工作单位：海洋工程与技术学院
专业资格：副教授、硕士生导师
电子邮箱：sunpn@mail.sysu.edu.cn
研究方向：船舶与海洋工程流固耦合动力学、光滑粒子流体动力学（SPH）理论与计算方法
招生专业：力学；机械；船舶与海洋结构物设计制造（欢迎感兴趣的同学发邮件交流）
一、个人详细信息介绍
孙鹏楠，男，1991年5月出生，江苏通州人，博士，中山大学副教授，硕士生导师。2013年、2018年于哈尔滨工程大学分获学士、博士学位，博士导师为张阿漫教授。2015-2017年，受国家公派前往意大利国家研究理事会-海洋工程研究所（CNR-INM，前INSEAN水池）进行博士联合培养，2018-2020年，在法国南特中央理工大学进行博士后研究。主要从事船舶与海洋工程流固耦合动力学、光滑粒子流体动力学（SPH）理论与计算方法等方面的研究工作。在CMAME、POF、JFS、OE等期刊发表SCI检索的学术论文20余篇，其中ESI前1%高被引论文3篇，论文累计被引用650余次（2020.07谷歌学术统计结果）。曾获“Journal of Hydrodynamics2018高被引论文奖”、“哈尔滨工程大学优秀博士学位论文奖”，担任《Journal of Hydrodynamics》期刊编委，受邀前往英国曼彻斯特大学、河海大学等单位作学术报告5次。
教育经历：
2015年03月-2017年03月，意大利国家研究理事会-海洋技术研究所（CNR-INM，前CNR-INSEAN），国家公派联合培养博士生，导师：Andrea Colagrossi 教授
2013年09月-2018年06月，哈尔滨工程大学，船舶与海洋结构物设计制造专业，获博士学位，导师：张阿漫 教授
2009年09月-2013年07月，哈尔滨工程大学，船舶与海洋工程专业，获学士学位。
工作经历：
2020年03月-至今，中山大学，海洋工程与技术学院，副教授
2018年07月-2020年02月，法国南特中央理工大学（Ecole Centrale de Nantes），LHEEA实验室，博士后，导师：David Le Touzé教授
社会任职：
[1]《水动力学研究与进展》、《Journal of Hydrodynamics》期刊编委；
[2]《Ocean Engineering》、《Journal of Fluids and Structures》、《Applied Ocean Research》、《Computer methods in Applied Mechanics and Engineering》、《Computers & Fluids》等近20个SCI期刊审稿人。
科研获奖：
[1] 2019年获“Journal of Hydrodynamics2018高被引论文奖”；
[2] 2019年获“哈尔滨工程大学优秀博士学位论文奖”；
[3] 2020年获首届光滑粒子流体动力学国际在线研讨会（SPH Online International Workshop）“Best Presentation Award”奖；
二、科研项目
[1] 2020.03-2022.02，中山大学 海洋工程与技术学院，科研启动经费，主持，在研；
[2] 2019.10-2022.10，天津大学水利工程仿真与安全国家重点实验室开放式基金，基于多粒子分辨率SPH方法的波浪与防波堤护面块体非线性耦合运动研究，主持，在研。
[3] 2017.06-2018.06，中央高校基本科研业务费-博士研究生科研创新基金专项，计及气-汽-液-固四相耦合的细长体高速出入水动力学特性研究，主持,完成。
三、代表性SCI论文
[1] P.N. Sun, A. Colagrossi, S. Marrone, M. Antuono, A.M. Zhang, Multi-resolution Delta-plus-SPH with tensile instability control: towards high Reynolds number flows, Computer Physics Communications, 2018, 224: 63-80. (ESI高被引论文)
[2] P.N. Sun, A. Colagrossi, S. Marrone, A.M. Zhang, The δplus-SPH model: simple procedures for a further improvement of the SPH scheme,Computer Methods in Applied Mechanics and Engineering, 2017, 315: 25-49. (ESI高被引论文)
[3] A.M. Zhang, P.N. Sun, F.R. Ming, A. Colagrossi, Smoothed particle hydrodynamics and its applications in fluid-structure interactions, Journal of Hydrodynamics, Ser. B, 29 (2), (2017) 187-216. (ESI高被引论文)
[4] P.N. Sun, A. Colagrossi, S. Marrone, M. Antuono, A.M. Zhang, A consistent approach to particle shifting in the δ-Plus-SPH model, Computer Methods in Applied Mechanics and Engineering, 2019, 348:912-934.
[5] P.N. Sun,David Le Touzé, A.M. Zhang, Study of a complex fluid-structure dam-breaking benchmark problem using a multi-phase SPH method with APR, Engineering Analysis with Boundary Elements, 2019,104: 240-258.
[6] P.N. Sun, A. Colagrossi, D. Le Touzé, A.M. Zhang, Extension of SPH model for simulating Vortex-Induced-Vibration problems, Journal of Fluids and Structures, 2019, 90, 19-42.
[7] P.N. Sun, Min Luo, David Le Touzé, A.M. Zhang, The suction effect during freak wave slamming on a fixed platform deck: smoothed particle hydrodynamics simulation and experimental study, Physics of Fluids, 2019, 31, 117108.
[8] P.N. Sun, A.M. Zhang, S. Marrone, F.R. Ming, An accurate and efficient SPH modeling of the water entry of circular cylinders, Applied Ocean Research, 2018, 72: 60-75.
[9] P.N. Sun, A. Colagrossi, S. Marrone, A.M. Zhang, Detection of Lagrangian Coherent Structures in the SPH framework, Computer Methods in Applied Mechanics and Engineering, 2016, 305: 849-868.
[10] P.N. Sun, F.R. Ming, A.M. Zhang, Numerical simulation of interactions between free surface and rigid body using a robust SPH method. Ocean Engineering, 2015, 98: 32-49.
[11] P.N. Sun, Y.B. Li, F.R. Ming, Numerical simulation on the motion characteristics of freely rising bubbles using smoothed particle hydrodynamics method, Acta Physica Sinica, 2015, 64 (17), 174701.
[12] P.N. Sun, F.R. Ming, A.M. Zhang, B. Wang. Viscous flow past a NACA0012 foil below a free surface through the Delta-plus-SPH method, International Journal of Computational Methods, 2019, 16(02), **.
[13] W.T. Liu, P.N. Sun*, F.R. Ming, A.M. Zhang, Application of particle splitting method for both hydrostatic and hydrodynamic cases in SPH, Acta Mechanica Sinica, (2018).
[14] F.R. Ming, P.N. Sun*, A.M. Zhang, Numerical investigation of rising bubbles bursting at a free surface through a multiphase SPH model, Meccanica, 52, 2017(11-12): 2665-2684.
[15] K. Guo, P.N. Sun*, X.Y. Cao, X. Huang, A 3D SPH model for simulating water flooding of a damaged floating structure,Journal of Hydrodynamics, Ser. B, 2017, 29(5): 831-844.
[16] A.M. Zhang,P.N. Sun, F.R. Ming, An SPH modeling of bubble rising and coalescing in three dimensions, Computer Methods in Applied Mechanics and Engineering, 2015, 294: 189-209.
[17] F.R. Ming, P.N. Sun, A.M. Zhang. Investigation on charge parameters of underwater contact explosion based on axisymmetric SPH method. Applied Mathematics and Mechanics (English Edition), 2014, 35(4): 453-468.
[18] H. Cheng, F.R. Ming, P.N. Sun, P.P. Wang, A.M. Zhang, Towards the modeling of the ditching of a ground-effect wing ship within the framework of the SPH method, Applied Ocean Research, 2019, 82, 370-384.
[19] H. Cheng, F.R. Ming, P.N. Sun, Y.T. Sui, A-Man Zhang, Ship hull slamming analysis with smoothed particle hydrodynamics method, Applied Ocean Research, 2020, 101, 102268.
[20] P.P. Wang, A.M. Zhang, F.R. Ming, P.N. Sun, H. Cheng, A novel nonreflecting boundary condition for fluid dynamics solved by smoothed particle hydrodynamics, Journal of Fluid Mechanics, 860, 81-114, 2019.
[21] Jiale Yan, Shaofan Li, A-Man Zhang, Xingyu Kan, P.N. Sun, Updated Lagrangian Particle Hydrodynamics (ULPH) Modeling and Simulation of Multiphase Flows, Journal of Computational Physics, 2019, 393, 406-437.
[22] FR Ming, AM Zhang, H Cheng,P.N. Sun, Numerical simulation of a damaged ship cabin flooding in transversal waves with Smoothed Particle Hydrodynamics method, Ocean Engineering, (2018) 336-352, 165.
[23] P.P. Wang, Z.F. Meng, A.M. Zhang, F.R. Ming, P.N. Sun, Improved particle shifting technology and optimized free-surface detection method for free-surface flows in smoothed particle hydrodynamics, Computer Methods in Applied Mechanics and Engineering, 2019, 357, 112580.
[24] Z.F. Meng, P.P. Wang, A.-M. Zhang, F.-R. Ming, P.N. Sun, A multiphase SPH model based on Roe’s approximate Riemann solver for hydraulic ?ows with complex interface, Computer Methods in Applied Mechanics and Engineering, 2020, 365, 112999.
[25] MK Li, AM Zhang, FR Ming, P.N. Sun, YX Peng, An axisymmetric multiphase SPH model for the simulation of rising bubble, Computer Methods in Applied Mechanics and Engineering, 2020, 366, 113039.
四、软件著作权
[1] 细长体高速入水光滑粒子流体动力学分析软件（2018SR632628）,（排名第1）