肖锋(研究员)的个人简介
肖锋,毕业于云南大学地球物理系,曾任日本FRCGC研究机构、理化学研究所、中国气象科学研究院、美国加州大学洛杉矶分校、约翰霍普金斯大学等机构的兼职研究员或访问学者。曾担任日本机械学会计算力学部门t务委员会及事业企画委员会委员、日本计算力学会事务局干事、日本科学技术馆特邀解说员。Computer & Structures 特约编委、手岛研究奖评议员。现为中国科学院力学研究所研究员。
个人简历
1979年7月毕业于昆明市第十中学,9月考入云南大学地球物理系气象专业。1983年毕业,获理学学士。后在云南省气象台担任天气预报员。后考取兰州大学攻读硕士。毕业后任教于云南大学地球物理系。1996年获得日本国立东京工业大学理学博士学位。1997年至1999年作为基础科学特别研究员在日本理化学研究所做博士后研究。1999年至2007年为东京工业大学副教授。现任中国科学院力学研究所研究员,2007年10月入选中国科学院创新工程重要方向项目百人计划。
曾任日本FRCGC研究机构、理化学研究所、中国气象科学研究院、美国加州大学洛杉矶分校、约翰霍普金斯大学等机构的兼职研究员或访问学者。曾担任日本机械学会计算力学部门t务委员会及事业企画委员会委员、日本计算力学会事务局干事、日本科学技术馆特邀解说员。Computer & Structures 特约编委、手岛研究奖评议员。担任J. Comput.Phys.,Int. J. Multiphase Flow, Computer and Fluid, Fluid Dynamics Research,Mon. Wea. Rev., Q.J.Roy.Meteor.Soc., J. Meteor. Soc.Japan等10余国际学术期刊的审稿人。
长期以来从事计算流体力学,地球/环境流体力学,大气科学,空气动力学,多相介质力学,流体工程应用及相关领域前沿课题的科学研究。
具有国际影响的研究成果
*提出了利用多钜(multi-moment)变量的高精度有限体积方法。
*提出了严格守恒的、可适用于求解任意马赫数流动的统一解法。
*改进了CIP方法,发展了基于该方法的多相流数值模式。
*提出了多个自由界面捕捉格式,并系统地研究发展了自由界面多相流体的计算方法和实用数值建模。
*提出了一类严格守恒的高精度半拉格朗日方法,并已用于日本气象厅、全球变化研究所、地球模拟器中心、中国气象局等机构的新一代大气数值模式中。
在国际及日本的学术刊物和学术会议上发表论文200余篇、其中SCI收录40余篇、被SCI期刊论文引用400余次。在国际学术会议及各国研究机构作基调或邀请报告30余次。取得一项日本国专利。曾主持过日本文部科学省基金项目1项、日本学术振兴会基金项目2项。参加日本科学振兴机构重大基金项目1项。获1998年第四届日本经济科学新闻社计算机可视化大赛奖。
研究领域:
计算流体力学,地球/环境流体力学,大气科学,空气动力学,多相介质力学,流体工程应用
社会任职
中国气象局特聘专家。担任J. Comput.Phys.,Int. J. Multiphase Flow, Computer and Fluid, Fluid Dynamics Research,Mon. Wea. Rev., Q.J.Roy.Meteor.Soc., J. Meteor. Soc.Japan等10余国际学术期刊的审稿人。
获奖及荣誉
1.中国科学院创新工程重要方向项目百人计划
2.Special post-doctoral fellowship, 日本理化学研究所(RIKEN)
3.Overseas Advanced Educational Research Practice Support Program,日本文部科学省
4.1998年第四届日本经济科学新闻社计算机可视化大赛奖。
代表论著
(1)X.L.Li, D.H.Chen, X.D. Peng, K. Takahashi and F. Xiao: A multi-moment finite volume shallow water model on Yin-Yang overset spherical grid, Mon. Wea. Rev. (in press).
(2)R.Akoh, S. Ii and F. Xiao: A CIP/multi-moment finite volume method for shallow water equations with source terms, Int. J. Numer. Method in Fluid, (in press).
(3)S.Ii and F.Xiao: CIP/multi-moment finite volume method for Euler equations, a semi-Lagrangian characteristic formulation. J. Comput. Phys., 222, 849-871 (2007).
(4)F.Xiao, X.Peng and X.Shen: A finite volume grid using multi-moments for geostrophic adjustment. Monthly Weather Review, 134, 2515u20132526 (2006).
(5)X.Li, D.Chen, X.Peng, F.Xiao and X.Chen: Implementation of the semi-Lagrangian advection scheme on a quasi-uniform overset grid on a sphere. Advances in Atmospheric sciences, 23, 792-801 (2006).
(6)X.Peng, F.Xiao and K.Takahashi: Global conservation constraint for a quasi-uniform overset grid on sphere. Quart. J. Roy. Meteor. Soc., 132, 979-996 (2006).
(7)F.Xiao, R.Akoh and S.Ii: Unified formulation for compressible and incompressible flows by using multi integrated moments II: multi-dimensional version for compressible and incompressible flows. J. Comput. Phys., 213, 31-56 (2006).
(8)S.Ii, M.Shimuta and F.Xiao: A 4th-order and single-cell-based advection scheme on unstructured grids using multi-moments. Comput. Phys. Commun., 173, 17-33 (2005).
(9)F.Xiao, Y.Honma and T.Kono: A simple algebraic interface capturing scheme using hyperbolic tangent function, Int. J. Numer. Method in Fluids, 48, 1023-1040(2005).
(10)F.Xiao, A.Ikebata and T.Hasegawa: Numerical simulations of free-interface fluids by a multi integrated moment method. Computers & Structures, 83, 409-423 (2005).
(11)K.Yokoi, F.Xiao, H.Liu and K.Fukasaku: Three dimensional numerical simulation of flows with complex geometries in a regular Cartesian grid and its application to blood flow in cerebral artery with multiple aneurysms. J. Comput. Phys., 202, 1-19 (2005).
(12)X.Peng, F.Xiao, W. Ohfuchi and H. Fuchigami: Conservative semi-Lagrangian transport on a sphere and the impact on vapor advection in an atmospheric general circulation model. Monthly Weather Review, 133, 504-520 (2005).
(13)T.Yabe, K.Takizawa, F.Xiao, T.Aoki, T.Himeno, T.Takahashi and A.Kunimatsu: A new paradigm of computer graphics by universal solver for solid, liquid and gas. JSME Int. J. B, 47, 656-663(2004).
(14)F.Xiao: A simple CIP finite volume method for incompressible flows. JSME Int. J. B, 47, 664-671(2004).
(15)X.Peng, F.Xiao, K.Takanashi and T.Yabe: Conservative CIP transport in meteorological models. JSME Int. J. B, 47, 725-734(2004).
(16)F.Xiao and X.Peng: A convexity preserving scheme for conservative advection transport. J. Comput. Phys., 198,389-402(2004).
(17)F.Xiao: Unified formulation for compressible and incompressible flows by using multi integrated moments I: One-dimensional inviscid compressible flow. J. Comput. Phys., 195, 629-654 (2004).
(18)F.Xiao and A.Ikebata: An efficient method for capturing free boundary in multi-fluid simulations, Int. J. Numer. Method in Fluids, 42, 187-210(2003).
(19)F.Xiao, T.Okazaki and M.Satoh: An accurate semi-Lagrangian scheme for rain drop sedimentation. Monthly Weather Review, 131, 810-819(2003).
(20)X.Peng, F.Xiao, T.Yabe and K.Tani: Implementation of the CIP as the advection solver in mesoscale meteorological Model MM5. Monthly Weather Review, 131, 1256-1271(2003).
(21)F.Xiao, T.Yabe, X.Peng and H.Kobayashi: Conservative and oscillation-less atmospheric transport schemes based on rational functions. J. Geophys. Res. 107 (D22), 4609, doi: 10.1029/2001JD001532 (2002).
(22)K.Yokoi and F.Xiao: Mechanism of structure formation in circular hydraulic jumps: numerical studies of strongly deformed free-surface shallow flows. Physica D, 161, 202-219(2002).
(23)F.Xiao and T.Yabe: Completely conservative and oscillationless semi-Lagrangian schemes for advection transportation. J. Comput. Phys., 170, 498-522(2001).
(24)F.Xiao: Implementation of multi-fluid hydrodynamic simulations on distributed memory computer with a fully parallelizable preconditioned Bi-CGSTAB method. Comput. Phys. Commun., 137, 274-285(2001).
(25)T.Yabe, F.Xiao and T.Utsumi: The constrained interpolation profile method for multiphase analysis. J. Comput. Phys., 169, 556-593(2001).
(26)T.Yabe, R.Tanaka, T.Nakamura and F.Xiao: An exactly conservative semi-Lagrangian scheme (CIP-CSL) in one dimension. Monthly Weather Review, 129, 332-344(2001).
(27)F.Xiao: A Class of Single-cell High-order Semi-Lagrangian Advection Schemes. Monthly Weather Review, 128, 1165-1176(2000).
(28)K.Yokoi and F.Xiao: Relationships between a roller and a dynamic pressure distribution in circular hydraulic jumps. Phys. Rev. E, 61, R1016-R1019(2000).
(29)K. Yokoi and F. Xiao: Numerical studies of hydraulic jump phenomena with largely deformed interfaces. Prog. Theor. Phys. Suppl. 138, 708 -712(2000).
(30)F.Xiao and T.Ebisuzaki: A Computational Model for Incompressible Flow Includiing Surface Tension. Communications in Numerical Methods in Engineering, 15, 887-895(1999).
(31)F.Xiao: A Computational Model for Suspended Large Rigid Body in 3D Unsteady Viscous Flow. J. Comput. Phys., 155, 348-379(1999).
(32)F.Xiao and T.Ebisuzaki: Multi-phase Hydrodynamic Simulations on Parallel Computer, Lecture Notes in Computer Science, 1615, 157-168(1999).
(33)K.Yokoi and F.Xiao: A Numerical Study of The Transition in The Circular Hydraulic Jump, Physics Letters A, 257, 153-157(1999).
(34)Xiao,T.Yabe and T.Ebisuzaki: An oscillation suppressing semi-Lagrangian solver for the advection equation, Comput.Phys.Commn., 116, 121-135(1999).
(35)F.Xiao and T.Ebisuzaki: An Efficient Numerical Model for Multi-Phase Fluid Dynamics" International Journal on Advances in Engineering Software, 29, 345-352(1998).
(36)F.Xiao,T.Yabe, T.Ito and M.Tajima: An Algorithm for Simulating Solid Objects Suspended in Stratified Flow. Comput.Phys.Commn., 102,147-160(1997).
(37)F.Xiao, T.Yabe, G.Nizam and T.Ito: Constructing Multi-dimensional Oscillation Preventing Scheme for Advection Equation by Rational Function. Computer Physics Communications, 94, 103-118(1996).
(38)F.Xiao, T.Yabe and T.Ito: Constructing Oscillation Preventing Scheme for Advection Equation by Rational Function. Computer Physics Communications, 93, 1-12(1996).
(39)T.Yabe, T.Aoki, M.Tajima, F.Xiao, S.Sasaki, Y.Abe and J.Watanabe: Possible Explanation of the Secondary Flash and Strong Flare on IR Lightcurves upon Impact of Shoemaker-Levy 9. Geophysical Research Letters, 22, 2429-2432(1995).
(40)T. Yabe, F. Xiao and H. Mochizuki: Simulation Technique for Dynamic Evaporation Processes. Nuclear Engineering and Design, 155, 45-53(1995).
(41)T.Yabe and F.Xiao: Description of Complex and Sharp Interfaces with Fixed Grid in Incompressible and Compressible Fluid. Computer & Mathematics with Application, 29,15-25 (1994).
(42)T.Yabe, F.Xiao, D.L. Zhang, S. Sasaki, Y. Abe, N. Kobayashi and T. Terazawa: Effect of EOS on Break-Up of Shoemaker-Levy 9 Entering Jovian Atmosphere. Journal of Geomagnetism and Geoelectricity, 46, 657-662(1994).
(43)F.Xiao and T.Yabe: A Method to Trace Sharp Interface of Two Fluids in Calculations Involving Shocks. Shock Waves, 4, 101-108(1994).
(44)T.Yabe and F.Xiao: Description of Complex and Sharp Interface during Shock Wave Interaction with Liquid Drop. Journal of Physical Society of Japan, 62, 2537-2540(1993).
承担科研项目情况
1. 1997-1999, Special post-doctorate research fellowship in RIKEN (PI)
2. 2001-2002, Monbusho Grants-in Aid for scientific research (No. 13750137)(PI)
3. 2004-2006, JSPS Grants-in Aid for scientific research (No. 16605002)(PI)
4. 2004-2006, JSPS Grants-in Aid for scientific research (No. 16360045)
5. 2006, Monbusho Grants-in Aid for international scientific exchange program (PI)
6. 2005-2010, CREST program from Japan Science and Technology Agency (with Earth Simulator Research Center)
7. 2000-present, Funds from Japanese industries (PI)
8. 2007- 中国科学院创新工程重要方向项目 (KJCX2-YW-L04) (PI)
