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上海交通大学船舶海洋与建筑工程学院导师教师师资介绍简介-付世晓

本站小编 Free考研考试/2021-01-01


付世晓 船舶与海洋工程系
办公电话:-2052
电子邮件:shixiao.fu@sjtu.edu.cn
通讯地址:上海市东川路800号,上海交通大学,海洋工程国家重点实验室



个人简历 研究方向 学术兼职 科研项目 代表性论文及专著 教学工作 软件版权登记及专利 荣誉和奖励
上海交通大学,****,博士生导师
2019-今, 上海交通大学 ****
2015-2017 挪威科学院(SINTEF Ocean) 兼职高级研究员
2013-2019 上海交通大学 研究员
2012-2012 麻省理工学院(MIT) 访问****
2009-2013 上海交通大学 特别研究员
2007-2009 上海交通大学 副教授
2005-2007 挪威科技大学 博士后
2002-2005 上海交通大学 船舶与海洋工程 博士
1999-2002 大连理工大学 船舶与海洋工程 硕士
1995-1999 大连理工大学 船舶与海洋工程 学士


海洋立管涡激振动
海洋工程流固耦合智能试验理论与技术
大型浮体、悬浮隧道、大型网箱、浮桥等大型浮体水弹性


挪威科技大学(NTNU)兼职教授
华中科技大学兼职教授
Marine Structures副主编
Journal OMAE副主编
Journal of Hydrodynamics 编委
Journal of Marine Science and Application 期刊编委
海洋工程期刊编委
水动力学研究与进展期刊编委
国际船舶与海洋结构大会(ISSC)委员会委员
第十届船舶力学委员会委员
OMAE主题召集人(Topic Organizer)


国家****科学基金
国家自然科学基金重大项目课题1项
国家自然科学研究基金面上项目1项
国家自然科学基金应急管理项目1项
国家自然科学研究青年基金1项
上海市自然科学基金1项
挪威Statoil合作基础研究基金2项
国防预研重点课题1项


Selected International Journal Papers:

[54]Z Lu, S Fu, M Zhang, H Ren. An efficient time-domain prediction model for vortex-induced vibration of flexible risers under unsteady flows. Marine Structures,2018, 64, 492-519.
[53]W Wei, S Fu, T Moan, C Song, S Deng, H Lie. A Time-Domain Method for Hydroelasticity of a Curved Floating Bridge in Inhomogeneous Waves. Journal of Offshore Mechanics and Arctic Engineering,2018, 141 (1), 014501.
[52]M Zhang, S Fu, L Song, J Wu, H Lie, H Hu. Hydrodynamics of flexible pipe with staggered buoyancy elements undergoing vortex-induced vibrations. Journal of Offshore Mechanics and Arctic Engineering,2018, 140 (6), 061805.
[51]T Ren, M Zhang, S Fu, L Song. Hydrodynamics of A Flexible Riser Undergoing the Vortex-Induced Vibration at High Reynolds Number. China Ocean Engineering,2018, 32 (5), 570-581.
[50]J Wang, S Fu, R Baarholm. Evaluation of vortex-induced vibration of a steel catenary riser in steady current and vessel motion-induced oscillatory current. Journal of Fluids and Structures,2018, 82, 412-431.
[49]C Liu, S Fu, M Zhang, H Ren. Time-varying hydrodynamics of a flexible riser under multi-frequency vortex-induced vibrations. Journal of Fluids and Structures,2018, 80, 217-244.
[48]J Wang, S Fu, R Baarholm, M Zhang, C Liu. Global motion reconstruction of a steel catenary riser under vessel motion. Ships and Offshore Structures, 2018,1-15.
[47]M Zhang, S Fu, L Song, X Tang, Y He. A time domain prediction method for the vortex-induced vibrations of a flexible riser. Marine Structures,2018, 59, 458-481.
[46]Z Lu, S Fu, M Zhang, H Ren, L Song.A modal space based direct method for vortex-induced vibration prediction of flexible risers.Ocean Engineering,2018, 152, 191-202.
[45]Song, CH; Fu, SX; Tang, XY; Hu, K; Ma, LX; Ren, TX. Hydrodynamics of the Semi-Immersed Cylinder by Forced Oscillation Model Testing. CHINA OCEAN ENGINEERING,2018,32,110-116.
[44]Wei, W; Fu, SX; Moan, T; Song, CH; Ren, TX. A time-domain method for hydroelasticity of very large floating structures in inhomogeneous sea conditions. MARINE STRUCTURES,2018,57,180-192.
[43]Song, LJ; Fu, SX; Li, M; Gao, Y; Ma, LX. Tension and drag forces of flexible risers undergoing vortex-induced vibration. CHINA OCEAN ENGINEERING,2017, 31,1-10.
[42]Song, LJ; Fu, SX; Ren, T; Lu, ZQ. Phase Angles of the Vibrations and Hydrodynamic Forces of the Flexible Risers Undergoing Vortex-Induced Vibration. 2017,139.
[41]Lu, WY; Yang, JM; Fu, SX. Numerical study of the generation and evolution of breather-type rogue waves. SHIPS AND OFFSHORE STRUCTURES,2017,12,1,66-76.
[40]Wei, W; Fu, SX; Moan, T; Lu, ZQ; Deng, S. A discrete-modules-based frequency domain hydroelasticity method for floating structures in inhomogeneous sea conditions. JOURNAL OF FLUIDS AND STRUCTURES,2017,74,321-339.
[39]Wang, JG; Fu, SX; Larsen, CM; Baarholm, R; Wu, J; Lie, H. Dominant parameters for vortex-induced vibration of a steel catenary riser under vessel motion. OCEAN ENGINEERING,2017,136,260-271.
[38]Gao, Y; Fu, SX; Xiong, YM; Zhao, Y; Liu, LM. Experimental study on response performance of vortex-induced vibration on a flexible cylinder. SHIPS AND OFFSHORE STRUCTURES,2017,12,116-134.
[37]Gao, Y; Fu, SX; Ma, LX; Chen, YF. Experimental investigation of the response performance of VIV on a flexible riser with helical strakes. SHIPS AND OFFSHORE STRUCTURES,2016,11,113-128.
[36]Ma, LX; Hu, K; Fu, SX; Moan, T; Lit, RP. A Hybrid Empirical-Numerical Method for Hydroelastic Analysis of a Floater-and-Net System. JOURNAL OF SHIP RESEARCH 2016,60,14-29.
[35]Wang, JG; Xiang, S; Fu, SX; Cao, PM; Yang, JM; He, JX. Experimental investigation on the dynamic responses of a free-hanging water intake riser under vessel motion. MARINE STRUCTURES,2016,50,1-19.
[34]Song LJ,Fu SX,Dai SY,Zhang MM,Chen YF. Distribution of drag force coefficient along a flexible riser undergoing VIV in sheared flow. OCEAN ENGINEERING,2016, 126,1-11.
[33] Gao Yun, Fu Shixiao, Xiong Youming, Liu Liming. Experimental study of the effects of surface roughness on the vortex-induced vibration response of a riser. Journal of Ship Mechanics, 2015, 19, 1007-7294
[32] Wang, Jungao, Fu Shixiao; Baarholm, Rolf; Wu, Jie; Larsen, Carl Martin. Out-of-plane vortex-induced vibration of a steel catenary riser caused by vessel motions. Ocean Engineering, 2015, 109, 389-400
[31] Gao, Yun, Fu Shixiao; Wang, Jungao; Song, Leijian; Chen, Yifan. Experimental study of the effects of surface roughness on the vortex-induced vibration response of a flexible cylinder. Ocean Engineering, 2015, 103, 40-57.
[30] Gao, Yun, Fu Shixiao; Ren, Tie; Xiong, Youming; Song, Leijian. VIV response of a long flexible riser fitted with strakes in uniform and linearly sheared currents. Applied Ocean Research, 2015, 52, 102-114.
[29] Guo, Yousong, Chen, Xiqia; Wang, Deyu; Fu, Shixiao. Analytical and numerical investigation on the structural response of flexible risers under axisymmetric load. Shiyou Xuebao/Acta Petrolei Sinica, 2015, 36(4), 504-510 and 515.
[28] Jungao Wang, Shixiao Fu*, Rolf Baarholmb, JieWuc, C. M. Larsend. Fatigue Damage Induced by VIV in Oscillatory Flow, Marine Structures, 2015, v40:73–91
[27] Yun Gao, Shixiao Fu*, Jing Cao, Yifan Chen. Experimental study on response performance of VIV of a flexible riser with helical strakes, China Ocean Engineering, 2015, 29(5):673-690
[26] Mengmeng Zhang, Xiqia Chen, Shixiao Fu, Yousong Guo, Leixin Ma, Theoretical and numerical analysis of bending behavior of unbonded flexible risers, Marine Structures, 2015, 44, 311-325.
[25] Gao Yu, Fu Shixiao, Song Leijian. Experimental investigation on the suppression device of VIV of a flexible riser. Journal of Vibration and Shock. 2014, 33(14)
[24] Song Leijian, Fu Shixiao, Chen Xiqia, Guo Hong, Qu Yan Comparative study on deepwater umbilical overall response characteristics. Journal of Vibration and Shock, 2014,33(1)
[23] Wang Jungao, Fu Shixiao, Xu Yuwang, Song Leijian Tests for time sharing of vortex-induced vibration of a flexible cylinder in oscillatory flow. Journal of Vibration and Shock, 2014, 33(21)
[22] Wang, Jungao, Fu, Shixiao; Xu, Yuwang; Song, Leijian. VIV developing process of a flexible cylinder under oscillatory flow. Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics, 2014, 46(2), 173-182.
[21] Fang, Sam M., Niedzwecki, John M.; Fu, Shixiao; Li, Runpei; Yang, Jianmin. VIV response of a flexible cylinder with varied coverage by buoyancy elements and helical strakes. Marine Structures, 2014, 39, 70-89
[20] Jungao Wang, Shixiao Fu*, Rolf Baarholm, Jie Wu, Carl Martin Larsen. Fatigue damage of a steel catenary riser from vortex-induced vibration caused by vessel motions, Marine Structures, 2014, v39, pp 131–156.
[19] Shixiao Fu*, Yuwang Xu, Ke Hu, Qian Zhong, Runpei Li, Experimental Investigation on Hydrodynamics of a Fish Cage Floater-net System in Oscillatory and Steady Flows by Forced Oscillation Tests, Journal of Ship Research, 2014, v25(1), pp 20-29.
[18] Yun Gao, Shixiao Fu*, Leixin Ma, Yifan Chen. Experimental investigation of the response performance of VIV on a flexible riser with helical strakes, Ships and Offshore Structures, 2014.
[17] Shixiao Fu*, Yuwang Xu, Yin Chen, Seabed Effects on the Hydrodynamics of a Circular Cylinder Undergoing Vortex-Induced Vibration at High Reynolds Number, Journal of Waterway, Port, Coastal, and Ocean Engineering, 2014, v140(3), **.
[16] Shixiao Fu*, Jungao Wang, Rolf Baarholmb, Jie Wuc, C. M. Larsend , 2014. Features of Vortex-Induced Vibration by Oscillatory Flow, Journal of Offshore Mechanics and Arctic Engineering.
[15] Ying Chen; Shixiao Fu*; Yuwang Xu; Dixia Fan, 2013. High order force components of a near-wall circular cylinder oscillating in transverse direction in steady current,Ocean Engineering, Vol.74,pp.37-47
[14]Shixiao Fu,Yuwang Xu,Ying Chen ,2013. Seabed Effects on the Hydrodynamics of Circular Cylinder Undergoing Vortex Induced Vibration at High Reynolds Number, J.Waterway,Port,Coastal,and Ocean Engineering
[13] Yuwang Xu, Shixiao Fu*, Ying Chen, Qian Zhong, Dixia Fan, 2013. Experiment Investigation on Vortex Induced Forces of Oscillating Cylinder at High Reynolds Number, Ocean System Engineering (ISSN2233-7059), Vol.3, No.3, pp167-180.
[12] Xiqia Chen, Shixiao Fu*, Leijian Song, 2013. Stress Analysis Model for Un-bonded Umbilical Cables, Ocean System Engineering(ISSN2233-7059), Vol3, No.2, pp97-122.
[11] Shixiao Fu*, Yuwang Xu, Ke Hu, Yu Zhang, 2013. Experimental Study on Hydrodynamics of Floating Cylinder in Oscillatory and Constant Flows, Marine Structures(ISSN: 0951-8339), Vol34, pp41-55.
[10] Li Li, Shixiao Fu*, 2013. Nonlinear Hydroelastic Analysis of Aquaculture Fish Cage in Irregular Waves, Marine Structures(ISSN: 0951-8339), Vol34, pp56-73.
[9] Shixiao Fu*, Weicheng Cui, 2012. Dynamic Responses of a Ribbon Floating Bridge Under Moving Loads, Marine Structures(ISSN: 0951-8339), Vol.29, No.1, pp246-256.
[8] Li Li; Shixiao Fu*, Yuwang Xu; Jungao Wang; Jianmin Yang, 2012. Dynamic Responses of Floating Fish Cage in Waves and Current, Ocean Engineering(ISSN:0029-8018), Vol.72, pp297-303.
[7] Shixiao Fu*, Torgeir Moan, 2012. Dynamic analyses of ?oating ?sh cage collars in waves, Aquacultural Engineering (ISSN:0144-8609), Vol.47, pp7-15.
[6] Xujun Chen, Torgeir Moan, Shixiao Fu, 2010. Extreme Response of Very Large Floating Structure Considering Second-Order Hydroelastic Effects in Multidirectional Irregular Waves, Journal of Offshore Mechanics and Arctic Engineering(ISSN:0892-7219), Vol.132.
[5] Wang Cong, Shixiao Fu*, Cui Weicheng, 2009. Hydroelasticity Based Fatigue Assessment of the Connector for a Ribbon Bridge Subjected to a Moving Load, Marine Structures(ISSN: 0951-8339) , Vol.22 No.2, pp246-260.
[4] Cong Wang, Shixiao Fu, Weicheng Cui, 2009, Ribbon Bridge in Waves Based on Hydroelasticity Theory, Frontiers of Architecture and Civil Engineering in China(ISSN: 1673-7407), Vol.3 No.1, pp57-62.
[3] Shixiao Fu, Torgeir Moan, Xujun Chen, Weicheng Cui, (2007), Hydroelastic analysis of flexible floating interconnected structures. Ocean Engineering, Vol. 34, 1516–1531
[2] Wang Cong, Fu Shixiao, Li Ning, Cui Weicheng and Lin Zhuming, (2006) Dynamic analysis of a pontoon- separated floating bridge subjected to a moving load. China Ocean Engineering, 20(3): 419-430.
[1] Shixiao Fu, Weicheng Cui, Xujun Chen, Cong Wang, (2005), Hydroelastic analysis of a nonlinearly connected floating bridge subjected to moving loads, Marine Structures, Vol.18, No.1, 85-107.


本科生课程:《海洋工程环境载荷与水动力性能》,《工程学导论》
硕士博士课程:《海洋工程水弹性力学及其在工程中的应用》


国家发明专利授权46项


国家****基金,2018
国家****,2019
科技部中青年科技创新领军人才,2018
上海市优秀学术带头人,2018
海洋工程科学技术奖“特等奖”(省部级,第一完成人),2018
上海市科学技术进步一等奖(第二完成人),2018
江苏省双创人才计划,2016
上海交通大学特别研究员计划,2009
上海交通大学晨星奖励人才计划,2008
中国海洋(岸)工程学术会议最佳论文奖,2017





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