NYATCHOUBA NSANGUE BRUNO THIERRY (中文名:吉利) 讲师
发布时间:2026-03-23
浏览次数:10
NYATCHOUBA NSANGUE BRUNO THIERRY(中文名:吉利),男,1989年6月出生,喀麦隆籍,博士,讲师,捕捞学专业硕士生指导教师。主要从事柔性渔具的水动力学、渔具的数值模拟以及周围流场的生成机制等关键科学问题。先后主持与参与国家级、省部级科研项目4项,以第一作者及通讯作者身份在海洋工程、流体力学、渔业工程等领域国际TOP期刊发表SCI收录论文20余篇。长期担任Ocean Engineering、Fisheries Research、Ocean and Coastal Management等5本国际知名期刊审稿人,长期致力于水动力学特性和生态高效渔具的研究与开发,取得了一系列重要的创新成果,为我国远洋渔业的可持续发展做出了贡献。热忱欢迎对渔具水动力、捕捞装备优化、渔业流体力学等方向感兴趣的优秀本科生、硕士研究生加入研究团队,共同开展前沿学术研究。
电子邮件:nnbt@shou.edu.cn
教育背景
2008年9月至2011年7月:杜阿拉大学(喀麦隆);工业捕鱼;本科
2011年9月至2013年7月:杜阿拉大学(喀麦隆);工业捕鱼;硕士研究生
2017年9月至2020年7月: 海洋生物资源与管理学院,捕捞学;博士研究生
工作情况
2013年10月至2017年8月: 喀麦隆ISEM-IBCG大学集团 课程讲师
2013年10月至2017年8月: ISEM-IBCG大学, 海事工程培训者
2020年8月至2022年7月: 海洋生物资源与管理学院 博士后
2022年8月至今: 海洋生物资源与管理学院 讲师
教学工作情况
主要承担课程包括:渔具渔法基础前沿(留学生)、学科经典文献导读、渔具数值模拟
主要研究方向
· 拖网水动力特性及流场分布数值模拟研究
· 物理模型建模及数值模拟方法改进
主持科教项目
1. 上海市自然科学基金面上项目(23ZR1427000),“柔性网囊水动力和周围流场规律对栅型兼捕减少装置的响应机制”,经费来源为上海市科学技术委员会,20万,起至年月为2023.04-2026.03。(参与)
2. 国家自然科学基金外国青年学者研究基金项目(32350410404),“Optimization of the Chinese gillnet and trammel net design parameters based on the complex interaction between the flow field, gear structure, and shrimp for the capture of mantis shrimp (Oratosquilla oratoria) and Chinese shrimp (Penaeus chinensis)”,经费来源为国家自然科学基金委,50万,起至年月为2024.01-2025.12。(主持)
3. 国家自然科学基金面上项目(32373187),“兼捕减少装置(Bycatch Reduction Devices, BRD)对拖网网囊系统水动力及渔获性能的调控机制”,经费来源为国家自然科学基金委,65万,起至年月为2024.01-2027.12。(参与)
4. 农业农村部中西太平洋公海渔业资源综合科学调查项目(D-8025-25-5003-08),子课题“智能延绳钓装备研制与应用” 经费来源为农业农村部,20万。(子课题负责人)
代表论著(第一和通讯作者*)
1. Tang H, Thierry, B.N.N*, Xu L, et al. A method for predicting the hydrodynamic characteristics of trawl codends based on machine learning models. Journal of Ocean Engineering and Science, 2026. (IF=11.8; Q1)
2. Thierry, B.N.N, Tang H*, Liu W, Xu L X, Hu F X. Turbulent flow interacting with flexible trawl net structure including simulation catch in flume tank. Scientific Reports, 023, 13, 6249 (IF=4.997; Q1)
3. Tang, Hao; Thierry, B.N.N *; Njomoue Pandong Achile; Pingguo He; Xu, Liuxiong; Fuxiang Hu. Flume Tank Evaluation on the Effect of Liners on the Physical Performance of the Antarctic Krill Trawl. Frontiers in Marine Science. 2022. (IF=4.912 ; Q1)
4. Thierry, B.N.N., Tang, H*. Flow field and nonlinear dynamics of the gillnet structures under steady flow using a one-way coupling model. Ocean Engineering, 2024 (IF=4.372; Q1)
5. Thierry, B.N.N, Tang, H*. Unsteady flow dynamic response in the cylinder-netting structure for the design of offshore fish farm systems using an SST-IDDES turbulence model. Aquacultural Engineering, 2024 (IF=4.2; Q1)
6. Thierry, B.N.N, Tang, H*, Mouangue R, et al. Non-linear dynamic behavior of T0 and T90 mesopelagic trawls based on the Hilbert–Huang transform. Marine Structures, 2025 (IF=4.0; Q1)
7. Thierry, B.N.N., Tang, H*., Xu, L., Hu, F., Shuchuang, D., Njomoue, P.A., Baiqiang, Z. Comparison between physical model testing and numerical simulation using two-way fluid-structure interaction approach of new trawl design for coastal bottom trawl net. Ocean Engineering, 2021 (IF: 3.795, Q1).
8. Tang, Hao; Thierry, B.N.N *;Njomoue Pandong Achile; Qiuyang Sun; Xu, Liuxiong; Fuxiang Hu; Baiqiang Zou. Hydrodynamic and turbulence flow characteristics of fishing nettings made of three twine materials at small attack angles and low Reynolds numbers. Ocean Engineering, 2022 (IF=3.795; Q1).
9. Tang H, Thierry, B.N.N*, Achile N P Xu L X, Hu F X, Mbangue E. Coupled dynamics of the moving Antarctic krill trawl structure and its hydrodynamics behavior using various catch sizes and door spreads based on wavelet-based and Fourier analysis, Journal of Fluids and Structures, 2024 (IF=3.482; Q1)
10. Thierry, B.N.N., Tang, H., Njomoue, P.A., Xu, L., Hu, F., You, X. Comparative study on the full-scale prediction performance of four trawl nets using in the coastal bottom trawl fishery by flume tank experimental investigation. Applied Ocean Research, 2020 (IF=2.979, Q2).
11. Zou, B&., Thierry, B.N.N&., H. Tang*, L. Xu, C Zhou, X Wang, S. Dong, F. Hu. Flow field and drag characteristics of cruciform structures netting with various knot structure size using CFD models. Applied Ocean Research, 2021 (IF: 2.979, Q2,).
12. Thierry, B.N.N., Tang, H., Achile, N.P. Xu, L., Zhou, C., Hu, F. Unsteady turbulent flow developing inside and around different parts of fluttering trawl net in flume tank. Journal of Fluids and structures. Volume 108, 2022 (IF: 2.917, Q2).
13. Thierry, B.N.N; Tang, Hao*; Njomoue Pandong Achile; Xu, Liuxiong; Fuxiang Hu. Unsteady turbulent flow developing inside and around different parts of fluttering trawl net in flume tank. Journal of Fluids and structures. 2022 (IF=2.917 ; Q2).
14. Zhang F, Tang H*, Thierry, B.N.N *, Liu W, Sun Q Y, Zhu M X, Zhang C, Guo X H, Shan C X, Xu L X. The Oscillating Behavior of Trawl Codends Including Various Geometric Configurations of Simulated Catch. Journal of Marine Science and Engineering, 2023 (IF=2.9; Q1)
15. Shan C, Tang H*, Thierry, B.N.N, Liu W, Zhang F, Zhu M, Zhang C, Xu L, Hu F. Sinking Behavior of Netting Panels Made with Various Twine Materials, Solidity Ratios, Knot Types, and Leadline Weights in Flume Tank. Journal of Marine Science and Engineering. 2023 (IF=2.9; Q1)
16. Zhang C, Tang H*, Thierry, B.N.N, Yin L, Zhang F, Zhu M, Shan C, Xu L, Hu F. Flow Field Pattern and Hydrodynamic Characteristics of a Grid Device Made with Various Grid Bar Spacings at Different Inclination Angles. Journal of Marine Science and Engineering. 2023 (IF=2.9; Q1)
17. Thierry, B.N.N, Tang, H*, Zhang, J., Liu, W., Xu, L., Hu, F. Experimental analysis of the influence of gear design and catch weight on the fluid–structure interaction of a flexible codend structure used in trawl fisheries. Applied Sciences, 2023 (IF=2.7; Q1)
18. Thierry, B.N.N., Tang, H., Xu, Lx. Hu, F., You, Xx. David, M.A, Achille, N.P. Identifying the turbulent flow developing inside and around the bottom trawl by Electromagnetic Current Velocity Meter approach in the flume tank. Journal of Hydrodynamics. 2021 (IF: 2.59, Q2).
19. Thierry, B.N.N; Tang, Hao*; Njomoue Pandong Achile; Xu, Liuxiong; Fuxiang Hu. Examining engineering performance of midwater trawl with different door spread, floatage, and weight parameters: A case study of model net for Antarctic krill fisheries. International Journal of Naval Architecture and Ocean Engineering, 2022 (IF=2.473, Q2).
20. Liu W, Tang H*, Thierry, B.N.N, Zhang J, Zhang F, Zhu M X, Sun Q Y, Xu L X, Hu F X. The profile and fluttering characteristics of a codend with different mesh sizes and catch by fast Fourier transform and Morlet wavelet methods, Fisheries Research, 2023 (IF=2.4; Q2)
21. Liu W, Tang H*, Thierry, B.N.N, Zhang F, Yin L Q, Xu L X, Hu F X, Liu P F. Revealing the Fluttering Motions of Mid-Water Trawl Codend Through Sea Trials: Case Study of Antarctic Krill Trawl Codend. Journal of Ocean University of China (Oceanic and Coastal Sea Research), 2023 (IF=1.6; Q3)
22. Njomoue, P.A., Thierry, B.N.N*., N’SOUVI, K., Asser, Y., Ekmon, M., Dieudonné, E., Moussa, S. Ichthyofaunic inventory and fish landings of Lom Pangar hydroelectric dam reservoir in the eastern region of Cameroon. Open Journal of Marine Science, 2020 (IF: 1.34, Q2)
23. Thierry, B.N.N., Tang, H., Achile, N.P., Xu, L., Zhou, C., Hu, F. Experimental and Numerical Investigations of the Hydrodynamic Characteristics, Twine Deformation, and Flow Field Around the Netting Structure Composed of Two Types of Twine Materials for Midwater Trawls. Journal of Ocean University of China, 2021(IF: 0.913, Q4).
24. Zou, B., Thierry, B.N.N&., H. Tang*, L. Xu, C Zhou, X Wang, S. Dong, F. Hu.. The deformation characteristics and flow field around Knotless Polyethylene Netting based on Fluid Structure Interaction (FSI) one-way coupling. Aquaculture and Fisheries, (IF: 0.647, Q2).
25. Thierry, B.N.N., Zhou, C., Achile, N.P., Xu, L., Kindong R. Catch per unit effort, condition factor and length-weight relationship of albacore tuna (Thunnus Alalunga), yellowfin tuna (Thunnus albacares) and bigeye tuna (Thunnus obesus) in the longline tuna fishery in the eastern Pacific Ocean. Indian Journal of Fisheries. 2021 (IF: 0.5, Q4).