 2903-2914. JUN 2019

12. Wang, JinqiangWang, CongWei, YingjieZhang, ChengjuCommand filter based adaptive neural trajectory tracking control of an underactuated underwater vehicle in three-dimensional spaceOCEAN ENGINEERINGVL 180175-186MAY 15 2019

13. Li, YuanyuanWang, CongHuang, WenhuRigid-flexible-thermal analysis of planar composite solar array with clearance joint considering torsional spring, latch mechanism and attitude controller NONLINEAR DYNAMICSVL 962031-2053MAY 2019

14. Yu, JianyangWang, ZhaoChen, FuYu, JianingWang, CongKriging surrogate model applied in the mechanism study of tip leakage flow control in turbine cascade by multiple DBD plasma actuators AEROSPACE SCIENCE AND TECHNOLOGYVL 85216-228FEB 2019

15. Li, Yuanyuan; Wang, Cong; Huang, Wenhu, Dynamics analysis of planar rigid-flexible coupling deployable solar array system with multiple revolute clearance joints, MECHANICAL SYSTEMS AND SIGNAL PROCESSING, Vol. 117: 188-209: FEB 15 2019

16. Du, Yanfeng; Wang, Cong; Lu, Juncheng; Vibration suppression using multi-impulse robust shaping method of zero vibration and derivative, JOURNAL OF SOUND AND VIBRATION, Vol. 440: 277-290 : FEB 3 2019

17. Chen, ChenSun, TiezhiWei, YingjieWang, CongComputational analysis of compressibility effects on cavity dynamics in high-speed water-entryINTERNATIONAL JOURNAL OF NAVAL ARCHITECTURE AND OCEAN ENGINEERINGVL 11JAN 2019

18. Yu, JianyangYu, JianingChen, FuWang, CongNumerical study of tip leakage flow control in turbine cascades usingthe DBD plasma model improved by the parameter identification methodAEROSPACE SCIENCE AND TECHNOLOGYVL 84JAN 2019

19. 王威, 王聪*, 宋武超, 李聪慧. 侧滑角对超空泡航行体沾湿区域的影响[J]. 振动与冲击. 2020, 39(12): 135-141. (EI期刊源, DOI: 10.13465/j.cnki.jvs.2020.12.018)

20. 卢佳兴;王聪;魏英杰;路丽睿;宋武超. 轴线间距对圆柱体低速并联入水空泡演化影响试验研究. 振动与冲击. 2020-06-28

21. 侯东伯; 王聪; 夏维学; 李宜果; 赵静. 弹性尾缘对超空泡航行体空泡形态与压力脉动特性影响的水洞试验研究. 兵工学报. 2020-03-15

22. 王金强; 王聪; 魏英杰; 张成举. 欠驱动AUV自适应神经网络反步滑模跟踪控制. 华中科技大学学报(自然科学版) .2019-12-11 08:05

23. 李聪慧,王聪,王威,张成举.纵平面回转运动通气超空泡形态及压力特性[J].哈尔滨工业大学学报,2019(10):22-29.

24. 王威,王聪,李聪慧,杜严峰.周期性阵风流对通气航行体超空泡形态及流体动力特性影响[J].振动与冲击,2019,38(13):208-214.

25. 卢佳兴,王聪,魏英杰,许昊,宋武超.回转体齐射出水过程空泡演化规律与弹道特性实验研究[J].兵工学报,2019,40(06):1226-1234.

26. 宋武超,王聪,魏英杰,夏维学.水下航行体俯仰运动微气泡流形态及减阻特性试验研究[J].兵工学报,2019,40(06):1216-1225.

27. 张成举,王聪,曹伟,王金强.基于无迹卡尔曼滤波的超空泡航行体最优控制研究[J].兵工学报,2019,40(06):1235-1243.

28. Du, Yanfeng; Wang, Cong; Zhou, Yan, A study on supercavitation in axisymmetric subsonic liquid flow past slender conical body, EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, Vol. 72: 264-274: NOV-DEC 2018

29. Song Wu-ChaoWei Ying-JieLu Li-RuiWang CongLu Jia-XingDynamic characteristics of parallel water-entry cavity based on potential flow theoryACTA PHYSICA SINICAVL 67NOV 20 2018

30. Li, Jia-Chuan; Wei, Ying-Jie; Wang, Cong; Cavity formation during water entry of heated spheres, CHINESE PHYSICS B, Vol. 27 No. 9: 094703 SEP 2018

31. Chen, ChenMa, QingpengWei, YingjieWang, CongExperimental study on the cavity dynamics in high-speed oblique water-entryFLUID DYNAMICS RESEARCHVL 50AUG 2018

32. Wang, Jinqiang Wang, Cong Wei, Yingjie Zhang, ChengjuThree-Dimensional Path Following of an Underactuated AUV Based on Neuro-Adaptive Command Filtered Backstepping ControlIEEE ACCESS2018VL 674355-74365

33. Song, Wuchao; Wang, Cong; Wei, Yingjie; The characteristics and mechanism of microbubble drag reduction on the axisymmetric body, MODERN PHYSICS LETTERS B Vol. 32 No. 18 : 1850206 : JUN 30 2018

34. Wang, Wei; Wang, Cong; Wei,Yingjie; A study on the wake structure of the double vortex tubes in a ventilated supercavity, JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY,Vol. 32, No. 4: 1601-1611: APR 2018.

35. Xu Hao; Wang Cong; Lu Hong-Zhi; Experimental study on submerged supersonic gaseous jet induced tail cavity, ACTA PHYSICA SINICA Vol.: 67 No. 1: 014703: JAN 5 2018.

36. Song, Wuchao; Wang, Cong; Wei, Yingjie; Experimental study of microbubble drag reduction on an axisymmetric body, MODERN PHYSICS LETTERS BVol. 32, No. 3: JAN 30 2018.

37. Li, Yuanyuan; Wang, Zilu; Wang, Cong; Planar rigid-flexible coupling spacecraft modeling and control considering solar array deployment and joint clearance, ACTA ASTRONAUTICA, Vol. 142: 138-151: JAN 2018.

38. Jiachuan Li, Yingjie Wei, Cong Wang, Weixue XiaDrag reduction characteristics of boiling spheresChinese Physics B27(12)2018124703

39. Dianfang BiYingjie WeiHao XuCong WangExperimental study on the vortex structure and path instability of freely falling annular disksScience China-Technological Sciences853-866612018

40. 宋武超; 王聪; 魏英杰; 许昊.摆动过程中水下航行体微气泡减阻特性试验研究.第十届全国流体力学学术会议论文摘要集.2018-10-25.中国会议

41. 李佳川; 魏英杰; 王聪.膜态沸腾球体水下运动减阻特性数值研究.第十届全国流体力学学术会议论文摘要集.2018-10-25.中国会议

42. 宋武超,魏英杰,路丽睿,王聪,卢佳兴.基于势流理论的回转体并联入水双空泡演化动力学研究[J].物理学报,2018,67(22):315-330.

43. 杜严锋,王聪,李佳川,王威.球体入水空泡动态特性[J].哈尔滨工业大学学报,2018,50(10):118-123.

44. 宋武超,王聪,魏英杰.运动参数对回转体倾斜入水流场特性影响[J].哈尔滨工业大学学报,2018,50(10):130-136+142.

45. 范亮,高晶波,王聪.星载SAR天线高稳定度指标分配方法研究[J].振动与冲击,2018,37(18):170-176.

46. 王威,王聪,杜严锋,李聪慧.周期性阵风流作用下通气超空泡的仿真研究[J].兵工学报,2018,39(09):1772-1779.

47. 路丽睿,魏英杰,王聪,王海洋,宋武超.凹形运动体三自由度入水运动特性数值研究[J].舰船科学技术,2018,40(17):13-20.

48. 李佳川,魏英杰,王聪,杜严锋.膜态沸腾阶段球体入水空泡及流体动力特性[J].兵工学报,2018,39(08):1548-1555.

49. 王金强,王聪,魏英杰,张成举.飞翼式混合驱动水下滑翔机水动力与运动特性研究[J].兵工学报,2018,39(08):1556-1564.

50. 路丽睿,魏英杰,王聪,宋武超.不同头型射弹低速倾斜入水空泡及弹道特性试验研究[J].兵工学报,2018,39(07):1364-1371.

51. 宋武超,王聪,魏英杰,路丽睿.微气泡与聚合物对水下航行体减阻特性影响试验研究[J].兵工学报,2018,39(06):1151-1158.

52. 王威,王聪,魏英杰.超空泡航行体转弯运动多相流场特性[J].哈尔滨工业大学学报,2018,50(10):124-129.

53. 夏维学,王聪,魏英杰,张孝石.高速旋转小球入水空泡特性数值模拟[J].哈尔滨工业大学学报,2018,50(04):138-144.

54. 王金强,王聪,魏英杰,张成举.飞翼式碟形水下滑翔机流动与运动特性分析[J].哈尔滨工业大学学报,2018,50(04):131-137.

55. 路中磊,孙铁志,魏英杰,王聪.开放空腔壳体倾斜入水运动特性试验研究[J].力学学报,2018,50(02):263-273.

56. 孙铁志,魏英杰,王聪,路中磊.空化模型在低温流体空化流动三维计算中的应用与评价[J].船舶力学,2018,22(01):22-30.

57. 许昊,王聪,陆宏志,黄文虎.水下超声速气体射流诱导尾空泡实验研究[J].物理学报,2018,67(01):198-210.

58. David Wafula Wekesa, Cong Wang, Yingjie Wei, Louis Angelo M. Danao. Analytical and numerical investigation of unsteady wind for enhanced energy capture in a fluctuating free-stream. Energy 121(2017) 854e864

59. Zhang, Xiaoshi; Wang, Cong; Wekesa, David Wafula, Numerical and experimental study of pressure-wave formation around an underwater ventilated vehicle, EUROPEAN JOURNAL OF MECHANICS B-FLUIDS, Vol. 65: 440-449: SEP-OCT 2017.

60. Zhang Xiao-Shi; Xu Hao; Wang Cong; Experimental study on underwater supersonic gas jets in water flow, ACTA PHYSICA SINICA, Vol. 66, No.5, MAR 5 2017.

61. Lu Zhong-Lei; Wei Ying-Jie; Wang Cong; Experimental and numerical investigation on the flow structure and instability of water-entry cavity by a semi-closed cylinder, ACTA PHYSICA SINICA Vol. 66, No: 6,MAR 20 2017.

62. Li, Yuanyuan; Wang, Zilu; Wang, Cong; Effects of torque spring, CCL and latch mechanism on dynamic response of planar solar arrays with multiple clearance joints, ACTA ASTRONAUTICA, No.132: 243-255: MAR 2017

63. 张孝石,许昊,王聪,陆宏志,赵静.水流冲击超声速气体射流实验研究[J].物理学报. Vol. 66, No. 5 (2017) 1-11

64. 李媛媛,王聪,高晶波.抛物面天线柔性对焦点动特性的影响分析[J].哈尔滨工业大学学报,2017,(02):139-144.

65. 路中磊,魏英杰,王聪,曹伟.开放空腔壳体入水扰动流场结构及空泡失稳特征[J].物理学报,Vol. 66, No. 6 (2017) :1-14.

66. Wekesa, David Wafula, Wang,Cong, Wei, Yingjie, Zhu, Weidong,Experimental and numerical study of turbulenceeffect on aerodynamic performance of a small-scale vertical axis wind turbine, JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS, 2016.

67. Li, Yuanyuan, Wang, Zilu, Wang, Cong, Huang, Wenhu, Dynamic responses of space solar arrays considering joint clearance and structural flexibility, ADVANCES IN MECHANICAL ENGINEERING, 2016.

68. Zhang Xiaoshi, Wang Cong, Wei Yingjie,Experimental Investigation of Unsteady Characteristics of Ventilated Cavitation Flow around an Under-water Vehicle, Advances in Mechanical Engineering, 2016,8(11): 1687814016678198

69. Sun TieZhi, Ma XiangFu, Wei YingJie, Wang Cong, Computational modeling of cavitating flows in liquid nitrogen by an extended transport-based cavitation model, SCIENCE CHINA-TECHNOLOGICAL SCIENCES, 2016.

70. Lu Zhong-Lei, Wei Ying-Jie, Wang Cong, Sun Zhao, An experimental study of water-entry cavitating flows of an end-closed cylindrical shell based on the high-speed imaging technology, ACTA PHYSICA SINICA, 2016.

71. Li Jia-Chuan, Wei Ying-Jie, Wang Cong, Deng Huan-Yu, Water-entry cavity of heated spheres, ACTA PHYSICA SINICA, 2016.

72. Zhao, Sun, Wei, Cao, Cong,Wang, Numerical Investigation of Water Entry of Half Hydrophilic and Hal Hydrophobic Spheres, MATHEMATICAL PROBLEMS IN ENGINEERING, 2016.

73. David Wafula Wekesa, Cong Wang, Yingjie Wei, Weidong Zhu. Experimental and numerical study of turbulence effect on aerodynamic performance of a small-scale vertical axis wind turbine. Journal of Wind Engineering and Industrial Aerodynamics. 157 (2016) 1–14

74. Zhao Chenggong, Wang Cong, Wei YingJie, Zhang Xiaoshi. Experimental study on oblique water entry of projectiles, Modern Physics Letters B , 2016, 30(28): 1650348.

75. Chang Xu, Cong Wang, Wei Liu. Non-stationary Vibration Signal Analysis Using Wavelet-Based Time–Frequency Filter and Wigner–Ville Distribution. Journal of Vibration and Acoustics-Transactions of the ASME, 2016, 138(5): 051009.

76. Chang Xu, Cong Wang,Jingbo Gao. Instantaneous Frequency Identification Using Adaptive Linear Chirplet Transform and Matching Pursuit. Shock and Vibration2016.

77. Chen Chaoqian, Cao Wei, Wang Cong, Wei Yingjie. Trajectory simulation for underwater vehicle with power-lunched. Journal of Harbin Institute of Technology (New Series), 2016,23(1): 17-22.

78. 孙铁志,魏英杰,王聪.液氢和液氮绕水翼空化流动特性分析[J].哈尔滨工业大学学报,2016,(08):141-146.

79. 张孝石,王聪,魏英杰,孙铁志.水下航行体通气空泡溃灭特性研究[J].兵工学报,2016,(12):2324-2330.

80. 宋武超,王聪,魏英杰,许昊.回转体倾斜入水空泡及弹道特性实验[J].北京航空航天大学学报,2016,(11):2386-2394.

81. 路中磊,魏英杰,王聪,陈晨.正浮力开放腔体圆柱壳垂直入水数值研究[J].振动与冲击,2016,(16):79-85.

82. 路中磊,魏英杰,王聪,孙铁志.开放空腔壳体入水流场结构及流体动力特征研究[J].北京航空航天大学学报,2016,(11):2403-2412.

83. 路中磊,魏英杰,王聪,孙钊.基于高速摄像实验的开放腔体圆柱壳入水空泡流动研究[J].物理学报,2016,(01):309-323.

84. 赵成功,王聪,孙铁志,张孝石.初始扰动对射弹尾拍运动及弹道特性影响分析[J].哈尔滨工业大学学报,2016,(10):71-76.

85. 方城林,魏英杰,王聪,夏维学.不同头型高速射弹垂直入水数值模拟[J].哈尔滨工业大学学报,2016,(10):77-82.

86. 陈超倩,曹伟,王聪,魏英杰.超空泡航行体最优控制建模与仿真[J].北京理工大学学报,2016,(10):1031-1036.

87. 李佳川,魏英杰,王聪,邓环宇.加热球体入水空泡实验研究[J].物理学报,2016,(20):161-168.

88. 陈超倩,曹伟,王聪,魏英杰.超空泡航行体加速段控制设计[J].哈尔滨工业大学学报,2016,(08):147-153.

89. 孙钊,曹伟,王聪,魏英杰.表面润湿性对球体入水空泡形态的影响研究[J].兵工学报,2016,(04):670-676.

90. Zhang Xiaoshi, Wang Cong. Research on Underwater Vehicle Based on Multiphase Flow Control, MATEC Web of Conferences. EDP Sciences, 2015, 25.

91. Zhao Chenggong, Wang Cong, Wei YingJie, Zhang XiaoShi. An experimental study on characteristics of cavitation and ballistic of axisymmetric slender body underwater movement[C]//Journal of Physics: Conference Series. IOP Publishing, 2015, 656(1): 012175.

92. 张巍耀,高晶波,王聪.大型挠性航天器刚柔耦合动特性分析[J].哈尔滨工业大学学报,2015,(05):46-49+56.

93. 张孝石,王聪,曹伟,赵成功.基于流动控制的水下航行体流体动力特性分析[J].北京航空航天大学学报,2015,(04):656-662.

94. Weiyao Zhang; Jingbo Gao; Cong Wang. Rigid-Flexible Coupling Dynamic Analysis of Sub-Launched Vehicle During the Vertical Tube-Exit Stage. Journal of Harbin Institute of Technology. 2015-04-15

95. Chang XuCong Wang and Jingbo Gao. Modal Identification of Linear Time-varying Systems Using Continuous Wavelet Transform. Journal of Harbin Institute of Technology ( New Series)Vol22No12015

96. David Wekesa,Cong Wang,Yingjie Wei,Louis Danao.A numerical analysis of unsteady inflow Wind for site speafic VAWT: A case study for Marsabit and Garissa in Kenya. Renewabal Energy. 2015,76. 648-661

97. Yang Zhao,Wang Cong,Gao Jingbo.3-D Structural Vibration Measurement using Digital Photogrammery. International Conference on Advances in Mechanical Enginering and Industrial Informatics (AMEII). 2015,15. 1581-1586

98. Chenggong Zhao, Cong Wang,Yingjie Wei,Xiaoshi Zhang.An experimental study on characteristics of cavitation and ballistic of axisymmetric slender body underwater movement.Journal of Physics: Conference Series. 2015.656

99. Tiezhi Sun,Yingjie Wei,Cong Wang.Prediction of cryogenic cavitation around hydrofoil by an extensional Schnerr-Sauer cavitation model.Journal of Physics: Conference Series. 2015.656

100. 赵成功, 王聪, 魏英杰, 马庆鹏. 质心位置对超空泡射弹尾拍运动影响分析. 北京航空航天大学学报. 201412, 40 12

101. SUN Tie-zhi, WEI Ying-jie, WANG Cong, ZHAO Cheng-gong. Three-dimensional Numerical Simulation of Cryogenic Cavitating Flows of Liquid Nitrogen Around Hydrofoil. Journal of Ship Mechanics. Vol.18 No.12, Dec. 2014

102. Wekesa W. David., Wang C., Wei Y., Kamau J.N., Danao L.A.M.A Numerical Analysis of Unsteady Inflow Wind for Site Specific Vertical Axis Wind Turbine. Renewable Energy Journal.2014.11

103. 许畅,王聪,高晶波,张春芳. 基于摄像测量法的在轨柔性结构模态参数辨识. 哈尔滨工业大学学报. 46 11, 201411

104. 马庆鹏,魏英杰,王聪,赵成功. 不同头型运动体高速入水空泡数值模拟. 哈尔滨工业大学学报. 46 11. 201411

105. Wekesa W. David., Wang C., Wei Y., Danao L.A.M. Influence of Operating Conditions on Unsteady Wind Performance of Vertical Axis Wind Turbines Operating within a Fluctuating Free-stream: A numerical Study. Journal of Wind Engineering and Industrial Aerodynamics.2014.10

106. 陈超倩,曹伟,王聪,任怀勋等. 考虑空化作用的潜射航行体弹道仿真. 工程力学. 31 10 201410

107. 路中磊; 魏英杰; 王聪; 孙铁志. 开放腔体圆柱壳垂向入水试验研究. 第八届全国流体力学学术会议(兰州). 20149

108. 王聪; 张孝石; 曹伟; 孙铁志. 航行体水下发射气幕形态特性研究. 第八届全国流体力学学术会议(兰州). 20149

109. 马庆鹏,魏英杰,王聪,曹伟等. 锥头圆柱体高速入水空泡深闭合数值模拟研究. 兵工学报. 35 9 20149

110. 何乾坤, 王聪, 魏英杰. 超空泡射弹尾拍运动流固耦合动力学响应研究. 动力学与控制学报.12 320149

111. 马庆鹏,何春涛,王聪,魏英杰等. 球体垂直入水空泡实验研究. 爆炸与冲击. 34 2, 20143

112. 马庆鹏, 魏英杰, 王聪, 曹伟. 锥头圆柱体高速入水空泡数值模拟. 北京航空航天大学学报. 20142, 40 2

113. David WEKESA, Cong WANG, Joseph KAMAU. Wind resource data logging measuring system. 2014 International Conference on Energy, Environment and Materials Engineering(EEME2014). February, 2014, Shenzhen, China. 21-26

114. David Wafula Wekesa_z, Cong Wang_, Yingjie Wei_ and Joseph N. Kamauz. Wind Resource Assessment and Numerical Simulation for Wind Turbine Airfoils. 15th International Workshop on Research and Education in Mechatronics (REM), Elgouna, Egypt, IEEE. 2014.9


  专著编写

编写专著:

  1. 《潜射导弹水下发射技术》,中国宇航出版社,北京,2013.1

  专利申请

专利申请:

  1. 一种开架式全方位海参捕捞机器人. ZL201711192467.0

  2. 一种可移动漂浮式海洋能发电装置. ZL201711159935.4

  3. 一种两用途水洞系统. ZL201720911797.X

  4. 一种绕头部俯仰摆动的超空泡航行体水洞实验装置. ZL201710094019.0

  5. 一种电磁肌肉仿生腔体膜水母机器人. ZL201710094994.1

  6. 一种锚定式全维度波浪能俘获装置. ZL201710068229.2

  7. 碟形水下滑翔机器人. ZL201611041435.6

  8. 一种碟形内波发电平台 . ZL201611041434.1

  9. 一种通过炮口切割器实现气动分离的弹托. ZL201521054437.X. 2015.12

  10. 轻气炮射弹快速填充装置. ZL201521054421.9, 2015.12

  11. 一种可调距串联弹托. ZL201521018920.2

  12. 一种通气超空泡水洞除气装置. ZL201521047159.5

  13. 一种用于水洞实验中的自旋空化器装置. ZL201521054425.7

  14. 射弹入水驻点压力测量装置. ZL201521054401.1

  15. 一种基于动量定理的弹托分离系统. ZL201510945757.2

  16. 一种水下超空泡航行体缩比模型试验用通气装置. ZL 201420137743.9, 2014.6

  17. 一种基于惯性原理的充气启动装置. ZL201420693930.5. 2015.2

  18. 水下圆柱体运动体表面压力传感器放置机构. ZL201420771241.1. 2015.6

  19. 一种长度和尾翼可调的运动体实验模型. ZL201420778584.0. 2015.3

  20. 一种水下气幕垂直发射实验装置. ZL201410680860.4, 2014.11

  21. 一种水洞实验通气航行体自旋装置. ZL201410697229.5, 2014.11

  22. 一种水下齿啮合弹性分离弹托. Zl201420693928.8

  23. 大型柔性结构振动位移的双目摄影测量方法. ZL201410191705.6

  24. 一种可转动的轻气炮装置. ZL201410765306. 6

  25. 一种水下发射运动体尾翼同步展开装置. ZL201120205168.8, 2011.6

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