金秋

基本情况

出生年月: 1992年10月

职称:讲师

最高学位:博士研究生

主要研究方向: 1. 计算流体力学2.舰船结构防护

导师类别:学硕型硕导/专业型硕导

工作单位:船海与能源动力工程学院高性能舰船技术教育部重点实验室

工作地址:武汉理工大学余家头校区船舶系大楼104

Email: autumnjinqiu@whut.edu.cn

教育及工作经历

2022年11月-至今，武汉理工大学，船海与能源动力工程学院，讲师

2017年9月-2022年1月，英国南安普顿大学，船舶科学，博士

2014年9月-2017年9月，武汉理工大学，力学，硕士

2010年9月-2014年6月，武汉理工大学，船舶与海洋工程，学士

近期主持科研项目

1. 2025年-2026年，202502HX134，横向，主持；

2. 2025年-2026年，202502HX70，横向，主持；

3. 2024年-2025年，大型船舶节能减阻新技术研究与开发船首挡风墙设计及优化，横向，主持；

4. 2023年-2025年，破碎波砰击浮体气液耦合算法和机理研究，湖北省自然科学基金，纵向，主持；

5. 2024年，多用途货船船模试验，横向，参与。

近期代表性学术成果

1.Wang Z, Li T, Jin Q*, et al. Numerical study on hydrodynamic characteristics of the ship lock entry process under both constant-speed and fixed-thrust conditions[J]. Physics of Fluids, 2026, 38(1). (SCI收录)

2.Lu Y, Li L, Jin Q*. A Comparative Study on the Calculation Methods of Nonlinear Springing of Large Containerships[J].  Journal of Marine Science and Engineering, 2025, 13(7). (SCI收录)

3.Xin J, Shi F, Jin Q, et al. Hydrodynamic interaction and energy-saving mechanisms of two three-dimensional parallel swimmers with synchronous and asynchronous undulation[J]. Physics of Fluids, 2025, 37(6). (SCI收录)

4.Shi F, Xin J, Jin Q, et al. Hydrodynamics investigation of a three-dimensional fish swimming in oblique flows by a ghost cell method[J]. Physics of Fluids, 2024, 36(11):17. (SCI收录)

5.Lu Y, Jin Q*, Yang J, et al. The effect of forward speed on hydrodynamic response of a containership in head waves[J].Ocean Engineering, 2024, 304(000):15. (SCI收录)

6.Wang Z, Li T, Ren J, Jin Q*，Zhou W. URANS Calculation of Ship Heave and Pitch Motions in Marine Simulator Based on Overset Mesh[J]. Journal of Marine Science and Engineering, 2022. (SCI收录)

7.Wang Z, Li T, Jin Q*, Gu Hao, Zhao J, Qi J. Fast Multigrid Algorithm for Non-Linear Simulation of Intact and Damaged Ship Motions in Waves. Journal of Marine Science and Engineering, 2022. (SCI收录)

8.Jin Q*, Xin J, Shi F, et al. Parametric studies on sloshing in a three-dimensional prismatic tank with different water depths, excitation frequencies, and baffle heights by a Cartesian grid method[J]. International Journal of Naval Architecture and Ocean Engineering, 2021, 13:691-706. (SCI收录)

9.Jin Q*, Hudson D, Price W. A Combined Volume of Fluid and Immersed Boundary Method for Modelling of Two-Phase Flows with High Density Ratio[J].Journal of Fluids Engineering, 2021. (SCI收录)

10.Jin Q*, Hudson D, Temarel P. A combined volume of fluid and immersed boundary method for free surface simulations induced by solitary waves[J]. Ocean engineering, 2022(245-Feb.1). (SCI收录)

11.Jin Q*, Hudson D, Temarel P, et al. Turbulence and energy dissipation mechanisms in steady spilling breaking waves induced by a shallowly submerged hydrofoil[J]. Ocean Engineering, 2021. (SCI收录)

12.Jin Q*, Hudson D, Temarel P. Numerical simulation of plunging breaking waves on a ship bow by a two-phase flow solver[C]//ISOPE International Ocean and Polar Engineering Conference. 2020: ISOPE-I-20-3187. (EI收录)

13.Jin Q*, Hudson D, Temarel P, et al. Performance of a two-phase flow solver for the simulation of breaking waves[C]//International Conference on Offshore Mechanics and Arctic Engineering. American Society of Mechanical Engineers, 2019, 58882. (EI收录)

招生专业

硕士：船舶与海洋工程（学硕），机械（专硕）