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分类:导师信息 来源:中国考研网 2015-05-07 相关院校:北京航空航天大学
导师详细信息
姓名:刘铁钢
性别:男
出生年份:1964
职称:教授
院系:数学与系统科学学院
首次聘任导师时间:2008
现聘任导师一级学科名称:数学
现聘任导师二级学科名称:应用数学
聘任在第二学科培养博士生专业名称:无
聘任在自主设置学科培养博士生专业名称:无
主要研究方向及特色:主要从事1)可压缩空气动力学的高精度算法研究;2)可压缩多介质流特别是大密度比、高压比多介质流的算法研究和数值模拟;3)水下空化流、超空化流的物理模型建立及相应的算法研究和数值计算;4)移动边界问题数值方法。所研究领域大多属世界前沿包括可压缩流非线性流固耦合数值技术、水下爆炸冲击数值模拟、水下空化及超空化模拟、动边界捕捉技术、多介质Riemann问题解及其解算器、可压缩多介质流高精度数值算法。于2003年发展了自己的modified ghost fluid method。2004年发展了等熵空化流模型(isentropicone-fluid cavitation model)。本人在大密度比、高压高温比多介质流的算法研究已进入世界前沿。本人的研究跟实际应用紧密相连,在工业、国防和能源领域有着广泛的应用。近5年发表SCI论文20余篇,单篇引用最高达100次。20多次被国际、国内著名大学和研究所邀请作学术报告。2007年中国数学大会特邀报告人之一。
电子信箱:liutg@buaa.edu.cn
办公电话:010-82316470
办公地点:北航新主楼F914
通信地址:北京市海淀区学院路37号
个人简介:
个人简历
刘铁钢分别于1986和1989年获得北京大学数学系学士和硕士。从1989至1995年,在中国科学院计算数学研究所工作。于2001获新加坡国立大学机械系工学博士。从1999年至2007年,在新加坡国立大学和新加坡科技局高性能计算研究所工作和教学。于2007年八月回国任教,现为北京航空航天大学数学与系统科学学院教授、博士生导师、蓝天学者。主要研究兴趣有可压缩计算流体动力学、可压缩多介质流体数值方法、多介质Riemann问题解及解算器、空化流模型及数值方法、非线性流固耦合、动边界问题及LevelSet方法。
详细情况:
教育情况:
1982-1986理学学士,北京大学数学系计算数学;1986-1989理学硕士,北京大学数学系计算流体力学;1995-1999工学博士,新加坡国立大学机械系计算流体力学.
获奖情况:
新1995-1999加坡国立大学奖学金;1997中国科学院自然科学一等奖(团体.
工作经历:
1989.9-1992.5工程师,中国科学院计算中心(现中科院计算数学研究所)
1992.6-1995.8助理研究员,中国科学院计算中心(现中科院计算数学研究所)
1999.2-2007.7高级研究员,新加坡科技局高性能计算研究所
2007.7-现在教授,博士生导师,北京航空航天大学数学系
研究领域:
1.空化流和超空化流的建模与数值模拟;2.可压缩多相流多介质流的建模与数值模拟;3.可压缩多相流多介质流Riemann问题解及解算器;4.动边界、动体问题数值解法;5.超音速和高超音速流的数值解法;6.流-固耦合数值解法;7.流体与柔性壁相互作用的稳定性分析.
已完成和承担的项目:
1.民用客机xxxxx技术研究,2013-2017,工信部,1200万,项目负责人之一
2.中俄大型xxxxx核心技术合作研究,2010-2014,科技部,2000万,子项目负责人
3.飞行器高雷诺数下气动优化及动边界问题高精度快速算法,2011-2014,国家自然科学基金,75万,主持
4.高分辨率数值方法及其在三维复杂流体中的应用.2010-2013,国家自然科学基金,160万,主要参与者.
5.可压缩大密度比多介质无粘流的MGFM算法研究与应用.2009-2011,国家自然科学基金,25万,主持.
研究生培养:
博士后2名(在国外完成)
博士生1名(在国外完成)+8名(北航)
硕士生4名(在国外完成)+9名(北航)
教学情况:
Sympolic Computing;数值分析;并行算法;偏微分方程数值解、计算流体力学、科技论文写作。
发表学术论文及出版专著情况:
已发表的SCI论文
--Liang Xu, Tiegang Liu.Modified Ghost Fluid Method as Applied to Fluid-Plate Interaction.Adv.Appl.Math.Mech., 26:24-48, 2014
--Jian Chen, Yaowen Lu, Tiegang Liu, Multidomain hybrid RKDG and WENO methods for hyperbolic conservation laws, SIAM J Sci Comput.Vol.35, No.2, pp.1049–1072, 2013.
--Zhen Wang, Shengjiao Yu, Tiegang Liu.Effect of Shape Parameterization on Aerodynamic Shape Optimization with SPSA Algorithm.Procedia Engineering.61:393-402, 2013
--Xiaofeng He, Zheng Wang, Tiegang Liu.Solving Two-Dimensional Euler Equations on GPU.Procedia Engineering.61:57-62, 2013
--Jun Zhu, Tiegang Liu, Jianxian Qiu, Boo Cheong Khoo, RKDG methods with WENO limiters for unsteady cavitating flow.Computers & Fluids 57:52–65, 2012.
--Liang Xu and Tiegang Liu, Accuracies and conservation errors of various ghost fluid methods for multi-medium Riemann problem.J.Comput.Phys., 230:4975-4990, 2011
--Jun Zhu, Jianxian Qiu, Tiegang Liu and Boo Cheong Khoo, RKDG methods with WENO type limiters and conservative interfacial procedure for one-dimensional compressible multi-medium flow simulations.Applied Numerical Mathematics.61:554-580, 2011.
--Liang Xu and Tiegang Liu, Optimal Error Estimation of the Modified Ghost Fluid Method.Commun.Comput.Phys., 8:403-426, 2010
--Jiequan Li, Tiegang Liu and Zhongfeng Sun, Implementation of the GRP scheme for computing radially symmetric compressible fluid flows.J.Comput.Phys., 228:5867-5887, 2009
--Wenfeng Xie, Tiegang Liu and Yin-Lu Young, The effect of surface curvature on undex-induced hull cavitation.Modern Physics Letters B, vol 23, 253-256, 2009.
--Chunwu Wang, Huazhong Tang and Tiegang Liu, An adaptive ghost fluid finite volume method for compressible gas–water simulations.J.Comput.Phys., 227:6383-6409, 2008.
--Liu TG, Xie WF and Khoo BC, The Modified Ghost Fluid Method for Coupling of Fluid and Structure Constituted with Hydro-Elasto-Plastic Equation of State.SIAM J.Sci.Comput., 33/3:1105-1130, 2008.
--Xie W.F., Y.L.Young and T.G.Liu, Multiphase Modeling of Dynamic Fluid-Structure Interaction during Close-in Explosion.International Journal for Numerical Methods in Engineering, 70:1019-1043, 2008.
--TG Liu, JY Ho, BC Khoo and AW Chowdhury, Numerical Simulation of Fluid-Structure Interaction Using Modified Ghost Fluid Method and Naviers Equations.J.Sci.Comput., 36: 45–68, 2008.
--Jianxian Qiu, Tiegang Liu and Boo Cheong Khoo, Simulations of compressible two-medium flow by Runge-Kutta discontinuous Galerkin methods with the ghost fluid method, Communications in Computational Physics, 3:479-502, 2008
--Xie W.F., Y.L.Young, T.G.Liu and B.C.Khoo, Dynamic response of deformable structures subjected to shock load and cavitation reload, Computational Mechanics.44:667-681,2007.
--Xie WF, Liu TG and Khoo BC.The Simulation of Cavitating Flows Induced by Underwater Shock-Free Surface Interaction.Applied Numerical Mathematics.57:734-745, 2007.
--Liu TG and Khoo BC, The Accuracy of the Modified Ghost Fluid Method for Gas-Gas Riemann Problem, Applied Numerical Mathematics.57:721-733, 2007.
--Qiu Jianxian, Liu Tiegang and Khoo Boo Cheong.Runge-Kutta discontinuous Galerkin methods for two-medium flow simulations: one-dimensional case, J.Comput.Phys., 222:353-373, 2007.
--Huazhong Tang and Tiegang Liu, A Note on the Conservative Schemes for the Euler Equations.J.Comput.Phys.218:451-459, 2006.
--Liu TG, Khoo BC, and Xie WF, The Modified Ghost Fluid Method as applied to extreme Fluid-Structure Interaction in the Presence of Cavitation, Communications in Computational Physics, Vol.1 No.5, pp 898-919, 2006.
--E Klaseboer, CK Turangan, SW Fong, TG Liu, KC Hung, BC Khoo, Simulations of pressure pulse–bubble interaction using boundary element method.Computer methods in applied mechanics and engineering, Vol.195, pp4287-4302, 2006.
--Wang CW, Liu TG, Khoo BC.A Real-Ghost Fluid Method for the Simulation of Multi-Medium Compressible Flow.SIAM J.Sci.Comput.Vol 28, No 1, pp278-302, 2006.
--Xie WF, Liu TG and Khoo BC, Application of a One-fluid Model for Large Scale Homogeneous Unsteady Cavitation: the modified Schmidt’s model.Comput.& Fluids.Vol 35, pp1177-1192, 2006.
--Liu TG, Xie WF and Khoo BC, Ghost fluid method applied to compressible multi-phase flows.Morden Physics Letters B, Vol 19, pp1475-1478, 2005.
--Liu TG, Khoo BC and Wang CW.The Ghost Fluid Method for Compressible Gas-Water Simulation.J.Comput.Phys.Vol.204, pp193-221, 2005.(cited by in scopus 19)
--Liu TG, Khoo BC and Xie WF.Isentropic One-Fluid Modelling of Unsteady Cavitating Flow.J.Comput.Phys.Vol 201, pp80-108, 2004.
--Liu TG, Khoo BC and Yeo KS.Ghost Fluid Method for strong shock impacting on material interface.J.Comput.Phys.Vol.190, pp651-681, 2003.(cited by in scopus 48)
--Liu T.G., B.C.Khoo, K.S.Yeo and Wang C.Underwater shock-free surface-structure interaction.Inter.J.Numer.Method Eng.Vol.58/4 pp609-630, 2003.
--Liu T.G., B.C.Khoo and K.S.Yeo, The simulation of compressible multi-medium flow.Part I: A new methodology with test applications to 1D gas-gas and gas-water cases.Comput.& Fluids.Vol.30/3, pp291-314, 2001.
--Liu T.G., B.C.Khoo and K.S.Yeo, The simulation of compressible multi-medium flow.Part II: Applications to 2D underwater shock refraction.Comput.& Fluids.Vol.30/3, pp315-337, 2001.
--Liu T.G., Khoo, B.C.and Yeo, K.S.The numerical simulations of explosion and implosion in air: use of a modified Harten's TVD scheme.1999, Int.J.Numer.Meth.Fluids, Vol.31/4.pp661-680.
--Liu Tiegang, Wang Ruquan and Song Songhe.An implicit-explicit upwind algorithm for the parabolized Navier-Stokes equations.ACTA Mechanic Sinica, Vol.10.No.2.p.129-135.1994.
20 篇国际会议论文
1.Liu TG, Khoo BC and Ho JY, The Modified Ghost Fluid Method for Fluid-Elastic Structure Coupling.The 7th World Congress on Computational Mechanics, 16-22 July 2006, Los Angles, California, USA.
2.Xie WF, Young J, Khoo BC and Liu TG, A Ghost Fluid Method for Shock, Structure and Free Surface Interaction.The 7th World Congress on Computational Mechanics, 16-22 July 2006, Los Angles, California, USA.
3.Hung, K.C., Fong, S.W., Klaseboer, E., Turangan, C.K., Khoo, B.C., and Liu, T.G.Simulation of pressure pulse-bubble interaction using the boundary element method.In Computational Methods in Multiphase Flow III, (Ed.Mammoli, A.A.and Brebbia, C.A.), pp.83-92, WIT Press.Sept.2005
4.Liu TG, Xie WF and Khoo BC, Cavitation Modeling with Applications to Shock Cavitation Interaction.The 25th International Symposium on Shock Waves - ISSW25, 17 - 22 July,2005.Bangalore, India.
5.Hung KC, Klaseboer E, Turangan CK, Fong SW, Liu TG and Khoo BC, Computational mechanics of a shock wave and its effects on a cavitation bubble, The 25th International Symposium on Shock Waves - ISSW25, 17 - 22 July, 2005.Bangalore, India.
6.Liu TG, Xie WF and Khoo BC, Ghost fluid method applied to compressible multi-phase flows.International Symposium on Physics of Fluids, 2005.9-12 June, 2005, Huangshan, China.
7.Liu TG, On Accuracy of the Ghost Fluid Method Applied to Gas-Gas Riemann Problems.International Conference on Scientific Computing (ICSC05).4 – 8 June, Nanjing, China, 2005.
8.Xie WF, Liu TG and Khoo BC, Multidimensional Simulation of Homogeneous Unsteady Cavitation.International Conference on Scientific Computing (ICSC05).4 – 8 June, Nanjing, China, 2005.
9.Siew Wan Fong, E Klaseboer, CK Turangan, BC Khoo, TG Liu and KC Hung.Simulations of pressure pulse-bubble interaction using boundary element method.Boundary Element Methods (BEM 27), 15-17 March 2005.Orlando, Florida, USA.
10.Liu TG, Khoo BC, Ghost fluid method for compressible gas-liquid flow.The International Conference on Computational Method (ICCM 2004), December 15-17, 2004, Singapore.
11.Xie WF, Liu TG, Khoo BC.Homogeneous simulation of cavitating flow.Proceedings of the 5th International Conference on Multi-phase Fluid (ICMF).Yokohama, Japan, May 30 to June 4, 2004.
12.Liu TG, Hung KC, Khoo BC.Simulation of Strong Shock-Interface Interaction, The 24th International Symposium on Shock Wave (ISSW24) July 11-16, 2004, Beijing.
13.Liu TG, Xie WF, Khoo BC.Modeling unsteady compressible cavitation flow.Proceedings of the International Conference on Scientific and Engineering Computation (IC-SEC 2004).June 30 to 02 July, 2004.Grand Copthorne Waterfront Hotel, Singapore.
14.Liu, T.G., Khoo, B.C.and Hung, K.C.The Modified Ghost Fluid Method.Proceedings of the International Conference on Scientific and Engineering Computation (IC-SEC 2002).Raffles City Convention Centre, Singapore, from 3 to 5 December 2002.P122-125
15.Wang C.W., Liu, T.G., Khoo, B.C.and Hung, K.C.High Accuracy Simulation of Multimedium Fluid.Proceedings of the International Conference on Scientific and Engineering Computation (IC-SEC 2002).Raffles City Convention Centre, Singapore, from 3 to 5 December 2002.P118-121.
16.Liu, T.G., Khoo, B.C., Yeo, K.S.and Wang C.Shook loading in the presence of free surface and cavitation.The 23rd International Symposium on Shock Waves (ISSW23), Arlington TX, USA, 23-27 July 2001.P.219.
17.Yeo, K.S., Zhao, H.Z., Liu, T.G.and Lim, T.B.Interaction of flow and compliant surfaces.Proceedings of Underwater Defence Technology (UDT) Pacific 2000, Sydney.February 7-9, 2000.Pp.306-310.
18.Liu, T.G., Khoo, B.C.and Yeo, K.S.Shock Structure Cavitation Interaction.Joint Conference between ONR-Singapore, Washington DC, USA.November 1-3, 2000.
19.Yeo, K.S., Zhao, H.Z., Liu, T.G.and Lim, T.B.Interaction of flow and compliant surface.1999, Naval Platform Technology Conference, Singapore.Oct, 15, 1999.
20.Liu, T.G., Khoo, B.C.and Yeo, K.S.The simulation of underwater explosion near a free surface.1998, The 3rd High Performance Computing Asia Conference.Singapore, Sept.23-25, pp.812-820
26次被邀请访问和讲学
1.The modified ghost fluid method.29 June 2007.Hunan University, Changsha, China.
2.The modified ghost fluid method.28 June 2007.Dept of Math., Hunan Normal University, Changsha, China.
3.The modified ghost fluid method.26 (25-29) June 2007.School of Astronautics and material Engineering, National University of Defence Technology.Changsha, China,
4.Isentropic One-Fluid Cavitation Modelling and Applications.25 (25-29) June 2007.School of Astronautics and material Engineering, National University of Defence Technology.Changsha, China
5.The Latest Development and Applications of the Modified Ghost Fluid Method.Dept of Mech.Eng., 20-22 June, 2007.University of Science and Technology of China.Hefei, China
6.The modified ghost fluid method.19 June 2007, Beijing Institute of Technology, Beijing
7.The Modified Ghost Fluid Method for Treating Moving Interfaces and its Applications.17 April 2007, Dept of Math.National University of Defence Technology.Changsha, China
8.Isentropic One-Fluid Cavitation Modelling and Applications, 13 April 2007.Dept of Math, Nanjing University of Aeronautics and Astronautics.Nanjing, China.
9.The Modified Ghost Fluid Method and its Applications, 12 March, 2007, Institute for Mathematical Science, National University of Singapore, Singapore
10.The Modified Ghost Fluid Method and its Applications to Fluid-Structure Interaction, 18-22 June 2006, Institute of Mechanics, Chinese Academy of Science.
11.The Modified Ghost Fluid Method, 11-16 June 2006.Dept of Mech.Eng., University of Science and Technology of China.
12.On Accuracy of Various Ghost Fluid Methods, 11-16 June 2006.Dept of Mech.Eng., University of Science and Technology of China.
13.The Modified Ghost Fluid Method Applied to Compressible Fluid-Deformable Structure Coupling, 11-16 June 2006.Dept of Mech.Eng., University of Science and Technology of China.
14.Isentropic One-Fluid Cavitation Modeling, 1-16 June 2006.Dept of Mech.Eng., University of Science and Technology of China.
15.The Modified Ghost Fluid Method Applied to Compressible Fluid-Deformable Structure Coupling.28 March 2006.Dept.of Math.National University of Singapore.
16.The Modified Ghost Fluid Method Applied to Compressible Fluid-Deformable Structure Coupling.27 Dec.2005, Institute of Applied Physics and Computational Mathematics, Beijing.
17.The Modified Ghost Fluid Method Applied to Compressible Fluid-Deformable Structure Coupling.The 2nd International Conference on Scientific Computing and Partial Differential Equations & the First East Asia SIAM Conference (CSCPDE05).12 – 16 December 2005.Hong Kong Baptist University.
18.On Accuracy of the Ghost Fluid Method Applied to Gas-Gas Riemann Problems.International Conference on Scientific Computing (ICSC05).4 – 8 June, Nanjing, China, 2005
19.The Accuracy of Ghost Fluid Method.14 June 2005.Department of Math.Nanjing University of Aeronautics and Astronautics.Nanjing, China
20.On Accuracy of the Ghost Fluid Method.Workshop on nonlinear partial differential equations: analysis, computation and applications.3-6 May 2005.IMS, NUS.
21.Isentropic modelling of unsteady cavitating flow.The 1st Workshop on partial differential equation and scientific computing.December 23-24, 2004, NUS.
22.The Ghost Fluid Method for Compressible Multi-medium Flow, 9:00-10:00am, 03 (Wednesday) December 2003.Room 344, LNM, Institute of Mechanics, Chinese Academy of Sciences, Beijing.
23.The Ghost Fluid Method for Compressible Gas-Water Flow, 4:30-5:30pm, 18 (Tuesday) November 2003.Department of Computational Mathematics, School of Mathematical Sciences, Peking University, Beijing.
24.The Ghost Fluid Method, 3:00-4:00pm, 12 (Wednesday) November 2003, Institute of Computational Mathematics, Academy of Mathematical and System Sciences, Chinese Academy of Sciences, Beijing.
25.Ghost Fluid Method for Strong Shock Impacting on Material Interface, 10:00-11:00am, 10 (Monday) November 2003, Institute of Applied Physics and Computational Mathematics, Beijing.
26.Simulation of Underwater Explosion near a Free Surface and Structure, 2:00-3:00pm, 25 March 2002, CIM-IHPC Seminar, Department of Mathematics, National University of Singapore (NUS).
15 个技术报告
1.Zhao, H.Z., Liu T.G., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.2, Nov.1999.Institute of High Performance Computing, Singapore.
2.Zhao, H.Z., Liu T.G., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.3, Apr.2000.Institute of High Performance Computing, Singapore.
3.Liu T.G., Zhao, H.Z., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.4, Nov.2000.Institute of High Performance Computing, Singapore.
4.Liu T.G., Khan S., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.5, Apr.2001.Institute of High Performance Computing, Singapore.
5.Liu T.G., Khan S., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.6, Nov.2001.Institute of High Performance Computing, Singapore.
6.Liu T.G., Khan S., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Half-Year Report No.7 (Report for Exrtension), June 2002.Institute of High Performance Computing, Singapore.
7.Liu T.G., Khan S., Yeo, K.S.and Khoo, B.C.Interaction of flow with submerged compliant coating.Final Report, June 2002.Institute of High Performance Computing, Singapore.
8.Liu T.G.Evert C.Hung K.C.and Khoo B.C.Validation of Undex Research Code with selected test cases and study of underwater shock structure cavitation interaction.Half-Yearly Report No.1, July 2002.
9.Liu T.G.Evert C.Hung K.C.and Khoo B.C.Validation of Undex Research Code with selected test cases and study of underwater shock structure cavitation interaction.Half-Yearly Report No.2, December 2002.
10.Liu T.G.The development of advanced GFM solvers for compressible multi-medium/multi-phase flow.Half-Yearly Report No.1, May 2003.
11.Liu T.G.and Wang C.W.The development of advanced GFM solvers for compressible multi-medium/multi-phase flow.Half-Yearly Report No.2, January 2004.
12.Liu T.G.Turangan C.Numerical methods for cavitation problems.Half-Yearly Report NO 1.January 2005.
13.Liu T.G.Turangan C.Numerical methods for cavitation problems.Half-Yearly Report NO 2.July 2005.
14.Liu T.G.Turangan C.Numerical methods for cavitation problems.Half-Yearly Report NO 3.February 2006.
15.Liu T.G.Turangan C.Numerical methods for cavitation problems.Half-Yearly Report NO 4.December 2006.
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