工作单位:海洋工程与技术学院

专业资格:博士后

电子邮箱:lyuhg@mail.sysu.edu.cn (热烈欢迎感兴趣的业内同行与我交流)

个人主页https://www.researchgate.net/profile/Hong-Guan-Lyu

研究方向:海洋环境监测与大数据应用

 

个人简介

吕鸿冠,男,中共党员,广东普宁人,现中山大学海洋工程与技术学院博士后。2017年、2020年和2024年分别于广东海洋大学、江苏科技大学、中山大学获得工学学士、工学硕士、工学博士学位。长期从事船舶与海洋工程流固耦合动力学、无网格计算力学、高性能并行计算、基础工业软件研发等研究工作。在《Physics of Fluids》、《Ocean Engineering》、《Applied Ocean Research》、《Acta Mechanica Sinica》和《力学学报》等国内外力学和船海权威SCI期刊上发表论文30余篇,相关成果入选ESI全球 Top 1%高被引论文和期刊编辑精选,目前谷歌学术累计被引400余次,H指数12(截止至2024年9月);出版学术专著1部并入选中国海洋学会2022年度海洋优秀科技图书;获批国家专利3项和软件著作权2项。获第二届全国工程计算软件发展论坛优秀论文奖、中山大学博士研究生国家奖学金(两次)、中山大学优秀博士学位论文/优秀毕业生、江苏科技大学优秀硕士学位论文/优秀毕业生等多个荣誉奖项。目前以技术骨干身份参与多个国家自然科学基金项目和业内头部企业产学研项目,并担任《Physics of Fluids》和《Ocean Engineering》等多本SCI期刊的论文审稿人。

 

教育经历

2020年09月 — 2024年06月,中山大学,力学专业,获工学博士学位,导师为孙鹏楠副教授

2017年09月 — 2020年06月,江苏科技大学,船舶与海洋结构物设计制造专业,获工学硕士学位,导师为谷家扬教授

2013年09月 — 2017年06月,广东海洋大学,船舶与海洋工程专业,获工学学士学位,导师为黄技副教授

 

奖项荣誉

2024年·中山大学优秀博士学位论文

2024年·中山大学优秀毕业生

2023年·中山大学博士研究生国家奖学金

2022年·第二届全国工程计算软件发展论坛优秀论文奖

2021年·中山大学博士研究生国家奖学金

2020年·江苏科技大学优秀硕士学位论文

2020年·江苏科技大学优秀毕业生

2016年·第五届全国海洋航行器设计与制作大赛二等奖

2016年·第三届太阳鸟杯全国大学生游艇设计大赛二等奖

2015年·第四届全国海洋航行器设计与制作大赛二等奖

2015年·第十三届挑战杯广东大学生课外学术科技作品竞赛三等奖

2015年·第三届太阳鸟杯全国大学生游艇设计大赛一等奖

 

论文发表

  1. Lyu, H. G., Sun, P. N.*, Huang, X. T., Liu, M. B., Zha, H. Y., & Zhang, A. M. (2024). Numerical investigation of vehicle wading based on an entirely particle-based three-dimensional SPH model. Computers & Fluids, 270, 106144.
  2. Lyu, H. G., Sun, P. N.*, Yang, J. C., Liu, P. Z., Xie, C. M., & Ye, Y. L. (2023). Establishment and validation of a viscous-potential coupled and graphics processing unit accelerated numerical tank based on smoothed particle hydrodynamics and high-order spectral methods. Physics of Fluids, 35(10).
  3. Lyu, H. G., Sun, P. N.*, Liu, P. Z., Huang, X. T., & Colagrossi, A. (2023). Derivation of an improved smoothed particle hydrodynamics model for establishing a three-dimensional numerical wave tank overcoming excessive numerical dissipation. Physics of Fluids, 35(6).
  4. Lyu, H. G., Sun, P. N.*, Huang, X. T., Peng, Y. X., Liu, N. N., Zhang, X., Xu, Y., & Zhang, A. (2023). SPHydro: Promoting smoothed particle hydrodynamics method toward extensive applications in ocean engineering. Physics of Fluids, 35(1). (入选ESI全球Top 1%高被引论文)
  5. Lyu, H. G., Sun, P. N.*, Colagrossi, A., & Zhang, A. M. (2023). Towards SPH simulations of cavitating flows with an EoSB cavitation model. Acta Mechanica Sinica, 39(2), 722158. (入选期刊编辑精选)
  6. Lyu, H. G., Sun, P. N.*, Miao, J. M., & Zhang, A. M. (2022). 3D multi-resolution SPH modeling of the water entry dynamics of free-fall lifeboats. Ocean Engineering, 257, 111648.
  7. Lyu, H. G., & Sun, P. N.* (2022). Further enhancement of the particle shifting technique: Towards better volume conservation and particle distribution in SPH simulations of violent free-surface flows. Applied Mathematical Modelling, 101, 214-238.
  8. Lyu, H. G., Deng, R., Sun, P. N.*, & Miao, J. M. (2021). Study on the wedge penetrating fluid interfaces characterized by different density-ratios: Numerical investigations with a multi-phase SPH model. Ocean Engineering, 237, 109538.
  9. Lyu, H. G., Sun, P. N.*, Huang, X. T., Chen, S. H., & Zhang, A. M. (2021). On removing the numerical instability induced by negative pressures in SPH simulations of typical fluid–structure interaction problems in ocean engineering. Applied Ocean Research, 117, 102938.
  10. Lyu, H. G., Sun, P. N.*, Huang, X. T., Zhong, S. Y., Peng, Y. X., Jiang, T., & Ji, C. N. (2022). A review of SPH techniques for hydrodynamic simulations of ocean energy devices. Energies, 15(2), 502.
  11. Lyu, H. G., Sun, P. N.*, Yin, X. R., Huang, X. T., & Zhang, A. M. (2022, June). Simulation and validation of three-dimensional water entry of lifeboats using smoothed particle hydrodynamics with adaptive particle refinement. In ISOPE International Ocean and Polar Engineering Conference (pp. ISOPE-I). ISOPE.
  12. Lyu, H. G., Gu, J. Y.*, Tao, Y. W., & Zhang, Z. Y. (2020, October). Research on Evolutions of Vortex Structures inside a Stepped Moonpool and the Added Resistance under Different Ship Forward Speed and Draft. In ISOPE International Ocean and Polar Engineering Conference (pp. ISOPE-I). ISOPE.
  13. Lyu, H. G., Gu, J. Y.*, Tao, Y. W., & Zhang, Z. Y. (2020, August). Research on Resonant Fluid Behaviors and Induced Violent Slamming Effects in a Stepped Moonpool Under Wave Excitations With Ship Forward Speed. In International Conference on Offshore Mechanics and Arctic Engineering (Vol. 84386, p. V06BT06A038). American Society of Mechanical Engineers.
  14. Huang, J., Lyu, H. G.*, Fan, C. M., & Chen, J. H. (2023). Meshless generalized finite difference method with a domain-selection method for solving degenerate boundary problems. Engineering Analysis with Boundary Elements, 152, 185-193.
  15. Huang, J., Lyu, H. G., Chen, J. H.*, & Fan, C. M. (2023). Meshless generalized finite difference method with a domain-decomposition method for solving Helmholtz equation and its application to caisson resonance problems. Ocean Engineering, 271, 113701.
  16. Huang, J.*, Lyu, H. G., Fan, C. M., Chen, J. H., Chu, C. N., & Gu, J. (2020). Wave-structure interaction for a stationary surface-piercing body based on a novel meshless scheme with the generalized finite difference method. Mathematics, 8(7), 1147.
  17. Huang, J., Chu, C. N., Fan, C. M.*, Chen, J. H., & Lyu, H. G. (2020). On the propagation of nonlinear water waves in a three-dimensional numerical wave flume using the generalized finite difference method. Engineering Analysis with Boundary Elements, 119, 225-234.
  18. Deng, R., Lyu, H. G., Sun, P. N.*, Huang, X. T., & Wu, T. C. (2022). Numerical Study of Three-Dimensional Water Entry Problems of Complex Structures Using Particle Method. International Journal of Offshore and Polar Engineering, 32(04), 424-433.
  19. Huang, X. T., Sun, P. N.*, Lyu, H. G., & Zhang, A. M. (2022). Numerical investigations on bionic propulsion problems using the multi-resolution Delta-plus SPH model. European Journal of Mechanics-B/Fluids, 95, 106-121.
  20. Huang, X. T., Sun, P. N.*, Lyu, H. G., & Zhong, S. Y. (2023). Study of 3D self-propulsive fish swimming using the δ+-SPH model. Acta Mechanica Sinica, 39(1), 722053.
  21. Huang, X. T., Sun, P. N.*, Lyu, H. G., & Zhang, A. M. (2022). Water entry problems simulated by an axisymmetric SPH model with vas scheme. Journal of Marine Science and Application, 21(2), 1-15.
  22. Wei, Q., Gu, J. Y., Lyu, H. G., Liu, W. M., & Xu, X. S. (2024). Coupling response of pitch and moonpool water motion of a drilling ship under wave-current excitation. Ocean Engineering, 294, 116817.
  23. Wei, Q., Gu, J. Y., Lyu, H. G., Liu, W. M., & Xu, X. S. (2023). Experimental study on the influence of fluid motion on hull resistance in stepped moonpool. Ocean Engineering, 286, 115508.
  24. Guan, X. S., Sun, P. N., Zhang, X., Lyu, H. G., & Xu, Y. (2024). SPH simulations of complex 3D fluid–solid interactions with an improved single-layer particle boundary technique preventing boundary penetration. Ocean Engineering, 312, 119061.
  25. Guan, X. S., Sun, P. N., Xu, Y., Lyu, H. G., & Geng, L. M. (2024). Numerical studies of complex fluid-solid interactions with a six degrees of freedom quaternion-based solver in the SPH framework. Ocean Engineering, 291, 116484.
  26. Guan, X. S., Sun, P. N.*, Lyu, H. G., Liu, N. N., Peng, Y. X., Huang, X. T., & Xu, Y. (2022). Research progress of SPH simulations for complex multiphase flows in ocean engineering. Energies, 15(23), 9000.
  27. Xie, C. M., Yang, J. C., Sun, P. N., Lyu, H. G., Yu, J., & Ye, Y. L. (2023). An accurate and efficient HOS-meshfree CFD coupling method for simulating strong nonlinear wave–body interactions. Ocean Engineering, 287, 115889.
  28. Tan, Z., Sun, P. N.*, Liu, N. N., Li, Z., Lyu, H. G., & Zhu, R. H. (2023). SPH simulation and experimental validation of the dynamic response of floating offshore wind turbines in waves. Renewable Energy, 205, 393-409.
  29. Zhong, S. Y., Sun, P. N.*, Peng, Y. X., Liu, N. N., Lyu, H. G., & Huang, X. T. (2023). An SPH study of slamming and splashing at the bow of SYSU vessel. Ocean Engineering, 269, 113581.
  30. 吕鸿冠, 谷家扬, 刘为民, 陶延武, & 李文娟. (2019). 阶梯型月池附加阻力形成机理及其特性研究 (英文). 船舶力学, 23(6), 660-673.
  31. 吕鸿冠, 黄技, 王天霖, & 黄斯慧. (2016). 基于 AQWA 的滑翔圆碟的水面漂移特性研究. 舰船科学技术, 38(12), 121-126.
  32. 吕鸿冠, 黄技, 王天霖, & 黄斯慧. (2016). 新型无尾翼水下滑翔器升阻比性能的研究. 海洋技术学报, 35(4), 11-19.
  33. 吕鸿冠, 黄技, & 黄斯慧. (2016). 基于 AQWA 的游艇耐波性数值模拟. 上海船舶运输科学研究所学报, 39(4), 22-25.
  34. 黄晓婷, 孙鹏楠, 吕鸿冠, & 张阿漫. (2022). 物体入水的轴对称光滑粒子流体动力学数值模拟研究 (英文). Journal of Marine Science and Application.
  35. 黄晓婷, 孙鹏楠, 吕鸿冠, & 钟诗蕴. (2022). 基于修正光滑粒子流体动力学算法的低能量耗散数值波浪水池开发. 力学学报, 54(6), 1502-1515.
  36. 黄晓婷, 孙鹏楠, 吕鸿冠, 殷晓瑞, & 董嘉徐. (2022). 翼型绕流的多级分辨率光滑粒子流体动力学数值模拟研究. 西北工业大学学报.
  37. 钟诗蕴, 孙鹏楠, 吕鸿冠, 彭玉祥, & 张阿漫. (2022). SPH 理论和方法在高速水动力学中的研究进展. 中国舰船研究, 17(3), 29-48.

 

软件著作权

  1. 基于无网格拉格朗日粒子的波浪和舰船兴波虚拟仿真系统软件.(登记号:2022SR1482209)
  2. 通用化无网格流固耦合计算力学软件(SPHydro).(登记号:2023SR1362489)