教育经历 | 2016-09至 2020-05,哈尔滨工程大学,船舶与海洋结构物设计制造,博士 2018-08至 2019-08,新加坡国立大学,机械工程,联合培养博士 2013-09至 2016-03,哈尔滨工程大学,船舶与海洋结构物设计制造,硕士 2009-09至 2013-06,重庆交通大学,船舶与海洋工程,学士 |
科研项目 | 国家自然科学基金青年基金项目,喷水推进船舶近场湍流尾迹演化机理研究,2023-01至 2025-12,在研,主持 海南省自然科学基金青年基金项目,机动工况下喷水推进系统非稳定空化特性数值研究,2022-01至 2023-12,在研,主持 中央高校基本科研业务费专项资金资助,喷水推进船舶射流与船艉兴波相互作用数值研究,2022-01至 2023-10,在研,主持 武汉理工大学三亚科教园开放基金,南海海况条件下高性能多体汽艇气水动力特性与船泵相互作用机理研究,2022-01至 2023-12,在研,参与 ZBYY重点实验室基金,喷水推进平台快速性预报研究,
2018-01 至2020-12,结题,参与 工信部高技术船舶科研项目,十兆瓦大功率船用喷水推进装置研制与应用示范,
2016-01 至2018-12,结题,参与
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代表性论文 及著作 | 科研论文 Jie
Gong; Zhongwan
Wu; Jiangming Ding; Jiabing Jiang; Zhiyuan Zhang; Numerical
analysis of propulsion performance of a waterjet-propelled
vehicle in steady drift, Ocean
Engineering,
2022, 266, 113136.(SCI,Q1) Jie
Gong; Jiangming
Ding; Tiecheng Wu; Jiabing Jiang; Chunyu Guo; 2D-3C PIV
measurement of the near wake of a ducted propeller, Ocean
Engineering,
2022, 252: 111223.(SCI,Q1) Jie
Gong; Wanzhen
Luo; Tiecheng Wu; Zhiyuan Zhang; Numerical analysis of vortex
and cavitation dynamics of an axial-flow pump, EngineeringApplications of
Computational Fluid Mechanics,
2022, 16:1, 1921-1938.(SCI,Q1) Jie
Gong; Jiangming
Ding; Lianzhou Wang; Propeller–duct interaction on the wake
dynamics of a ducted propeller, Physics
of Fluids, 2021,
33: 074102.(SCI,Q1) Jie
Gong; Jianguo
Liu; Yuanxing Dai; Chunyu Guo; Tiecheng Wu; Dynamics of
stabilizer fins on the waterjet-propelled ship, Ocean
Engineering,
2021, 222: 108595.(SCI,Q1) Jie
Gong; Chunyu Guo;
Chao Wang; Tiecheng Wu; Kewei Song; Analysis of waterjet-hull
interaction and its impact on the propulsion performance of a
four-waterjet-propelled ship, Ocean
Engineering,
2019, 180: 211-222.(SCI,Q1) Jie
Gong; Chunyu Guo;
Kewei Song; Tiecheng Wu; SPIV measurements and URANS simulations
on the inlet velocity distribution for a waterjet-propelled ship
with stabiliser fins, Ocean
Engineering,
2019, 171: 120-130.(SCI,Q1) Jie
Gong; Chunyu Guo;
Dagang Zhao; Tiecheng Wu; Kewei Song; A comparative DES study of
wake vortex evolution for ducted and non-ducted propellers,Ocean Engineering,
2018, 160: 78-93.(SCI,Q1) Jie
Gong; Chunyu Guo;
Nhan Phan-Thien; Boo Cheong Khoo; Hydrodynamic loads and wake
dynamics of ducted propeller in oblique flow conditions, Ships
and Offshore Structures,
2020, 15(6): 645-660.(SCI,Q2) Jie
Gong; Chunyu Guo;
Tiecheng Wu; Dagang Zhao; Particle image velocimetry measurement
of velocity distribution at inlet duct of waterjet
self-propelled ship model, Journal
of Hydrodynamics,
2017, 29(5): 879-893.(SCI,Q2) Jie
Gong; Chunyu Guo;
Tiecheng Wu; Kewei Song; Numerical Study on the Unsteady
Hydrodynamic Performance of a Waterjet Impeller, Journal
of Coastal Research,
2018, 34(1): 151-163. (SCI,Q4) Jie
Gong; Chunyu Guo;
Nhan Phan-Thien; Boo Cheong Khoo; Full scale simulations of the
external and internal flow fields for a waterjet-propelled ship,10th International
Conference on Computational Methods,
Singapore, 2020. (国际会议) Jie
Gong;Chunyu
Guo; Tiecheng Wu; Kewei Song; Numerical Simulation of Internal
Flow Field Characteristics for a Ducted Propeller, 8th
International Conference on Computational Methods,
Guilin, 2017. (国际会议) Jie
Gong; Chunyu Guo;
Tiecheng Wu; Kewei Song; A CFD-based Comparative Study for Open
and Ducted Propeller,10th
International Workshop on Ship and Marine Hydrodynamics,
Keelung, 2017. (国际会议) Lianzhou
Wang; Tiecheng Wu; Jie
Gong; Yiren Yang;
Numerical simulation of the wake instabilities of a propeller,Physics of Fluids,
2021, 33, 125125(SCI,Q1) Lianzhou
Wang; Tiecheng Wu; Jie
Gong; Yiren Yang;
Numerical analysis of the wake dynamics of a propeller, Physics
of Fluids, 2021,
33, 095120.(SCI,Q1) Kewei
Song; Chunyu Guo; Jie
Gong; Ping Li;
Lianzhou Wang; Influence of interceptors, stern flaps, and their
combinations on the hydrodynamic performance of a deep-vee ship
,Ocean
Engineering,
2018, 170: 306-320.(SCI,Q1) Jiabing
Jiang; Jiangming Ding; Jie
Gong; lingxun Li;
Effect of hull displacement on hydro- & aerodynamics of a
planing trimaran, Applied
Ocean Research,
2022, 120,103050.(SCI,Q2) Zhiyuan
Zhang; Gang Chen; Jie
Gong; Chenjun
Yang; Numerical Simulation and Experimental Verification of the
Nozzle Flow of a Waterjet Model, The
32st International Ocean and Polar Engineering Conference(ISOPE2022), Shanghai, 2022(EI) 孙聪,龚杰*,宋科委,郭春雨,张亮.斜流下导管桨水动力性能及流场特性数值分析,哈尔滨工程大学学报,
2020, 44(11): 1623-1628.(EI) 龚杰,郭春雨,赵大刚,宋科委,钟文军.导管桨内流场及涡特性DES模拟,哈尔滨工程大学学报,
2019, 40(8): 1381-1386.(EI) 龚杰,郭春雨,吴铁成,宋科委,林健峰.基于分离涡模拟方法的导管桨近尾流场及尾涡特性分析,上海交通大学学报,
2018, 52(6): 674-680.(EI) 龚杰,郭春雨,张海鹏.喷水推进船模旋转叶轮流场的数值分析,上海交通大学学报,
2017, 51(3): 326-331.(EI)
国家发明专利 龚杰,等;一种外悬式喷水推进船模自航试验测试系统,2022-7-5,中国,
ZL202111036992.X 龚杰,等;一种获取导管桨内部流场的水下PIV测量平台,2019-9-27,中国,
ZL201710722256.7 龚杰,等;一种基于PIV测量的喷水推进船模进口获流测试方法,2019-8-6,中国,
ZL201710989833.9 龚杰,等;适用于导管桨的微气泡降噪装置,2018-8-17,中国,
ZL201710108093.3 龚杰,等;一种适用于泵喷推进潜艇的微气泡降噪装置,2018-12-07,中国,
ZL201710237476.0 龚杰,等;一种可调式多轴喷水推进船模推进轴系分动装置,2019-6-14,中国,
ZL201710502483.9
软件著作权 喷水推进船模试验数值仿真软件(2019SR0807993) 实尺度喷水推进船舶运动仿真与航速预报软件(2019SR0808112) 基于场函数的自适应动态非结构网格剖分软件(2019SR0808006) 通用型小型喷水推进系统控制软件(2018SR479649) 基于PID控制的矢量喷水推进系统控制与运动仿真软件(2018SR617425) 船舶及海洋结构物非结构网格自动生成软件(2018SR622542)
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