四川大学水力学与山区河流开发保护国家重点实验室教授、实验室副主任,欧洲科学与艺术院院士,教育部重要人才计划特聘教授,国家级人才称号获得者,天府杰出科学家;担任国际海洋工程期刊《Applied Ocean Research》主编;《Journal of Hydraulic Engineering》(美国土木工程师协会会刊)、《Journal of Hydraulic Research》、《Journal of Hydro-environment Research》(国际水利环境研究协会会刊)、《Journal of Ocean Engineering and Marine Energy》以及《Water Science and Engineering》副主编;《Journal of Earthquake and Tsunami》(地震与海啸期刊)、《Coastal Engineering》、《Engineering Applications of Computational Fluid Mechanics》(计算流体力学工程应用)、《工程科学与技术》、《水利水电科技进展》以及《南水北调与水利科技》编委。主要研究领域为水利工程、水力学及河流动力学、港口海岸及海洋工程、计算流体动力学(CFD)及其在水利、海岸与海洋工程中的应用。发表学术论文百余篇,引用超过8000次,Hi指数超过42。
代表性科研成果
期刊论文
1. Fang, H., Tang, L.,& Lin, P. (2023). Bragg scattering of nonlinear surface waves by 2 sinusoidal sandbars. Journal of Fluid Mechanics,, doi:10.1017/jfm.2023.1005.
2. Fang, H., Liu, P. L. F., Tang, L., & Lin, P. (2023). The theory of fifth-order Stokes waves in a linear shear current. Proceedings of the Royal Society A, 479(2280), 20230565.
3. Tang, L., & Lin, P. (2023). A numerical study of aeration characteristics of a plunging solitary wave on a slope. Physics of Fluids, 35(7).
4. Ren, Y., Xue, M. A., & Lin, P. (2023). Experimental study of sloshing characteristics in a rectangular tank with elastic baffles. Journal of Fluids and Structures, 122, 103984.
5. Liu, D., & Lin, P. (2022). Interface instabilities in Faraday waves of two-layer liquids with free surface. Journal of Fluid Mechanics, 941, A33.
6. Jin, X., Luo, M., Xue, M. A., & Lin, P. (2022). Resonant sloshing in a rectangular tank under coupled heave and surge excitations. Applied Ocean Research, 121, 103076.
7. Tang, L., Wang, H., & Lin, P. (2022). Numerical modeling of air entrainment by turbulent plunging jet and aerated flow in the plunging pool. Environmental Fluid Mechanics, 1-21.
8. Zhang, X., Lin, P., & Nepf, H. (2021). A simple‐wave damping model for flexible marsh plants. Limnology and Oceanography, 66(12), 4182-4196.
9. Tang, X., Lin, P., Liu, P. L. F., & Zhang, X. (2021). Numerical and experimental studies of turbulence in vegetated open-channel flows. Environmental Fluid Mechanics, 21(5), 1137-1163.
10. Luo, M., Khayyer, A., & Lin, P. (2021). Particle methods in ocean and coastal engineering. Applied Ocean Research, 114, 102734.
11. Xue, M. A., Jiang, Z., Lin, P., Zheng, J., Yuan, X., & Qian, L. (2021). Sloshing dynamics in cylindrical tank with porous layer under harmonic and seismic excitations. Ocean Engineering, 235, 109373.
12. Wen, Y., Kamranzad, B., & Lin, P. (2021). Assessment of long-term offshore wind energy potential in the south and southeast coasts of China based on a 55-year dataset. Energy, 224, 120225.
13. Liu, D., Lin, P., Xue, M. A., Cheng, L., & Lian, J. (2021). Numerical simulation of two-layered liquid sloshing in tanks under horizontal excitations. Ocean Engineering, 224, 108768.
14. Li, C. W., & Lin, P. (2020). Simulation of three-dimensional coherent and turbulent motions around a rectangular pile in an open channel flow. In Stochastic Hydraulics 2000 (pp. 173-183). CRC Press.
15. Xie, Z., Stoesser, T., Yan, S., Ma, Q., & Lin, P. (2020). A Cartesian cut-cell based multiphase flow model for large-eddy simulation of three-dimensional wave-structure interaction. Computers & Fluids, 213, 104747.
16. Zhang, X., Lin, P., Gong, Z., Li, B., & Chen, X. (2020). Wave attenuation by spartina alterniflora under macro-tidal and storm surge conditions. Wetlands, 40(6), 2151-2162.
17. Liu, H. W., Li, X. F., & Lin, P. (2019). Analytical study of Bragg resonance by singly periodic sinusoidal ripples based on the modified mild-slope equation. Coastal Engineering, 150, 121-134.
18. Zhu, H., Lin, P., & Gao, Y. (2019). Vortex-induced vibration and mode transition of a curved flexible free-hanging cylinder in exponential shear flows. Journal of Fluids and Structures, 84, 56-76.
19. Jin, X., & Lin, P. (2019). Viscous effects on liquid sloshing under external excitations. Ocean Engineering, 171, 695-707.
20. Lin, P., Chen, D., Tang, X., & Ding, Y. (2018). Bed shear stress and turbulence characteristics under unsteady flows. Journal of Hydro-environment Research, 21, 1-20.
21. Peng, Z., Zou, Q. P., & Lin, P. (2018). A partial cell technique for modeling the morphological change and scour. Coastal engineering, 131, 88-105.
22. Xu, H., & Lin, P. (2017). A new two-step projection method in an ISPH model for free surface flow computations. Coastal Engineering, 127, 68-79.
23. Xue, M. A., Zheng, J., Lin, P., & Yuan, X. (2017). Experimental study on vertical baffles of different configurations in suppressing sloshing pressure. Ocean Engineering, 136, 178-189.
24. Zhu, H., Lin, P., & Yao, J. (2016). An experimental investigation of vortex-induced vibration of a curved flexible pipe in shear flows. Ocean Engineering, 121, 62-75.
25. Lin, P., Cheng, L., & Liu, D. (2016). A two-phase flow model for wave–structure interaction using a virtual boundary force method. Computers & Fluids, 129, 101-110.
26. Lin, P., Liu, X., & Zhang, J. (2015). The simulation of a landslide-induced surge wave and its overtopping of a dam using a coupled ISPH model. Engineering Applications of Computational Fluid Mechanics, 9(1), 432-444.
27. Liu, X., Lin, P., & Shao, S. (2015). ISPH wave simulation by using an internal wave maker. Coastal Engineering, 95, 160-170.
28. Liu, X., Lin, P., & Shao, S. (2014). An ISPH simulation of coupled structure interaction with free surface flows. Journal of Fluids and Structures, 48, 46-61.
29. Ha, T., Shim, J., Lin, P., & Cho, Y. S. (2014). Three-dimensional numerical simulation of solitary wave run-up using the IB method. Coastal Engineering, 84, 38-55.
30. Ha, T., Lin, P., & Cho, Y. S. (2013). Generation of 3D regular and irregular waves using Navier–Stokes equations model with an internal wave maker. Coastal Engineering, 76, 55-67.
31. Liu, X., Xu, H., Shao, S., & Lin, P. (2013). An improved incompressible SPH model for simulation of wave–structure interaction. Computers & Fluids, 71, 113-123.
32. Xue, M. A., & Lin, P. (2011). Numerical study of ring baffle effects on reducing violent liquid sloshing. Computers & Fluids, 52, 116-129.
33. Liu, D., & Lin, P. (2009). Three-dimensional liquid sloshing in a tank with baffles. Ocean engineering, 36(2), 202-212.
34. Liu, D., & Lin, P. (2008). A numerical study of three-dimensional liquid sloshing in tanks. Journal of Computational physics, 227(8), 3921-3939.
35. Lin, P. (2007). A fixed-grid model for simulation of a moving body in free surface flows. Computers & fluids, 36(3), 549-561.
36. Lin, P. (2004). A numerical study of solitary wave interaction with rectangular obstacles. Coastal Engineering, 51(1), 35-51.
37. Lin, P., & Li, C. W. (2002). A σ‐coordinate three‐dimensional numerical model for surface wave propagation. International Journal for Numerical Methods in Fluids, 38(11), 1045-1068.
38. Liu, P. L. F., Lin, P., Chang, K. A., & Sakakiyama, T. (1999). Numerical modeling of wave interaction with porous structures. Journal of waterway, port, coastal, and ocean engineering, 125(6), 322-330.
39. Lin, P., Chang, K. A., & Liu, P. L. F. (1999). Runup and rundown of solitary waves on sloping beaches. Journal of waterway, port, coastal, and ocean engineering, 125(5), 247-255.
40. Lin, P., & Liu, P. L. F. (1999). Internal wave-maker for Navier-Stokes equations models. Journal of waterway, port, coastal, and ocean engineering, 125(4), 207-215.
41. Lin, P., & Liu, P. L. F. (1998). Turbulence transport, vorticity dynamics, and solute mixing under plunging breaking waves in surf zone. Journal of Geophysical Research: Oceans, 103(C8), 15677-15694.
42. Lin, P., & Liu, P. L. F. (1998). A numerical study of breaking waves in the surf zone. Journal of fluid mechanics, 359, 239-264.
专著
1. Lin, P., 2008. Numerical modeling of water waves. Taylor & Francis Co., U.K.
2. Liu, C.C.K., Lin P., Xiao H., 2021. Water Environment Modeling. Taylor & Francis Co., U.K.
3. 林鹏智、薛米安、赵西增、何方,2023。海岸与海洋工程中的计算水动力学。 科学出版社
科研项目
1. 波流作用下水下悬浮隧道的复杂响应特性与减振控制研究 (国家自然科学基金重点项目),2021.1.1-2025.12.31
2. 水灾害综合防治“111”高端引智项目(教育部、国家外专局),2018.01-2022.12
3. 我国典型滨海湿地“海洋卫士”减灾功能评价与优化应用 (国家海洋局减灾中心项目),2018.1.1-2019.6.30
4. 地震涌浪的产生与传播机理及其对土石坝安全影响的研究(国家自然科学基金面上项目),2015.1.1-2018.12.31
5. 气候变化下洪水风险综合评估方法(英国文化协会国家合作项目),2015.3.31-2017.3.31
6. 梯级水库群风险分析与评估 (国家科技部973项目), 2013.1.1-2017.8.31
7. 海岸植物消浪机理与减低波浪冲高的试验(国家自然科学基金面上项目),2013.1.1-2016.12.31
8. 山区流域水灾害防治研究(四川省科技厅重点项目),2016.6.1-2018.5.31
9. 基于虚拟边界力法的三维液体晃荡数值模型(教育部博士点基金),2013.1.1-2015.12.31
人才培养
招收安全科学与减灾(安全科学与技术)方向博士研究生。
