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林鹏智
  • 姓名: 林鹏智
  • 性别: 男
  • 出生年月: 1969-02-01
  • 学位: 博士
  • 职称: 正高
  • 联系地址: 中国.四川.成都市一环路南一段24号
  • 邮编:
  • 电子邮箱: cvelinpz@126.com
  • 电话号码: 028-85406172
  • 传真:

  • 个人描述  

    “长江学者”特聘教授,国际海洋工程期刊《Applied Ocean Research》主编,国家杰出青年科学基金获得者(Name: Pengzhi Lin, Position: Professor, Affiliation: State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University)
     
    个人学习及工作主要经历  

    1987-1991年 天津大学土木工程系工学学士(B.Eng.)学位(结构工程)

    1991-1993年 美国夏威夷大学土木工程系科学硕士(M.S.)学位(环境工程)

    1993-1998年 美国康奈尔大学土木与环境工程学院博士(Ph.D.)学位(海洋与水利工程)

    1998-1999年 康奈尔大学土木与环境工程学院博士后

    1999-2000年 香港理工大学土木与结构工程系博士后

    2000-2004年 新加坡国立大学土木工程系,助理教授

    2005-2007年 新加坡国立大学土木工程系,副教授、终身教授

    2005至今    四川大学水力学与山区河流开发保护国家重点实验室,历任特批教授、长江学者特聘教授、博士生导师

     

    Personal Experiences: 

    1987-1991   B.E. Dept.of Civil Engineering, Tianjin University (Structure Engineering)

    1991-1993   M.S. Dept.of Civil Engineering, University of Hawaii, Manoa (Environmental Engineering)

    1993-1998  Ph.D. College of Civil and Environmental Engineering, Cornell University (Hydraulic Engineering)

    1998-1999   Postdoctoral Associate, Cornell University

    1999-2000   Postdoctoral Fellow, Hong Kong Polytechnic University

    2000-2004   Assistant Professor, National University of Singapore

    2005-2007   Associate Professor, Tenured Professor, National University of Singapore

    2005-           Adjunct Professor, Professor, State Key Laboratory of Hydraulics and Mountain River Engineering, SichuanUniversity



    代表性论著  


    Selected Publications: 

    [1] Lin, P., 2008. Numerical modeling of water waves. Taylor & Francis Co., U.K.(专著,英国出版)
    [2] Liu, X., Lin, P., Shao, S.D., 2014. An ISPH simulation of coupled structure interaction with free surface flows. Journal of Fluids and Structures.48, 46–61. (   http://1drv.ms/1lBPTxc )
    [3] Liu, X., Xu, H., Shao S., Lin, P., 2013. An improved incompressible SPH model for simulation of wave–structure interaction. Computers & fluids 71: 113-123. (   http://1drv.ms/1nCeMa3 )
    [4] Huang, Z. L. and Lin P., 2012. Numerical simulation of propagation and breaking processes of a focused waves group. Journal of Hydrodynamics, Ser. B 24(3): 399-409. (   http://1drv.ms/1nChtbP )
    [5] Fernando, P. C., Guo J. and Lin, P., 2011. Wave–current interaction at an angle 1: experiment. Journal of Hydraulic Research 49(4): 424-436. (   http://1drv.ms/1nChFYn )
    [6] Xue, M.-A. and Lin P., 2011. Numerical study of ring baffle effects on reducing violent liquid sloshing. Computers & fluids 52: 116-129. (   http://1drv.ms/1nCjFQw )
    [7] Lin, P., Wu, Y., Bai, J., Lin, Q., 2011. A Numerical Study of Dam-Break Flow and Sediment Transport from a Quake Lake." Journal of Earthquake and Tsunami 05(05): 401-428. (   http://1drv.ms/1nCjRPG )
    [8] Liu, D. and Lin, P., 2009. Three-dimensional liquid sloshing in a tank with baffles, Ocean Engineering, 36, 202-212. (   http://1drv.ms/1lBQGOG )
    [9] Shen, L.W., Chan, E.S., and Lin, P., 2009. Calculation of hydrodynamic forces acting on a submerged moving object using immersed boundary method. Computers & Fluids, 38(3), 691-702. (   http://1drv.ms/1lBRgfb )
    [10] Liu, D. and Lin, P., 2008. A numerical study of three-dimensional liquid sloshing in tanks, Journal Computation Physics, 227, 3921-3939. (   http://1drv.ms/1iyyq3W )
    [11] Lin, P., 2007. A fixed-grid model for simulating a moving body in free surface flows. Computers & Fluids, 36(3), 549-561. (   http://1drv.ms/1iyw84P )
    [12] Lin, P. and Karunarathna, S.A.S.A., 2007. Numerical study of solitary wave interaction with porous breakwaters, Journal of Waterway Port Coastal and Ocean Engineering - ASCE, 133(5), 352-363. (   http://1drv.ms/1iyyAIt )
    [13] Lin, P. and Liu, H., 2007. Scattering and Trapping of Wave Energy by a Submerged runcated Paraboloidal Shoal. Journal of Waterway Port Coastal and Ocean Engineering - ASCE, 133(2), 94-103. (   http://1drv.ms/1iyyHnx )
    [14] Lin, P. and Man, C., 2007. A staggered-grid numerical algorithm for the extended Boussinesq equations. Applied Mathematical Modelling, 31(2), 349-368. (   http://1drv.ms/1sfKUqF )
    [15] Lin, P. and Xu W., 2006. NEWFLUME: A numerical water flume for two-dimensional turbulent free surface flows. Journal of Hydraulic Research, 44(1), 79-93. (   http://1drv.ms/1iyySPK )
    [16] Lin, P. and Liu, H., 2005. Analytical study of linear long-wave reflection by a two-dimensional obstacle of general trapezoidal shape. Journal of Engineering Mechanics - ASCE, 131(8), 822-830. (   http://1drv.ms/1js0mGS )
    [17] Liu, H. and Lin, P. and Shankar N. J., 2004. An analytical solution of the mild-slope equation for waves around a circular island on a paraboloidal shoal. Coastal Engineering, 51(5-6), 421-437. (   http://1drv.ms/1js0q9w )
    [18] Lin, P., 2004. A Numerical Study of Solitary Wave Interaction with Rectangular Obstacles. Coastal Engineering, 51, 35-51. (   http://1drv.ms/1js0vdj )
    [19] Lin, P. and Li, C. W., 2003. Wave-current interaction with a vertical square cylinder. Ocean Engineering, 30(7), 855-876. (   http://1drv.ms/1sfLk0a )
    [20] Lin, P. and Li, C. W., 2002. A sigma-coordinate three-dimensional numerical model for surface wave propagation. International Journal for Numerical Methods In Fluids, 38(11), 1045-1068. (   http://1drv.ms/1sfLrJb )
    [21] Li, C. W. and Lin, P., 2001. A numerical study of three-dimensional wave interaction with a square cylinder. Ocean Engineering, 28(12), 1545-1555. (   http://1drv.ms/1sfLtRm )
    [22] Liu, P. L.-F., Lin, P., Chang, K.-A., and Sakakiyama, T., 1999. Numerical modeling of wave interaction with porous structures. Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, 125(6), 322-330. (   http://1drv.ms/1sfLCnK )
    [23] Lin, P. and Liu, P. L.-F., 1999. Internal wave-maker for Navier-Stokes equations models. Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, 125 (4), 207-215. (   http://1drv.ms/1sfLJ2K )
    [24] Lin, P., Chang, K.-A., and Liu, P. L.-F., 1999. Runup and rundown of solitary waves on sloping beaches. Journal of Waterway, Port, Coastal and Ocean Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, 125(5), 247-255. (   http://1drv.ms/1sfLLHP )
    [25] Lin, P. and Liu, P. L.-F., 1998. A numerical study of breaking waves in the surf zone. Journal of Fluid Mechanics, 359, 239-264. (   http://1drv.ms/1sfLQLC )
    [26] Lin, P. and Liu, P. L.-F., 1998. Turbulence transport, vorticity dynamics, and solute mixing under plunging breaking waves in surf zone. Journal of Geophysical Research, 103(C8),15,677-15,694. (   http://1drv.ms/1iyA1qq )
    [27] Liu, Philip L., and Pengzhi Lin, 1997. A Numerical Model for Breaking Waves: The Volume of Fluid Method. No. CACR-97-02.




     



     
     
    期刊编委  

    1.《Applied Ocean Research》(应用海洋研究,SCI收录),主编
    2.《Ocean Engineering》(海洋工程, SCI收录),副编辑
    3.《Journal of Earthquake and Tsunami》(地震与海啸期刊, SCI收录),编委
    4.《Journal of Hydrodynamics》(水动力学期刊, SCI收录),编委
    5.《Engineering Applications of Computational Fluid Mechanics》(计算流体力学工程应用, SCI收录),编委
    6.《南水北调与水利科技》,编委

     

    Editor and Editorial Board Member in Journals: 

    1. Applied Ocean Research, Chief Editor
    2. Ocean Engineering, Associate Editor
    3. Journal of Earthquake and Tsunami, Editorial Board Member
    4. Journal of Hydrodynamics, Editorial Board Member
    5. Engineering Applications of Computational Fluid Mechanics, Editorial Board Member
    6. South-to-North Water Transfers and Water Science & Technology, Editorial Board Member