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师资队伍

教师名录

薛鸿祥

船舶与海洋工程系

办公电话:021-34204219
传真:021-34204219
电子邮件:hongxiangxue@sjtu.edu.cn
通讯地址:上海市东川路800号澳门太阳网城官网B409室

1999-2003 上海交通大学 船舶与海洋工程专业 学士

2003-2008 上海交通大学 船舶与海洋结构物设计制造专业 博士

2008-2013 上海交通大学 澳门太阳网城官网 助理研究员

2014-2019 上海交通大学 澳门太阳网城官网 副教授

2020至今 上海交通大学 澳门太阳网城官网 教授

现担任上海交通大学科学技术发展研究院副院长、科研质量管理处处长、船舶与海洋工程系主任、中国海洋工程装备科技发展战略研究院副院长

  • 船舶与海洋工程流固耦合动力学数值仿真

  • 热力耦合理论与实验技术

  • 数据驱动的结构安全性评估与优化设计

  • 上海市船舶与海洋工程学会:副秘书长

  • 中国造船工程学会船舶力学学术委员会:委员、结构强度学组组长

部分国家级、省部级科研项目:

  • 国家自然科学基金项目:多场耦合作用下余热排出管道凝结水锤形成机理与非线性动力响应研究(主持) 

  • 国家自然科学基金项目:复杂动态边界与非定常流场作用下立管涡激振动响应及疲劳载荷分布研究(主持)

  • 国家自然科学基金项目:计及管土接触效应的深海悬链线立管涡激振动及疲劳损伤研究(主持)

  • 国家自然科学基金项目:基于海流随机性的深海立管涡激振动疲劳寿命概率预测方法研究(主持)

  • 教育部博士点基金项目:深海立管多模态涡激振动疲劳损伤特性及可靠性研究(主持)

  • 国家自然科学基金重大项目课题:超细长柔性结构流固耦合响应分析理论(参与)

  • 工信部“深水通用型FPSO工程开发”(参研单位负责人)

  • 工信部“第七代超深水钻井平台(船)创新专项”子课题:半潜式钻井平台大型生活区结构优化设计研究(主持)

  • 工信部“大型邮轮研发专项(2017年)”:邮轮总布置设计技术研究(参研单位负责人)

Selected Journal Papers:

  1. Zhongdi Duan, Jianhu Wang, Yuchao Yuan, Wenyong Tang, Hongxiang Xue*. Near-wall thermal regulation for cryogenic storage by adsorbent coating: Modelling and pore-scale investigation. Applied Energy, 2023, 349: 121634.

  2. Fang Han, Xue Hongxiang*, Tang Wenyong. Blast wave propagation characteristics in FPSO: Effect of cylindrical obstacles. Ocean Engineering, 2023, 274: 114006.

  3. Fang Han, Xue Hongxiang*, Tang Wenyong. Characteristics of gas explosion loads and structural responses of blast wall on FPSO. Marine Structures, 2023, 87: 103315.

  4. Fang Han, Xue Hongxiang*, Bao Chenma, Tang Wenyong. Characteristics of gas leakage and typical dispersion modes for FPSO's process modules. Ocean Engineering, 2022, 266: 113117.

  5. Fang Han, Xue Hongxiang*, Tang Wenyong. Blast wave propagation characteristics in FPSO: Effect of cubical obstacles. Ocean Engineering, 2022, 250: 111022.

  6. Fang Han, Xue Hongxiang*, Tang Wenyong. A new approach for quantitative risk assessment of gas explosions on FPSO. Ocean Engineering, 2022, 250: 112006.

  7. Yuan Yuchao, Zhuang Chenyi, Tang Wenyong, Xue Hongxiang*. Numerical investigation of Vortex-Induced Vibration response for a full-scale riser with staggered buoyancy modules. Ocean Engineering, 2022, 252, 111241.

  8. Zhang Haoran, Tang Wenyong, Yuan Yuchao, Xue Hongxiang, Qin Hao. The three-dimensional green-water event study on a fixed simplified wall-sided ship under freak waves. Ocean Engineering, 2022, 251: 111096.

  9. Guo Li, Yuan Yuchao, Tang Wenyong, Xue Hongxiang. A numerical investigation on quasi-static configuration and nonlinear dynamic response characteristics of marine towing cable. Ocean Engineering, 2021, 240: 110007.

  10. Duan Zhongdi, Sun Haoran, Cheng Cheng, Tang Wenyong, Xue Hongxiang. A moving-boundary based dynamic model for predicting the transient free convection and thermal stratification in liquefied gas storage tank. International Journal of Thermal Sciences, 2021, 160: 106690.

  11. Zhang Haoran, Yuan Yuchao, Tang Wenyong, Xue Hongxiang, Jun Liu, Hao Qin. Numerical analysis on three-dimensional green water events induced by freak wave. Ships and Offshore Structures, 2021, 16(S1): 33-43.

  12. Duan Zhongdi, Xue Hongxiang, Gong Xueru, Tang Wenyong. A thermal non-equilibrium model for predicting LNG boil-off in storage tanks incorporating the natural convection effect. Energy, 2021, 233: 121162.

  13. Yuan Yuchao, Zheng Mengtian, Xue Hongxiang*, Tang Wenyong. Nonlinear riser-seabed interaction response at touchdown zone of a steel catenary riser in consideration of vortex-induced vibration. Ocean Engineering, 2021, 227: 108891.

  14. Liu Qingsheng, Xue Hongxiang*, Tang Wenyong. Behavior of unbonded flexible riser with composite armor layers under coupling loads. Ocean Engineering, 2021, 239: 109907.

  15. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. A Numerical Investigation of vortex-induced vibration response and fatigue damage for flexible cylinders under combined uniform and oscillatory flow. China Ocean Engineering, 2020, 34(4): 488-499.

  16. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. Nonlinear dynamic response analysis of marine risers under non-uniform combined unsteady flows. Ocean Engineering, 2020, 213: 107687.

  17. Liu Qingsheng, Xue Hongxiang*, Tang Wenyong, Yuan Yuchao. Theoretical and numerical methods to predict the behavior of unbonded flexible riser with composite armour layers subjected to axial tension. Ocean Engineering, 2020, 199: 107038.  

  18. Xue Hongxiang*, Yuan Yuchao, Tang Wenyong. Numerical investigation on vortex-induced vibration response characteristics for flexible risers under sheared-oscillatory flows. International Journal of Naval Architecture and Ocean Engineering, 2019, 11(2): 923-938.

  19. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. VIV response characteristics of a top-tensioned riser with bi-frequency parametric excitation. Ocean Engineering, 2019, 190: 106490.

  20. Liu Qing-sheng, Xue Hong-xiang*, Liu Xiao-yuan, Tang Wen-yong. Failure characteristics analysis of tensile armour layer of unbonded flexible riser under axial compression. Ships and Offshore Structures, 2019, 14(S1): 187-198.

  21. Yuan Yu-chao, Xue Hong-xiang*, Tang Wen-yong. Added mass variation effect on vortex-induced vibration for flexible risers based on force-decomposition model. Ships and Offshore Structures, 2018, 13(S1): 1-12.

  22. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. Numerical analysis of Vortex-Induced Vibration for flexible risers under steady and oscillatory flows. Ocean Engineering, 2018, 148: 548–562. 

  23. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. A numerical investigation of Vortex-Induced Vibration response characteristics for long flexible cylinders with time-varying axial tension. Journal of Fluids and Structures, 2018, 77: 36-57.

  24. Xue Hong-xiang, Hu Zhe, Tang Wen-yong, Zhang Xiao-ying, Wang Kun-peng. Theoretical approximation of focusing-wave induced load upon a large-scale vertical cylinder. China Ocean Engineering, 2017, 31(5): 598-606. 

  25. Yuan Yuchao, Xue Hongxiang*, Tang Wenyong. An improved time domain coupled model of Cross-Flow and In-Line Vortex-Induced Vibration for flexible risers. Ocean Engineering, 2017, 136: 117-128.

  26. Liu Dongxi, Tang Wenyong, Wang Jin, Xue Hongxiang, Wang Kunpeng. Hybrid RANS/LES simulation of sloshing flow in a rectangular tank with and without baffles. Ships and Offshore Structures, 2017, 12(8): 1005-1015.

  27. Wang Kunpeng, Ji Chunyan, Xue Hongxiang, Tang Wenyong. Frequency domain approach for the coupled analysis of floating wind turbine system. Ships and Offshore Structures, 2017, 12(6): 767-774. 

  28. Hu Zhe, Tang Wenyong, Xue Hongxiang, Zhang Xiaoying, Wang Kunpeng. Numerical study of rogue wave overtopping with a fully-coupled fluid-structure interaction model. Ocean Engineering, 2017, 137: 48-58.

  29. Qin Hao, Tang Wenyong, Xue Hongxiang, Hu Zhe. Numerical study of nonlinear freak wave impact underneath a fixed horizontal deck in 2-D space. Applied Ocean Research, 2017, 64: 155-168.

  30. Qin Hao, Tang Wenyong, Xue Hongxiang, Hu Zhe, Guo Jinting. Numerical study of wave impact on the deck-house caused by freak waves. Ocean Engineering, 2017, 133: 151–169. 

  31. Liu Dongxi, Tang Wenyong, Wang Jin, Xue Hongxiang. Modelling of liquid sloshing using CLSVOF method and very large eddy simulation. Ocean Engineering, 2017, 129: 160-176.

  32. Wang Kunpeng, Ji Chunyan, Xue Hongxiang, Tang Wenyong. Fatigue damage study of helical wires in catenary unbonded flexible riser near touchdown point. Journal of Offshore Mechanics and Arctic Engineering - Transactions of the ASME, 2017, 139(5): 051701.

  33. Qin Hao, Tang Wenyong, Xue Hongxiang, Hu Zhe. Dynamic response of a horizontal plate dropping onto nonlinear freak waves using a fluid-structure interaction method. Journal of Fluids and Structures, 2017, 74: 291-305.

  34. Ren Shao-fei, Xue Hong-xiang*, Tang Wen-yong. Analytical and numerical models to predict the behavior of unbonded flexible risers under torsion. China Ocean Engineering, 2016, 30(2): 243-256.

  35. Wang Kunpeng, Ji Chunyan, Xue Hongxiang, Tang Wenyong. Fatigue damage characteristics of a semisubmersible-type floating offshore wind turbine at tower base. Journal of Renewable and Sustainable Energy, 2016, 8(5): 053307.

  36. Liu Dongxi, Tang Wenyong, Wang Jin, Xue Hongxiang, Wang Kunpeng. Comparison of laminar model, RANS, LES and VLES for simulation of liquid sloshing. Applied Ocean Research, 2016, 59: 638-649.

  37. Hu Zhe, Tang Wen-yong, Xue Hong-xiang. Numerical wave tank based on a conserved wave-absorbing method. China Ocean Engineering, 2016, 30(1): 137-148. 

  38. Hu Zhe, Tang Wenyong, Xue Hongxiang, Zhang Xiaoying. A SIMPLE-based monolithic implicit method for strong-coupled fluid-structure interaction problems with free surfaces. Computer Methods in Applied Mechanics and Engineering, 2016, 299: 90-115.

  39. Hu Zhe, Xue Hongxiang*, Tang Wenyong, Zhang Xiaoying. Numerical study of nonlinear Peregrine breather under finite water depth. Ocean Engineering, 2015, 108: 70-80. 

  40. Xue Hongxiang*, Wang Kunpeng, Tang Wenyong. A practical approach to predicting cross-flow and in-line VIV response for deepwater risers. Applied Ocean Research, 2015, 52: 92-101. 

  41. Hu Zhe, Xue Hongxiang*, Tang Wenyong, Zhang Xiaoying. A combined wave-dam-breaking model for rogue wave overtopping. Ocean Engineering, 2015, 104: 77-88. 

  42. Hu Zhe, Tang Wenyong, Xue Hongxiang, Zhang Xiaoying, Guo Jinting. Numerical simulations using conserved wave absorption applied to Navier-Stokes equation model. Coastal Engineering, 2015, 99: 15-25.

  43. Wang Kunpeng, Tang Wenyong, Xue Hongxiang. Time domain approach for coupled cross-flow and in-line VIV induced fatigue damage of steel catenary riser at touchdown zone. Marine Structures, 2015, 41: 267-287.

  44. Hu Zhe, Tang Wenyong, Xue Hongxiang, Zhang Xiaoying. Numerical study of rogue waves as nonlinear Schrödinger breather solutions under finite water depth. Wave Motion, 2015, 52: 81-90.

  45. Xue Hongxiang*, Tang Wenyong, Qu Xue. Prediction and analysis of fatigue damage due to cross-flow and in-line VIV for marine risers in non-uniform current. Ocean Engineering, 2014, 83: 52-62. 

  46. Wang Kun-peng, Tang Wen-yong, Xue Hong-xiang*. Cross-flow VIV induced fatigue damage of deepwater steel catenary riser at touch-down point. China Ocean Engineering, 2014, 28(1): 81-93.

  47. Wang Kunpeng, Xue Hongxiang*, Tang Wenyong. Time domain prediction approach for cross-flow VIV induced fatigue damage of steel catenary riser near touchdown point. Applied Ocean Research, 2013, 43: 166-174.

  48. Wang Kunpeng, Xue Hongxiang*, Tang Wenyong, Guo Jinting. Fatigue analysis of steel catenary riser at the touch-down point based on linear hysteretic riser-soil interaction model. Ocean Engineering, 2013, 68: 102-111.

本科生课程:船舶与海洋工程结构设计

全国新工科研究与实践项目:以服务国家海洋战略需求为导向的船舶与海洋领域紧缺人才培养模式研究与实践(主要完成人)

研究生课程:高等结构力学

上海市研究生教育改革项目:面向“海洋强国”战略需求的船海领域卓越工程师人才培养模式研究与实践(项目负责人)

【专利】

液化天然气储罐吸附式自增压及闪蒸气回收一体化装置,ZL202010735703.4

具有一体式保护帽的船舶防滑跳板,ZL202020958877.2

一种用于海洋平台上层建筑的组合复合板,ZL202021066012.1


【软件著作权】

弹性结构整体隐式流固耦合分析软件,登记号:2018SR466008

非线性畸形波数值模拟计算软件, 登记号:2018SR462758

独立B型液舱晃荡运动分析软件,登记号:2018SR123199

【本科教学获奖】

上海市教学成果特等奖,2022年

全国船舶与海洋工程学科高等教育教学成果一等奖,2021年

上海交通大学教学成果特等奖,2023年

【研究生教学获奖】

国家级教学成果二等奖,2022年

科研获奖】

上海市科技进步一等奖:深水钻井隔水管涡激振动预报及抑制关键技术创新与应用,2018年

上海市东方英才拔尖计划

上海市青年科技启明星计划

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