科研论文 (1)Jie
Gong;Junjun
Su;Zhongwan
Wu. Euler-Lagrange study on the bubble wake of a ship with
waterjet propulsion,Ocean
Engineering,2025,318,120173.(SCI,Q1) (2)Zhongwan
Wu; Jie
Gong*;Junjun
Su. Numerical investigation of turbulent wake thermal effects on
surface ships,Physics
of Fluids, 2024, 36, 115127. (SCI,Q1) (3)Jie
Gong;Yuanxing
Dai;Wei
Chen. Analysis of scale effect on the propulsion discrepancy of a
four-waterjet system,Ocean
Engineering,2024,308,118276.(SCI,Q1) (4)Zhongwan
Wu,Jie
Gong*,Jiangming
Ding,Junjun
Su. Multi-Objective Optimization on Underwater Radiated Noise of
Rim-Driven Thruster,The
International Society of Offshore and Polar Engineers (ISOPE),
2024, Rhodes, Greece. (5)Jie
Gong; Zhongwan Wu;
Jiangming Ding; Numerical analysis on the transom-stern wake with
a horizontal plunging jet, Ocean
Engineering, 2023,
285, 115465.(SCI,Q1) (6)Zhongwan
Wu; Jie Gong*;
Jiangming Ding; Yidan Sun; Chao Ma; Autonomous modification and
optimization method for rim-driven system in surface ships, Ocean
Engineering, 2023,
290, 116293.(SCI,Q1) (7)Jie
Gong; Wanzhen Luo;
Tiecheng Wu; Zhiyuan Zhang; Numerical analysis of vortex and
cavitation dynamics of an axial-flow pump, Engineering
Applications of Computational Fluid Mechanics,
2022, 16:1, 1921-1938.(SCI,Q1) (8)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) (9)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) (10)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) (11)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) (12)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) (13)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) (14)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) (15)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) (16)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) (17)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) (18)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) (19)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) (20)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) (21)邬忠万,龚杰*,苏永生.轮缘推进器叶片构型参数和水下辐射噪声的关联性,
中国舰船研究,
2024, 19: 1–10. (22)邬忠万,龚杰*,丁江明,等.正反向等推力无轴轮缘推进器叶片参数化设计和优化方法,第三十四届全国水动力学研讨会暨第十七届全国水动力学学术会议,2023,中国宁波. (23)龚杰,孙一丹,丁江明,等.斜流工况下喷水推进系统流场控制体理论模型研究,中国造船,
2023, 64(1):24-33.(EI) (24)龚杰,丁江明,刘建国,张志远,戴原星.限制水域下喷水推进器水动力特性研究,船舶力学,
2023, 27(01): 45-51.(EI) (25)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) (26)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) (27)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,高PCSI论文) (28)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,高PCSI论文) 国家发明专利 (1)基于代理模型的船舶推进器优化设计方法,2024-5-14,中国,ZL202410108241.1 (2)无毂式喷水推进结构和航行器,2023-6-25,中国,
ZL202310745975.6 (3)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 (4)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 (5)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 (6)适用于导管桨的微气泡降噪装置,2018-8-17,中国,
ZL201710108093.3 (7)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 (8)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 (1)喷水推进船模试验数值仿真软件(2019SR0807993) (2)实尺度喷水推进船舶运动仿真与航速预报软件(2019SR0808112) (3)基于场函数的自适应动态非结构网格剖分软件(2019SR0808006) (4)通用型小型喷水推进系统控制软件(2018SR479649) (5)基于PID控制的矢量喷水推进系统控制与运动仿真软件(2018SR617425) (6)船舶及海洋结构物非结构网格自动生成软件(2018SR622542) | 
