师资队伍

教师名录

许玉旺

船舶与海洋工程系

电子邮件:xuyuwang@sjtu.edu.cn
通讯地址:上海市东川路800号木兰船建大楼B311

长聘教轨副教授,博士生导师

教育经历:

2015.01-2018.08,挪威科技大学,结构工程系,博士
2011.09-2014.03,威尼斯9499登录入口,威尼斯9499登录入口,硕士
2007.09-2011.06,哈尔滨工程大学,船舶与海洋工程学院,本科

工作经历:

2022.01-至今,威尼斯9499登录入口,副教授
2019,日本大阪大学,访问学者
2019.01-2021.12,威尼斯9499登录入口,助理教授
2014.04-2014.10,中国船舶工业集团第708研究所,工程师

(1)深远海网箱水动力实验与理论

(2)超大型浮体(跨海浮式大桥、悬浮隧道、舟桥等)水动力响应分析

(3)海洋工程装备(网箱、风机等)安全状态识别

(4)机器人设计及控制

2023.05-至今,《中国海上油气》,青年编委

2019.04-至今,中国造船工程学会《船舶工程》,编委

Engineering Structures, Marine Structures, Ocean Engineering等期刊审稿人

纵向课题:

[1]国家自然科学基金面上基金项目,极端波流场下多尺度养殖网箱混合水弹性分析理论与试验,在研,主持

[2] 国家自然科学基金青年基金项目,跨海悬浮隧道全自由度涡激振动特性试验与理论研究,结题,主持

[3] 威尼斯9499登录入口“双一流”建设项目人才科研启动项目,结题,主持

[4] 国家自然科学基金联合基金,深水多立管系统动力耦合机理与响应分析方法研究,在研,参研

国际课题:

[5] 国际联合实验室项目,深远海养殖网箱系统研究,在研,参研

[6] 挪威公路管理局项目,跨海浮式悬索桥水、气弹性动力响应研究,结题,技术负责人

[7] 挪威公路管理局项目,弧形悬浮大桥环境载荷及屈曲特性研究,结题,技术负责人

[8] 挪威公路管理局项目,跨海悬浮隧道动力响应特性研究,在研,参研

国内横向课题:

[9] 渔网系统设计优化及安全校核,结题,参研

[10] 福建浮式风机-网箱平台水池试验技术,主持


跨海悬浮大桥水、气弹性响应研究:
[1]. Prediction of long-term extreme load effects due to wind for cable-supported bridges using time-domain simulations, Engineering Structures,. 2017, Vol.148, p.239-253
[2]. Time domain simulations of wind- and wave-induced load effects on a three-span suspension bridge with two floating pylons. Marine Structures, 2018, Vol.58, p.434-452
[3]. Prediction of long-term extreme load effects due to wave and wind actions for cable-supported bridges with floating pylons. Engineering Structures, 2018, Vol.172, p.321-333
立管涡激振动特性研究
[4]. Experiment Investigation on Vortex Induced Forces of Oscillating Cylinder at High Reynolds Number, Ocean Systems Engineering, 2013, Vol.3, p.167-180.
[5]. Vortex-induced vibration of flexible pipe fitted with helical strakes in oscillatory flow, Ocean Engineering, 2019, Vol.189
[6]. Distribution of drag coefficients along a flexible pipe with helical strakes in uniform flow, Ocean Engineering, 2019, Vol.184, p216-226
[7]. An Experiment Study of Vortex Induced Vibration of a Steel Catenary Riser under Steady Current, Journal of Hydrodynamics, 2019.
[8]. Seabed Effects on the Hydrodynamics of Circular Cylinder Undergoing Vortex Induced Vibration at High Reynolds Number, Journal of Waterway, Port, Coastal and Ocean Engineering, 2014, Vol.140.
[9]. High Order Force Components of a Near-wall Circular Cylinder Oscillating in Transverse Direction in Steady Current, Ocean Engineering, 2013, Vol.74, p.37–47.
深远海网箱水动力特性研究
[10]. Hydrodynamic forces on a partially submerged cylinder at high Reynolds number in a steady flow, Applied Ocean Research, 2019, Vol.88, p.160-169.
[11]. Experimental investigation on hydrodynamics of floating cylinder in oscillatory and steady flows by forced oscillation test, Marine Structures, Vol.34, p.41-55.
[12]. Experimental Investigation on Hydrodynamics of Fish Cage Floater-Net System in Oscillatory and Steady Flows by Forced Oscillation Test, Journal of Ship Research, 2014, Vol.58, p.20-29.
[13]. Dynamic responses of floating fish cage in waves and current, Ocean Engineering, 2013, Vol.72, p.297-303
[14]. Nonlinear hydroelastic analysis of an aquaculture fish cage in irregular waves, Marine Structures, 2013, Vol.34, p.56-73

国际会议论文:
[1]. Vortex induced vibration of a steel catenary riser under out-of-plane current: an experimental study. ASME 38th International Conference on Ocean, Offshore and Arctic Engineering, 2019. (第一作者,担任分会场主席)
[2]. Hydrodynamic analysis of a deep-water fish cage in waves based on two different methods. ASME 38th International Conference on Ocean, Offshore and Arctic Engineering, 2019.
[3] Time Domain Modelling of Frequency Dependent Wind and Wave Forces on a Three-Span Suspension Bridge With Two Floating Pylons Using State Space Models. ASME 36th International Conference on Ocean, Offshore and Arctic Engineering, 2017.
[4] Modelling of self-excited wind forces on long span bridges using State-space models. 19th IABSE Congress Stockholm, 2016.
[5]. Online Safety Monitor Design of the Jacket Platform Based on Structural Members Failure Study, ASME 32nd International Conference on Ocean, Offshore and Arctic Engineering, 2013.

[1] 研究生课程,海洋工程水弹性力学及其在工程中的应用

[2]本科生课程,船体振动

[3]本科生课程,工程学导论

[1]. 模拟均匀流作用下双管干涉动力响应实验装置,2019.04.04,中国,CN201910272445.8
[2]. 均匀流作用下隔水管-井口耦合系统动力响应实验装置,2019.04.04,中国,CN201910272472.5
[3]. 模拟均匀流下深海立管横向自激振动的试验装置, 2016.04.13, 中国, ZL201210437223.5
[4]. 模拟均匀流下两立管模型相互干扰下自激振荡的试验装置, 2015.07.08, 中国, ZL201210439234.7
[5]. 均匀流和阶梯流下顶部可运动竖置立管涡激振动旋转装置, 2013.02.06, 中国, ZL201110219623.4
[6]. 均匀流下的FISHFRAM浮筒分段模型水平强迫振动实验装置, 2013.09.25, 中国, ZL201110231179.8

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