刘云龙

He received PHD in 2014 at Harbin Engineering University and then worked in Wuhan 2nd Ship Design and Research Institute. He visited Brown University at 2019 and now is a professor of Harbin Engineering University. Currently, he is the associate head of the National Center for International Research of Naval Architecture and Ocean Engineering Mechanics.

2012.09-2014.10, Harbin Engineering University, Ph.D..
2010.09-2013.03, Harbin Engineering University, Master Degree.
2006.09-2010.07, Harbin Engineering University, Batchelor Degree.

2023.01-Now, Harbin Engineering University, Head of the Structual Mechanics Institute
2022.08-Now, Harbin Engineering University, Professor
2015.07-2022.08, Harbin Engineering University, Associate professor
2018.12-2019.12, Brown University, Visiting scholar
2014.11-2015.06, Wuhan 2nd Ship Design and Research Institute

Bubble dynamics;
Computational method for compressible and multiphase flow;
Fluid-structure interaction.

Master and PHD students.

Fluid Mechanics

Fluid-Structure Interaction Analysis of Ocean Engineering Structure

1. Zhang, A.M., et al., A unified theory for bubble dynamics. Physics of Fluids, 2023. 35(3).
2. Su, H.C., et al., Coupling between a bubble and a liquid-liquid interface in viscous flow. International Journal of Multiphase Flow, 2023. 160.
3. Liu, W.-T., et al., Investigation of hydrodynamics of water impact and tail slamming of high-speed water entry with a novel immersed boundary method. Journal of Fluid Mechanics, 2023. 958: p. A42.
4. Li, S.-M., et al., Vertically neutral collapse of a pulsating bubble at the corner of a free surface and a rigid wall. Journal of Fluid Mechanics, 2023. 962.
5. 刘云龙, et al., 水下爆炸作用下舰船冲击毁伤的瞬态流固耦合FSLAB软件数值模拟分析. 中国舰船研究, 2022. 17(5): p. 228.
6. Wu, W., et al., An h-adaptive local discontinuous Galerkin method for second order wave equation: Applications for the underwater explosion shock hydrodynamics. Ocean Engineering, 2022. 264: p. 112526.
7. He, M., et al., Research on characteristics of deep-sea implosion based on Eulerian finite element method. Ocean Engineering, 2022. 244: p. 110270.
8. Brujan, E.-A., et al., Jetting and migration of a laser-induced cavitation bubble in a rectangular channel. Journal of Fluid Mechanics, 2022. 948: p. A6.
9. 赵松涛, et al., 水下爆炸作用下船舶结构与燃气轮机动态响应的数值研究（英文）. 船舶力学, 2021. 25(06): p. 815-827.
10. Tian, Z.-L., et al., Transient fluid–solid interaction with the improved penalty immersed boundary method. Ocean Engineering, 2021. 236: p. 109537.
11. Tian, Z.-L., et al., A new 3-D multi-fluid model with the application in bubble dynamics using the adaptive mesh refinement. Ocean Engineering, 2021. 230.
12. Shi-MinLi, et al., Dynamics of a buoyant pulsating bubble near two crossed walls. Physics of Fluids, 2021. 33(7): p. 073310.
13. Liu, Y.-L., S. Chi-Wang, and Z. A-Man, Weighted ghost fluid discontinuous Galerkin method for two-medium problems. Journal of Computational Physics, 2021. 426: p. 109956.
14. He, M., et al., The Nonlinear Coupling of Oscillating Bubble and Floating Body with Circular Hole. Computer Modeling in Engineering \& Sciences, 2021. 127(3): p. 923--942.
15. Wu, W., et al., Interaction between shock wave and a movable sphere with cavitation effects in shallow water. Physics of Fluids, 2020. 32(1): p. 016103.
16. Wu, W., et al., Numerical investigation on underwater explosion cavitation characteristics near water wave. Ocean Engineering, 2020. 205: p. 107321.
17. Tian, Z.-L., et al., Jet development and impact load of underwater explosion bubble on solid wall. Applied Ocean Research, 2020. 95: p. 102013.
18. Tian, Z.-L., et al., Energy dissipation of pulsating bubbles in compressible fluids using the Eulerian finite-element method. Ocean Engineering, 2020. 196: p. 106714.
19. Tang, H., et al., Numerical study on the bubble dynamics in a broken confined domain. Journal of Hydrodynamics, 2020. 32(6): p. 1029-1042.
20. Nian-NianLiu, et al., Numerical analysis of the interaction of two underwater explosion bubbles using the compressible Eulerian finite-element method. Physics of Fluids, 2020. 32(4): p. 046107.
21. Kan, X.-Y., et al., Numerical investigation of ice breaking by a high-pressure bubble based on a coupled BEM-PD model. Journal of Fluids and Structures, 2020. 96: p. 103016.
22. Huang, X., et al., Dynamic interaction of a bubble and discontinuous boundaries: A three-dimensional study with the fast multipole boundary element method. Engineering Analysis with Boundary Elements, 2020. 110: p. 1-15.
23. He, M., A.M. Zhang, and Y.-L. Liu, Prolonged simulation of near-free surface underwater explosion based on Eulerian finite element method. Theoretical and Applied Mechanics Letters, 2020. 10(1): p. 16-22.
24. Zhang, S., et al., Interaction of clustered air gun bubbles in marine prospecting. Ocean Engineering, 2019. 191: p. 106523.
25. Wu, W.B., et al., Local discontinuous Galerkin method for far-field underwater explosion shock wave and cavitation. Applied Ocean Research, 2019. 87: p. 102-110.
26. Tian, Z., et al., Dynamic response of floating body subjected to underwater explosion bubble and generated waves with 2D numerical model. Computer Modeling in Engineering & Sciences, 2019. 118(2): p. 397-423.
27. Liu, Y.-L., et al., Dynamical behavior of an oscillating bubble initially between two liquids. Physics of Fluids, 2019. 31(9): p. 092111.
28. Wang, S.-P., et al., Bubble dynamics and its applications. Journal of Hydrodynamics, 2018. 30(6): p. 975-991.
29. Wang, S., et al., Acoustic bubble dynamics in a microvessel surrounded by elastic material. Physics of Fluids, 2018. 30(1): p. 012104.
30. Tian, Z., et al., Analysis of breaking and re-closure of a bubble near a free surface based on the Eulerian finite element method. Computers & Fluids, 2018. 170: p. 41-52.
31. Liu, Y., et al., Investigation of free-field underwater explosion with Eulerian finite element method. Ocean Engineering, 2018. 166: p. 182-190.
32. Liu, Y., et al., Numerical investigation on global responses of surface ship subjected to underwater explosion in waves. Ocean Engineering, 2018. 161: p. 277-290.
33. Liu, W., et al., Continuous simulation of the whole process of underwater explosion based on Eulerian finite element approach. Applied Ocean Research, 2018. 80: p. 125-135.
34. Li, C., et al., Dynamic behavior of two neighboring nanobubbles induced by various gas-liquid-solid interactions. Physical Review Fluids, 2018. 3(12): p. 123604.
35. Zhang, A., et al., Nonlinear interaction between underwater explosion bubble and structure based on fully coupled model. Physics of Fluids, 2017. 29(8): p. 082111.
36. Wu, W., Y. Liu, and A. Zhang, Numerical investigation of 3D bubble growth and detachment. Ocean Engineering, 2017. 138: p. 86-104.
37. Liu, N., et al., Experimental and numerical investigation on bubble dynamics near a free surface and a circular opening of plate. Physics of Fluids, 2017. 29(10): p. 107102.
38. Han, R., Y. Liu, and A. Zhang. Numerical method for underwater explosion loads and the associated structure damage. in The 8th International Conference on Computational Methods (ICCM2017). 2017.