刘云龙
近期热点
资料介绍
个人简历
刘云龙,男,1988年5月7日出生,河南省鲁山县人,博士,中国造船工程学会高级会员。2014年哈尔滨工程大学工学博士学位。曾任职与中船重工第七一九研究所工程师职务,作为主要成员参与多项国防重点科研和型号课题。承担国家自然科学基金面上项目、青年项目、博士后基金特别资助、面上项目等科研项目8项,参与完成国家自然科学基金重点项目、面上项目、国防重点项目等10余项。在《Journal of Computational Physics》、《Physics of Fluids》、《Computers & Fluids》、《Ocean Engineering》、《物理学报》等国内外核心期刊上发表论文40余篇,其中被SCI检索32篇,被EI检索5篇,累计被引360余次。研究成果获得省部级科技奖励两项,市厅级科技奖励一项。教育经历2012.09-2014.10,哈尔滨工程大学,船舶与海洋结构物设计制造专业,获工学博士学位。2010.09-2013.03,哈尔滨工程大学,船舶与海洋结构物设计制造专业,获工学硕士学位。2006.09-2010.07,哈尔滨工程大学,船舶与海洋工程专业,获工学学士学位。工作经历2019.07至今,哈尔滨工程大学,博士生导师2015.07 至今 ,哈尔滨工程大学,副教授。2018.12-2019.12, 美国布朗大学,应用数学系,公派访问学者,合作导师Chi-Wang Shu教授。2014.11-2015.06,中船重工七一九研究所,工程师。承担项目黑龙江省博士后特别资助 近场水下爆炸环境下结构冲击损伤机理研究 2018.11-2020.11国家自然科学基金面上项目 计及空化效应与自由面羽化破碎的水下爆炸气泡动力学特性研究 2019.1-2022.12中国博士后基金特别资助 基于欧拉有限元的水下爆炸对自由面浮体损伤机理研究 2018.7-2020.7黑龙江省自然科学基金面上项目 气泡与弹性覆盖层耦合特性研究 2017.10-2020.10中央高校基本科研业务费 水下爆炸与波浪联合载荷特性研究 2017.1-2017.12黑龙江省博士后科学基金 水下爆炸气泡与自由面浮体非线性耦合特性研究 2016.7-2018.7中国博士后科学基金面上项目 水下爆炸气泡与自由面浮体非线性耦合特性研究 2016.7-2018.7国家自然科学基金青年项目 水下爆炸气泡-波浪非线性耦合运动分析与载荷特性研究 2017.1-2019.12学术交流The Forth International Workshop on the Development and Application of High-order Numerical Methods, Nanjing, Invited talk, 2018.5.31-2018.6.4中国核学会核工程力学分会第二届学术交流会,成都,大会报告,2020.10.22-2020.10.24招生信息招收力学专业博士研究生。招收船舶与海洋结构物设计制造专业硕士研究生。 本科生授课课程海洋浮体水动力学(32学时)船舶与海洋工程流体力学(64学时) 研究生授课课程舰船结构毁伤与生命力(32学时)气泡动力学(32学时)荣誉第9批黑龙江省博士后青年英才 奖励1、2017年 《**结构及系统**毁伤特性与**技术》获得国防科技进步一等奖(排名第8);2、2017年《**抗爆抗冲击防护设计与试验技术》获得黑龙江省科技进步二等奖(排名第9);3、2016年《近弹性边界水下爆炸气泡动态特性研究》获得黑龙江省高校科学技术一等奖(排名第3)。研究领域
1.水下爆炸与舰船毁伤;2.计算流体力学;3.气泡动力学;4.流固耦合动力学。""近期论文
[1]. Wu, W., A.-M. Zhang, Y.-L. Liu, M. Liu, Interaction between shock wave and a movable sphere with cavitation effects in shallow water. Physics of Fluids, 2020. 32(1): p. 016103.[2]. Wu, W., Y.-L. Liu, A.M. Zhang, N. Liu, L. Liu, Numerical investigation on underwater explosion cavitation characteristics near water wave. Ocean Engineering, 2020. 205: p. 107321.[3]. Tian, Z.-L., Y.-L. Liu, A.-M. Zhang, L. Tao, L. Chen, Jet development and impact load of underwater explosion bubble on solid wall. Applied Ocean Research, 2020. 95: p. 102013.[4]. Tian, Z.-L., Y.-L. Liu, A.-M. Zhang, L. Tao, Energy dissipation of pulsating bubbles in compressible fluids using the Eulerian finite-element method. Ocean Engineering, 2020. 196: p. 106714.[5]. Nian-NianLiu, A-ManZhang, Yun-LongLiu, TongLi, 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.[6]. Kan, X.-Y., A.M. Zhang, J.-L. Yan, W.-B. Wu, Y.-L. Liu, 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.[7]. Huang, X., S. Wang, Y. Liu, H. Hu, 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.[8]. He, M., A.M. Zhang, 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.[9]. Zhang, S., S.-P. Wang, Y.-L. Liu, A.-M. Zhang, P. Cui, Interaction of clustered air gun bubbles in marine prospecting. Ocean Engineering, 2019. 191: p. 106523.[10]. Wu, W.B., A.M. Zhang, Y.L. Liu, S.P. Wang, Local discontinuous Galerkin method for far-field underwater explosion shock wave and cavitation. Applied Ocean Research, 2019. 87: p. 102-110.[11]. Tian, Z., Y. Liu, S. Wang, A. Zhang, Y. Kang, 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.[12]. Liu, Y.-L., A.-M. Zhang, Z.-L. Tian, S.-P. Wang, Dynamical behavior of an oscillating bubble initially between two liquids. Physics of Fluids, 2019. 31(9): p. 092111.[13]. Wang, S.-P., A.-M. Zhang, Y.-L. Liu, S. Zhang, P. Cui, Bubble dynamics and its applications. Journal of Hydrodynamics, 2018. 30(6): p. 975-991.[14]. Wang, S., Q. Wang, D. Leppinen, A. Zhang, Y. Liu, Acoustic bubble dynamics in a microvessel surrounded by elastic material. Physics of Fluids, 2018. 30(1): p. 012104.[15]. Tian, Z., Y. Liu, A. Zhang, S. Wang, 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.[16]. Liu, Y., A.-M. Zhang, Z. Tian, S. Wang, Investigation of free-field underwater explosion with Eulerian finite element method. Ocean Engineering, 2018. 166: p. 182-190.[17]. Liu, Y., A. Zhang, Z. Tian, S. Wang, Numerical investigation on global responses of surface ship subjected to underwater explosion in waves. Ocean Engineering, 2018. 161: p. 277-290.[18]. Liu, W., F. Ming, A. Zhang, X. Miao, Y. Liu, Continuous simulation of the whole process of underwater explosion based on Eulerian finite element approach. Applied Ocean Research, 2018. 80: p. 125-135.[19]. Li, C., S.-P. Wang, A.-M. Zhang, Y. Liu, Dynamic behavior of two neighboring nanobubbles induced by various gas-liquid-solid interactions. Physical Review Fluids, 2018. 3(12): p. 123604.[20]. Zhang, A., W. Wu, Y. Liu, Q. Wang, Nonlinear interaction between underwater explosion bubble and structure based on fully coupled model. Physics of Fluids, 2017. 29(8): p. 082111.[21]. Wu, W., Y. Liu, A. Zhang, Numerical investigation of 3D bubble growth and detachment. Ocean Engineering, 2017. 138: p. 86-104.[22]. Liu, N., W. Wu, A. Zhang, Y. Liu, 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.[23]. Han, R., Y. Liu, A. Zhang. Numerical method for underwater explosion loads and the associated structure damage. in The 8th International Conference on Computational Methods (ICCM2017). 2017.[24]. Zhang, S., S. Wang, Y. Liu. Experimental Study on Bubble Collapse Near a Solid Boundary. in ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering. 2016. American Society of Mechanical Engineers Digital Collection.[25]. Yao, X., W. Liu, A. Zhang, Y. LIU, Review of the research on underwater explosion bubbles and the corresponding structural damage. Chinese Journal of Ship Research, 2016. 11(1): p. 36-45.[26]. Liu, Y., S. Wang, A. Zhang, Interaction between bubble and air-backed plate with circular hole. Physics of Fluids, 2016. 28(6): p. 062105.[27]. Liu, Y., Q. Wang, S. Wang, A. Zhang, The motion of a 3D toroidal bubble and its interaction with a free surface near an inclined boundary. Physics of Fluids, 2016. 28(12): p. 122101.[28]. Huang, X., A. Zhang, Y. Liu, Investigation on the dynamics of air-gun array bubbles based on the dual fast multipole boundary element method. Ocean Engineering, 2016. 124: p. 157-167.[29]. Zhang, A.M., Y.L. Liu, Improved three-dimensional bubble dynamics model based on boundary element method. Journal of Computational Physics, 2015. 294: p. 208-223.[30]. Huang, X., Y. Liu, S. Wang, X. Yao. The Coupling Effects Between the Underwater High-Pressure Bubble and the Marine Structure. in ASME 2015 34th International Conference on Ocean, Offshore and Arctic Engineering. 2015. American Society of Mechanical Engineers Digital Collection.[31]. Han, R., A. Zhang, Y. Liu, Numerical investigation on the dynamics of two bubbles. Ocean Engineering, 2015. 110: p. 325-338.[32]. Liu, Y., A. Zhang, Z. Tian, Approximation of underwater explosion bubble by singularities based on BEM. Ocean engineering, 2014. 75: p. 46-52. 相关热点