一、期刊论文
22. Zhang X, Huo J, Zhang M, et al. Maneuverability characteristics of a fouling submarine near the seabed. Ocean Engineering, 2025, 315:119773. (SCI检索, JCR-Q1)
21. 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)
20. 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, 2024. (Under review, SCI检索, JCR-Q1)
19. 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, 2024. (Under review, 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, Huo J, Zhang M, 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, Huo J, Zhang M, 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, 霍建龙, 张金钊, 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,霍建龙,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, ICSOS2023, ICCOE2024, CFD2024 (国内、国际会议)
9. Zhang X, Huo J, Xu Q, 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)
