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付世晓

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<ref>[html 付世晓 ],搜狐, 2021-06-27</ref>

'''付世晓''',男,1976年生,[[博士]],[[上海交通大学]][[研究员]],[[博士生导师]]<ref>[https://oe.sjtu.edu.cn/msg.php?id=1131 付世晓 上海交通大学研究员 ],海洋工程国家重点实验室</ref>。上海交通大学船舶海洋与建筑工程学院 副院长<ref>[https://naoce.sjtu.edu.cn/teachers/5604.html 教师名录 付世晓 ],上海交通大学</ref>。

==基本信息==
人物说明----上海交通大学船舶海洋与建筑工程学院 副院长

出生日期----1976年

国 籍 ---- 中国

职 业 ---- 教育科研工作者

主要成就----挪威技术科学院院士

毕业院校----[[大连理工大学]]

学位/学历----博士

专业方向----船舶与海洋工程中的流固耦合问题

任职院校----上海交通大学

职 称 ---- [[教授]]

==人物经历==
1999年,大连理工大学,船舶工程系本科毕业/

2002年,大连理工大学,船舶工程系获硕士学位,师从赵德有教授进行船体振动与声辐射特性的研究。

2005年,上海交通大学,船舶海洋与建筑工程学院获博士学位,师从崔维成教授进行弹性浮体与锚泊系统的耦合动力响应,及弹性多体浮式结构物的水弹性响应研究。

2005年-2007年,挪威科技大学(CeSOS,NTNU)与挪威科学院院士T.Moan教授合作进行弹性多体浮式结构物的水弹性响应研究。

2007年8月至2008年12月,上海交通大学,副教授,主要进行海洋平台立管涡激振动理论与试验方法,及弹性多体浮式结构物的水弹性响应研究。

2009年1月,被聘为上海交通大学特别研究员。

2010年,被聘为上海交通大学博士生导师。

2013年,上海交通大学研究员。

2011年起,受聘美国麻省理工学院(MIT)博士生指导委员会委员(Supervision Committee Member)2010年3-5月,挪威工业与科学研究院(SINTEF)访问教授。

2011年7-9月,挪威科技大学(NTNU)合作研究教授。

2012年3-5月,美国麻省理工学院(MIT)合作研究科学家。

2012年7-9月,挪威科技大学(NTNU)合作研究教授。

2013年7-9月,挪威工业与科学技术研究院(SINTEF),合作研究教授。

2020年9月30日,当选挪威技术科学院院士。

==学术兼职==
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)

==教授课程==
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》

==科研成果==
国家杰出青年科学基金

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

==研究方向==
船舶与海洋工程中的流固耦合问题;海洋平台立管涡激振动理论与试验;弹性多体浮式结构物的水弹性响应。

2018年8月3日,国家自然科学基金委员会公布2018年度国家杰出青年科学基金建议资助项目申请人名单,其中付世晓研究领域的《海洋工程流固耦合实验与理论》项目在建议资助项目申请人名单内。

==学术成果==
===期刊论文===
[1] 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.

[2] 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), 04014008.

[3]. 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.

[4]. Jungao Wang, Shixiao Fu*, Rolf Baarholmb, JieWuc, C. M. Larsend. Fatigue Damage Induced by VIV in Oscillatory Flow, Marine Structures,2014,

[5]. 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.

[6]. 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.

[7] Shixiao Fu*, Jungao Wang, Rolf Baarholmb, Jie Wuc, C. M. Larsend , 2013. Novel Features of Vortex-Induced Vibration by Oscillatory Flow, JournalofOffshoreMechanicsandArcticEngineering

[8] 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

[9]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

[10] 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.

[11] 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.

[12] 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.

[13] Li Li, Shixiao Fu*, 2013. Nonlinear Hydroelastic Analysis of Aquaculture Fish Cage in Irregular Waves, Marine Structures(ISSN: 0951-8339), Vol34, pp56-73.

[14] 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.

[15] 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.

[16] Shixiao Fu*, Torgeir Moan, 2012. Dynamic analyses of floating fish cage collars in waves, Aquacultural Engineering (ISSN:0144-8609), Vol.47, pp7-15.

[17] 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.

[18] 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.

[19] 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.

[20]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.

[21]Shixiao Fu, Torgeir Moan, Xujun Chen, Weicheng Cui, (2007), Hydroelastic analysis of flexible floating interconnected structures. Ocean Engineering, Vol. 34, 1516–1531.

[22]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.

[23]Wang Cong, Fu Shixiao, Cui Weicheng and Lin Zhuming, (2006) Hydroelastic analysis of a ribbon bridge under wave actions. Journal of Ship Mechanics, 10(6):61-75.

[24]Jiao Linlin, Fu Shixiao, Wang Cong and Cui Weicheng, (2006) Comparison of approaches for the hydroelastic response analysis of very large floating structures. Journal of Ship Mechanics, 10(3):71-92.

===会议论文===
[1]. Jungao Wang, Shixiao Fu*, Rolf Baarholm. Vortex-induced Vibration of Steel Catenary Riser under Vessel Motion, 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Paper No. OMAE2014-23584.

[2]. Ke Hu, Shixiao Fu*, Yuwang Xu, Leixin Ma, Yifan Chen, Xuefeng Wang. Hydrodynamic response of multiple fish cages under wave loads, 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Paper No. OMAE2014-23716.

[3]. Wei Wei, Shixiao Fu*, FeiGuo, Yuanhua Liang, Shuhong Chai. The Effect of Bending Stiffness On Hydroelastic Response Of VLFS, 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Paper No. OMAE2014-23710.

[4]. Yun Gao, Shixiao Fu*, Leijian Song, Tao Peng, Runpei Li. Experimental investigation on the suppression device of VIV of a flexible riser, 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Paper No. OMAE2014-23427.

[5]. Yu Zhang, Dapeng Yu, Shixiao Fu*, Fei Guo and Wei Wei. Wave Drift Forces and Resonance Analysis on Two Ships Arranged Side by Side, 33rd International Conference on Ocean, Offshore and Arctic Engineering, 2014, Paper No. OMAE2014-24369.

[6] Li Li, Shixiao Fu*, Runpei Li, 2013. Hydroelastic Analysis of Aquaculture Fish Cages in Irregular Waves, OMAE2013-10052.

[7] Yuwang Xu, Shixiao Fu*, Qian Zhong, Dixia Fan, Yu Zhang, 2013. Online Safety Monitor Design of the Jacket Platform Based on Structural Members Failure Study , OMAE2013-10732.

[8] Fei Guo, Shixiao Fu*, Wei Wei, Weidong Zhang, 2013. The Collision of Freely Floating Multiple Vessels in Waves, OMAE2013-10763.

[9] Shixiao Fu*, Jungao Wang, Rolf Baarholm, Jie Wu, C.M.Larsen, 2013. VIV of Flexible Cylinder in Oscillatory Flow, OMAE2013-10348.

[10] Li Li, Shixiao Fu*, 2012. Dynamic Responses of the Floating Cage System in Current and Wave , OMAE2012-83284.

[11] Qian Chen, Shixiao Fu*, Tie Ren, Zaojian Zou, 2011. Dynamic Response Analysis of the Offshore Wind Turbine Support Structure Under Extreme Conditions, OMAE2011-49094.

[12]Lin Li,Shixiao Fu*, Jianmin Yang, 2011. Experimental Investigation on the Vortex-Induced Vibration of Risers with Staggered Buoyancy, OMAE2011-49046.

[13] Shixiao Fu*, Tie Ren, Runpei Li, Xuefeng Wang, 2011.Experimental investigation on VIV of the flexible model within full scale Re number regime, OMAE2011-49042.

[14] Zhibiao Rao, Shixiao Fu*, Jianmin Yang, Runpei Li , 2010. The Application of Non-Sinusoidal Mode Shape Function in the Identification of Modal Weight, OMAE2010-21022.

[15] Shixiao Fu, Cui Weicheng, Yang Jianmin, 2009. Experimental investigation of the hydroelastic response of a floating bridge subjected to moving loads, Hydroelasticity in Marine Technology, University of Southampton,UK.

[16]Chen, X.J., Moan, T., Fu, S.X. and Cui, W.C., (2005) Hydroelastic Analysis of Flexible Floating Structures in Regular Waves. Proceedings of ICMEM International Conference on Mechanical Engineering and Mechanics. Vol.2, Nanjing, China, 26-28 October, 2005, 973-977.

[17]Taghipour Reza, Fu Shixiao and Moan Torgeir, (2006), Validated two and three dimansional linear hydroelastic analysis using standard software. 16th Int. Offshore and Polar Engineering Conference & Exhibition ISOPE, San Francisco, USA, May 28- June 2, 2006.

[18]Shixiao Fu, Torgeir Moan, Xujun Chen, Weicheng Cui, (2006), Hydroelastic analysis of flexible floating structures with Rigid-Hinge-Mode. Hydoelasticity in Marine Technology, pp.235-244, Proceedings of the fourth International Conference on Hydroelasticity in Marine Technology ,Wuxi, China, 10-14 September 2006.

===中文期刊===
[1]. 王俊高,付世晓*,许玉旺,宋磊建. 振荡来流下柔性立管涡激振动"分时特性"试验研究,振动与冲击,2014, v33(21): pp 1-7.

[2]. 高云,付世晓*,宋磊建. 柔性立管涡激振动抑制装置试验研究,振动与冲击,2014, V33(14): pp 77-83.

[3]. 王俊高,付世晓*,许玉旺,宋磊建. 正弦振荡来流下柔性立管涡激振动发展过程,力学学报,2014, v46(2): pp 173-182.

[4]. 宋磊建,付世晓*,陈希恰,郭宏,屈衍. 深海脐带缆总体响应特性比较研究,振动与冲击,2014, v33(1): 119-124.

[5]王俊高,付世晓*,许玉旺,宋磊建,2013. 振荡来流下柔性立管涡激振动响应特性试验研究,船舶力学

[6]高云,付世晓*,2013,带螺旋列板的柔性立管涡激振动响应特性试验研究,力学学报。

[7]高云, 付世晓*. 2013, 表面粗糙度对立管涡激振动响应影响的试验研究, 船舶力学

[8]陈蓥,付世晓*,许玉旺,周青,范迪夏,2013. 均匀流中近壁面垂直流向圆柱水动力特性研究,物理学报(ISSN:1000-3290),第62卷,第6期,064701-1~064701-10.

[9]李琳,杨建民,付世晓*,2012. 带有浮力块的柔性立管涡激振动特性研究,船舶力学

[10]李曼,付世晓*,2012,钢悬链线立管面外涡激振动响应研究,船舶力学

[11]宋斌,付世晓*,肖龙飞,2012,超大型浮式海上基地连接件载荷特性研究,船舶力学

[12]李鲤,付世晓*,2012. 波流作用下深海网箱结构动力响应特性研究,船舶力学

[13]陈前,付世晓*,邹早建,2012. 海上风力发电机组支撑结构动力响应特性研究,船舶力学),第16卷,第4期,408-415.

[14]陈前,付世晓*,邹早建,2012. 海上风力发电机组支撑结构动力特性分析,振动与冲击,第31卷,第2期,86-90.

[15]李琳,付世晓*,杨建民, 2011. 运用光纤光栅传感器的涡激振动测试技术,振动、测试与诊断,第31卷,第6期,728-732.

[16]周青,付世晓*,2011. 考虑海底边界影响的管道水动力特性研究,中国海洋平台,第26卷,第5期,17-23.

[17] 任铁,付世晓*,李润培,杨建民,2011. 基于模型试验的实尺度立管涡激振动响应预报方法研究,船舶力学,第15卷,第4期,364-370.

[18]饶志标,付世晓*,杨建民,2011,钢悬链线的涡激振动分析,船舶力学,第15卷,第3期, 245-258.

[19]饶志标,杨建民,付世晓*,李润培,2010. 剪切流下钢悬链线立管涡激振动响应研究,振动与冲击,第29卷,第10期,4-8.

[20]傅世晓,崔维成,陈徐均,林铸明,(2006) 移动载荷作用下非线性连接浮桥的动力响应分析,上海交通大学学报, Vol.40, No. 6, June, 1004-1009.

[21]王琮, 付世晓, 韩芸, 崔维成 (2007) 波浪作用下带式舟桥的水弹性分析. 上海交通大学学报,

[22]陈徐均,林铸明,吴广怀,傅世晓,(2006)通载浮桥动态位移的测试方法与数据分析,振动测试与诊断,Vol.26, No. 2, 97-101

[23]傅世晓,赵德有,黎胜,(2004) 船舶局部结构振动分析中边界条件的简化和修正方法研究,船舶力学, Vol.8, No.1, 92-98.

[24]傅世晓,范菊,陈徐均,崔维成,(2004) 考虑浮体弹性变形德锚泊系统分析方法,船舶力学,Vol.8, No.2, 47-54.

[25]傅世晓,崔维成,林铸明,陈徐均,(2004)间隙对拼组式浮桥静态响应的影响分析,船舶力学,Vol.8,No.4,86-94.

[26]林铸明,潘志远,傅世晓,崔维成,(2004) 基于RANS方程的舟桥水阻力预报,水动力学研究与进展,Vol. 3.

===发明专利===
国家发明专利授权46项

==荣誉奖励==
国家杰出青年基金,2018

国家万人计划,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

==参考来源==
[[Category:教授]] [[Category:科学家]]
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