空化水射流、风力机气动特性、船舶水动力学

一、期刊论文

31. Zhang X, Wang Y, Tao M, et al. Aerodynamic and wake characteristics of a full-scale 5MW wind turbine: A data-driven modal decomposition study of wind shear and tower shadow effects. Ocean Engineering, 2026, 345:123878. (SCI检索, JCR-Q1)

30. Zhang M, Yu Y, Tian Q, Sun F, Xu W, Zhang X*, Xie Z. Deep learning framework with dynamic oscillatory spatial attention for thrust bearing fault diagnosis in podded propulsors. Ocean Engineering, 2026, 343:123483. (SCI检索, JCR-Q1)

29. Zhu R, Zhu H Zhang X*, et al. Spatiotemporal cavitation dynamics in submerged cavitating jets: Influence of standoff distance. Physics of Fluids, 2025, 37:123317. (SCI检索, JCR-Q1)

28. 张晓慧, 李博, 周耀华, 等. 高速空化水射流对冰层的侵蚀特性研究. 中国造船, 2025, 66(3):187-197. (EI检索)

27. Zhu R, Zhu H Zhang X*, et al. Flow field characteristics and three-dimensional coherent structures of free and impinging cavitating water jets: Effect of nozzle configuration. Physics of Fluids, 2025, 37:083302. (SCI检索, JCR-Q1)

26. Zhu H, Pan S, Zhang X*, et al. Cavitation-induced cleaning characteristics of barnacle fouling on hull surfaces using high-speed water jets. Ocean Engineering, 2025, 340:122466. (SCI检索, JCR-Q1)

25. Zhu R,  Zhang X*, Zhu H,et al. Unsteady characteristics of sumberged impinging cavitating water jets via synchronous dual-perspective observation. Ocean Engineering, 2025, 329:121091.(SCI检索, JCR-Q1)

24. Xie Z, Sun Y, Yang M, Han R, Gao W, Zhao B, Dong Q, Zhang X, Xue F. Comprehensive analysis on the regulation and optimization of thrust bearing with pad cavity. Physics of Fluids, 2025, 37:033117.(SCI检索, JCR-Q1)
23. Xie Z, Yang K, Yang M, He T, Zhao B, Gao W, Zhang X. Tribo-dynamic behaviors of a new marine bearing system with micro-asperity effects: Theory and experiment. Physics of Fluids, 2025, 37:023141.(SCI检索, JCR-Q1)
22. Zhang X, Tao M, Zhu R, et al. Aerodynamic and wake characteristics for full-scale and model-scale 5MW wind turbines using data-driven modal decomposition. Ocean Engineering, 2025, 318:120131. (SCI检索, JCR-Q1)

21. Zhang X, Liu B, Zhu R, et al. Investigation on unsteady flow characteristics of an artificial-submerged cavitating jet based on the LES approach. Ocean Engineering, 2025, 316:119989. (SCI检索, JCR-Q1)
20. Zhang X, et al. Maneuverability characteristics of a fouling submarine near the seabed. Ocean Engineering, 2025, 315:119773. (SCI检索, JCR-Q1)
19. Zhu R, Zhu H, Zhang X*, et al. Experimental Study on the Unsteady Behavior and Frequency Characteristics of High-Speed Submerged Cavitating Water Jets. Physics of Fluids, 2024, 36:103336. (SCI检索, JCR-Q1)
18. Xie Z, Zhang H, Zhao Bin, Du P, Zhang X. Effect of turbulence on lubrication behaviors of a new bearing under bi-misaligned status: Theoretical and experimental study. Mechanical Systems and Signal Processing, 2024, 218:111547.(SCI检索, JCR-Q1)
17. Zhang X,  et al. On wave-current interaction with a horizontal cylinder near free surface by a fourth-order-accurate finite volume compact solver. Ocean Engineering, 2024, 302:117666. (SCI检索, JCR-Q1)
16. Zhang X,  et al. Solitary wave-current forces on a horizontal cylinder by a fourth-order-accurate finite volume compact solver. Ocean Engineering, 2024, 294:116788. (SCI检索, JCR-Q1)
15. Zhu R, Zhang X*, Zhu H, et al. On unsteady cavitation flow of a high-speed submerged water jet based on data-driven modal decomposition. Ocean Engineering, 2024, 295:116916. (SCI检索, JCR-Q1)
14. 张晓慧, 等. 附壁粗糙度对近海底潜器垂直面水动力特性影响. 中国造船, 2024,65,3:221-233. (EI检索)
13. Zhang X, Xu Q, Zhang M, et al. Numerical prediction of cavitation fatigue life and hydrodynamic performance of marine propellers. Journal of Marine Science and Engineering, 2024, 12:74. (SCI检索, JCR-Q1)
12. Zhang M, Sun L, Xu W, Yao Y, Zhang X*. Numerical investigation into hydrodynamic interactions between an open-frame underwater cleaning robot and a full-scale floating production storage and offloading. J. Shanghai Jiao Tong Univ. (Sci.), 2024. (EI检索)
11. Sun L Shang Y, Kong J, He M, Hou G, Cai X, Zhang X, Wu J, Wang P. Prediction method for bending moment capacities and failure modes of TSOBs bolted I-beam to hollow section square column. Journal of Constructional Steel Research,2024,214,108449.(SCI检索, JCR-Q1)
10. Zhu R, Zhu H, Zhang X*. Numerical investigation about the unsteady behavior of a free submerged cavitation jet using the SBES approach. Ocean Engineering, 2023, 281:115010. (SCI检索, JCR-Q1)
9. 邹磊,田威,林源,张晓慧*. 基于不同湍流模型的螺旋桨水动力特性研究. 船舶工程,2023,12(45):94-100,114. (中文核心)
8. Zhang X, Gu X, Ma N. A ghost-cell immersed boundary method on preventing spurious oscillations for incompressible flows with a momentum interpolation method. Computers & Fluids, 2021, 220:104871. (SCI检索, JCR-Q1)
7. Zhang X, Gu X, Ma N. Roll characteristics contributed by a bilge keel using a high-order fractional step finite volume solver. Ocean Engineering, 2021, 240:109935. (SCI检索, JCR-Q1)
6. Zhang X, Gu X, Ma N. A high-order fractional step finite volume solver towards prediction of longitudinal distribution of cross-sectional ship roll hydrodynamics. Journal of Marine Science and Technology, 2021, 26:273-289. (SCI检索, JCR-Q2)
5. Zhang X, Gu X, Ma N. Comparative study on eddy roll damping with experimental results using a high-order fractional step finite volume solver. International Journal of Offshore and Polar Engineering, 2021, 31(02):199–209. (SCI检索, JCR-Q4)
4. Zhang X, Gu X, Ma N. Bilge keel load and hull pressure distribution on a rolling ship section with a high-order fractional step finite volume solver. Ocean Engineering, 2020, 199:107014. (SCI检索, JCR-Q1)
3. Zhang X, Gu X, Ma N. Prediction of roll hydrodynamic characteristics for a ship hull section with a high-order finite volume solver. Ocean Engineering, 2019, 180:119-129. (SCI检索, JCR-Q1)
2. Zhang X, Gu X, Ma N, Wang Y, Wu Z. Experimental investigation into the effect of roll amplitude on roll damping. Journal of Shanghai Jiao Tong University (Science), 2019, 24(6):732-738. (EI检索)
1. 张晓慧, 柏君励, 顾解忡, 马宁. 一种不可压缩二维流动的显式逐次超松并行算法. 上海交通大学学报, 2019, 53(5):56-62. (EI检索)

 

二、会议论文

10. CFD2023/2024/2025, ICSOS2023, ICCOE2024, CFD2024 (国内、国际会议)
9. Zhang X, et al. Maneuvering stability analysis of a fouling autonomous underwater vehicle in horizontal plane. Proceedings of the ASME 2024 43nd International Conference on Ocean, Offshore and Arctic Engineering, 2024:124814.  (EI检索)
8. Zhu R, Zhang X, Zhu H, et al. Numerical investigation of a high-speed submerged cavitating water jet based on different turbulence models. Proceedings of the ASME 2024 43nd International Conference on Ocean, Offshore and Arctic Engineering, 2024:122317.  (EI检索)
7. Zhang X, Gu X, Ma N. Simulation of roll performance for various ship sections by solving Navier-Stokes equations. Proceedings of the Twenty-ninth International Ocean and Polar Engineering Conference, 2019, Honolulu, Hawaii.  (EI检索)
6. Zhang X, Gu X, Ma N. Large eddy simulation of flows around a free surface piercing fixed 2D rectangle using a novel ghost-cell immersed boundary method. Proceedings of the Twenty-eighth International Ocean and Polar Engineering Conference, 2018, Sapporo, Japan.  (EI检索)
5. Zhang X, Gu X, Ma N. Application of a Rankine source method in seeking for optimum trim of a container ship with lowest wave-making resistance. Proceedings of the Twenty-sixth International Ocean and Polar Engineering Conference, 2016, Rhodes, Greece.  (EI检索)
4. Zhang X, Ma N*, Gu X. Uncertainty analysis for CFD simulation of wave hydrodynamic loads on a fixed cylinder. 5th Joint ISSC/ITTC International Workshop, 2020, Lisbon, Portugal. (国际会议)
3. 张晓慧, 顾解忡*, 马宁. 以不同幅值做强迫横摇的二维船体横摇阻尼的数值模拟[C]. 2018年第二届全国船舶稳性学会研讨会, 2018, 无锡, 江苏, 48-53. (国内会议)
2. Zhang X, Gu X*, Ma N. Roll performance for bow cross-section of KVLCC2[C]. WETNAOE2018, Hiroshima, Japan. (国际研讨会)
1. 张晓慧, 顾解忡*, 马宁, 毛文雷. 基于静水阻力的船舶最佳纵倾预报方法研究[C]. 2016年船舶结构力学学术会议, 2016, 武汉, 398-404. (国内会议)