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2022级博士生王鑫程,申报项目题为《水质因素对梢涡空化界面不稳定性及其诱导噪声的影响机制研究》,指导老师为季斌教授。该项目针对国家应对舰船推进器空化噪声和实现“海洋强国”战略目标的迫切需求,构建考虑水质因素的梢涡空化动力学-声学理论分析模型与数值模拟方法,研究不同水质条件下的梢涡空化界面失稳机制与发声机制。研究成果不仅有助于深入认识涡空化噪声机理等空化水动力学共性基础问题,还可为工程实践中控制推进器空化噪声提供理论依据与技术支持。
学院新闻报道链接:https://swrh.whu.edu.cn/info/1051/90311.htm
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简介:2022级博士生王鑫程(2020年9月进入武汉大学读研【本科河海大学】,后转入硕博连读),目前已发表SCI论文11篇,其中第一作者6篇,第二作者3篇,第三作者2篇。
6篇第一作者论文如下:
[1] Wang, X. C., Song, M. T., Cheng, H. Y., Ji, B., and Li, L. M., 2024, "A Multiscale Euler–Lagrange Model for High-Frequency Cavitation Noise Prediction," ASME J. Fluids Eng., 146(6), p. 061502. (https://doi.org/10.1115/1.4064296)
[2] Wang, X. C., Bai, X. R., Cheng, H. Y., Ji, B., and Peng, X. X., 2023, "Numerical investigation of cavitating tip vortex dynamics and how they influence the acoustic characteristics," Phys. Fluids., 35(6), p. 062119. (https://doi.org/10.1063/5.0152580)
[3] Wang, X. C., Bai, X. R., Cheng, H. Y., Ji, B., and Peng, X. X., 2023, "Numerical investigation of how gap size influences tip leakage vortex cavitation inception using a Eulerian–Lagrangian method," Phys. Fluids., 35(1), p. 012113. (https://doi.org/10.1063/5.0131813)
[4] Wang, X. C., Bai, X. R., Qian, Z. H., Cheng, H. Y., and Ji, B., 2022, "Modal analysis of tip vortex cavitation with an insight on how vortex roll-up enhances its instability," Int J Multiphase Flow, 157, p. 104254. (https://doi.org/10.1016/j.ijmultiphaseflow.2022.104254)
[5] Wang, X. C., Bai, X. R., Cheng, H. Y., Yu, A., and Ji, B., 2022, "LES investigation of cavitation harmonic tone around a Delft twist-11 hydrofoil," Ocean Eng, 253, p. 111313. (https://doi.org/10.1016/j.oceaneng.2022.111313)
[6] Wang, X. C., Bai, X. R., Cheng, H. Y., and Ji, B., 2021, "Temporal and spatial characteristics of monopole acoustic energy dominated by unsteady thermodynamic cavitating flow," J Hydrodyn, 33(4), pp. 867-871. (https://doi.org/10.1007/s42241-021-0059-z)
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