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18luck新利电竞

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姓 名 郭照立 性 别
职 称 教授(博导) 毕业学校
个人主页
联系方式 02787542417; 02787545526
邮 箱 zlguo@mail.hust.edu.cn
通讯地址 18luck新利电竞 煤燃烧国家重点实验室二楼205室
个人资料简介
郭照立 教授,博士生导师。国家杰出青年基金获得者,长江学者特聘教授。2000.6年于18luck新利电竞 获得工学博士学位;2000.06-2003.05 18luck新利电竞 煤燃烧国家重点实验室博士后,2003.09-2005.09 香港科技大学机械工程系访问学者。
任Advances in Applied Mathematics and Mechanics (AAMM) Associated Editor、Scientific Report、计算物理编委;中国工程热物理学会理事;国际会议ICMMES科学委员会委员,ASCHT国际咨询委员会委员。截至2018年Google scholar引用8000多次,h指数40左右,论文单篇引用次数最高达1100多次。

郭照立课题组欢迎流体力学与传热传质以及交叉学科(数学,力学,物理,化工,石油等等)背景的学生报考,详情见  链接:
https://www.researchgate.net/profile/Zhaoli_Guo2
谷歌学术链接:
https://scholar.google.com.hk/citations?user=Vdziw1MAAAAJ&hl=zh-CN
课题组网站:

教育及工作经历

研究方向

    主要研究方向:(1)介观物理模型和跨尺度的数值方法(Lattice Boltzmann方法、Gas-Kinetic Scheme方法、discrete unified gas kinetic scheme方法等); (2)跨尺度气体流动与固体传热、声子输运、稀薄/高超空气动力学;(3)多相多组分渗流微观机理;(4)多孔介质流动数值模拟(如地下水渗流,油藏工程);(5)以及其他包含溶解沉积等化学反应的流动模拟。(研究详情可以参考上面的课题组网站)

科研项目

    承担的科研项目:负责国家自然科学基金4项(含1项杰出青年基金),973专题2项,教育部新世纪优秀人才支持计划项目1项; 参与973和863项目各1项,国家自然科学基金重大研究计划1项,基金委创新团体骨干,湖北省自然科学基金创新团体骨干。

代表性论文与专利

    在国内外权威学术刊物和会议上发表SCI论文110余篇,SCI引用2400余次,SCI H指数24;合著专著3部。

    部分论著:

    <1> 著作

    1. 郭照立、郑楚光等,流体动力学的格子Boltzmann方法,湖北科学技术出版社,2002.

    2. 郭照立、郑楚光,格子Boltzmann方法的原理及应用,科学出版社,2009.

    3.  Zhaoli Guo, Chang Shu, Lattice Boltzmann Method and its Applications in Engineering, World Scientific Publisher, 2013.

    <2> 期刊论文

    ---------- 2011: ----------

    1. Qin Lou, Zhaoli Guo, and Chuguang Zheng, Some fundamental properties of lattice Boltzmann equation for two phase flows, CMES-Comput. Mod. Eng. Sci., 76: 175-188 (2011)

    2. Kun Xu and Z.L. Guo,multiple temperature gas dynamic equations for non-equilibrium flows, J. Comput. Math., 29: 639–660 (2011).

    3. Zhaoli Guo, Chuguang Zheng, Baochang Shi, Checkerboard effects on spurious currents in lattice Boltzmann equation for two-phase flows, Phil. Trans. Royal Society A , 369: 2283-2291 (2011).

    4. Zhaoli Guo, Baochang Shi, Chuguang Zheng, Velocity inversion of micro cylindrical Couette flow: A lattice Boltzmann study. Comput. Math. Appl., 3519-3527 (2011).

    5. Xiuliang Liu, Zhaoli Guo, A Lattice Boltzmann study of gas flows in a long micro-channel, Comput. Math. Appl. (DOI: 10.1016/j.camwa.2011.01.035).

    6. Baochang Shi, Zhaoli Guo, Lattice Boltzmann simulation of some nonlinear convection-diffusion equations. Comput. Math. Appl., 61: 3443-3452 (2011).

    7. Alexandr Kuzmin1y, Zhaoli Guo, Abdulmajeed Mohamad, The simultaneous mass and force terms incorporation in MRT framework for lattice Boltzmann schemes, Phil. Trans. Royal Society A, 369 : 2219-2227 (2011)

    8. Jianhua Lu, Zhenhua Chai, Baochang Shi, Zhaoli Guo, Guoxiang Hou, Rectangular lattice Boltzmann model for nonlinear convection-diffusion equations, Phil. Trans. Royal Society A, 369: 2311-2319 (2011).

    9. Zhaoli Guo, Chuguang Zheng, Baochang Shi, Force imbalance in lattice-Boltzmann equation for two-phase flows. Phys. Rev. E 83: 036707 (2011)

    10. Fumei Rong, Zhaoli Guo, Jianhua Lu, Baochang Shi, Numerical simulation of the flow around a porous covering square cylinder in a channel via lattice Boltzmann method. Int. J. Numer. Meth. Fluids. 65: 1217-1230 (2011).

    11. Zhenhua Chai, Baochang Shi, Zhaoli Guo, Fumei Rong, Multiple-relaxation-time lattice Boltzmann model for generalized Newtonian fluid flows. J. Non-Newtonian Fluid Mech., 166: 332-342 (2011).

    ---------- 2010: ----------

    12. Lin Zheng, Zhaoli Guo, Baochang Shi, Chuguang Zheng, Kinetic theory based lattice Boltzmann equation with viscous dissipation and pressure work for axisymmetric thermal flows. J. Comput. Phys., 229: 5843-5856 (2010) .

    13. Lin Zheng, Baochang Shi, Zhaoli Guo, Chuguang Zheng, Lattice Boltzmann equation for axisymmetric thermal flows. Comput. Fluids, 39: 945-952 (2010) .

    14. Lin Zheng, Zhaoli Guo, Baochang Shi, Chuguang Zheng, Finite-difference-based multiple-relaxation-times lattice Boltzmann model for binary mixtures. Phys. Rev. E, 81: 016706 (2010) .

    15. Zhenhua Chai, Baochang Shi, Jianhua Lu, Zhaoli Guo, Non-Darcy flow in disordered porous media: A lattice Boltzmann study. Comput. Fluids, 39: 2069-2077 (2010). .

    16. Fumei Rong, Zhaoli Guo, Ting Zhang, Baochang Shi, Numerical study of benard convection with temperature-dependent viscosity in a porous cavity via lattice Boltzmann method. Int. J. Mod. Phys. C, 21: 1407-1419 (2010).

    17. Zhenhua Chai, Baochang Shi, Zhaoli Guo, Jianhua Lu, Gas flow through square arrays of circular cylinders with Klinkenberg effect: a lattice Boltzmann study. Comm. Comput. Phys., 8: 1052-1073 (2010).

    18. Fumei Rong, Zhaoli Guo, Zhenhua Chai, Baochang Shi, A lattice Boltzmann model for axisymmetric thermal flows through porous media. Int. J. Heat Mass Trans., 53: 5519-5527 (2010) .

    19. Liang Wang, Zhaoli Guo, Chuguang Zheng, Multi-relaxation-time lattice Boltzmann model for axisymmetric flows. Comput. Fluids, 39: 1542-1548 (2010).

    ---------- 2009: ----------

    20. Zhaoli Guo, Chuguang Zheng, Baochang Shi, Incompressible lattice Boltzmann model for porous flows with large pressure gradient. Prog. Comput. Fluid Dyn., 9: 225-230 (2009) .

    21. Jianhua Lu, Baochang Shi, Zhaoli Guo, Zhenhua Chai, Numerical study on the natural convection in a square enclosure containing a rectangular heated cylinder. Front. Energ. Power Engineer China, 3: 373-380 (2009).

    22. Zhaoli Guo, Kun Xu, Numerical validation of Brenners hydrodynamic model by force driven Poiseuille flow. Adv. Appl. Math. Mech, 1: 391-401 (2009).

    23. Jianhua Lu, Zhaoli Guo, Zhenhua Chai, Baochang Shi, Numerical study on the tortuosity of porous media via lattice Boltzmann method. Comm. Comput. Phys., 6: 354-366 (2009).

    24. Baochang Shi, Zhaoli Guo, Lattice Boltzmann model for the one-dimensional nonlinear Dirac equation. Phys. Rev. E, 79: 066704 (2009). .

    25. Zhaoli Guo, Haifeng Han, Baochang Shi, Chuguang Zheng, Theory of the lattice Boltzmann equation: Lattice Boltzmann model for axisymmetric flows. Phys. Rev. E, 79: 046708, (2009).

    26. Zhaoli Guo, Pietro Asinari, Chuguang Zheng, Lattice Boltzmann equation for microscale gas flows of binary mixtures. Phys. Rev. E, 79: 026702 (2009).

    27. Baochang Shi, Zhaoli Guo, Lattice Boltzmann model for nonlinear convection-diffusion equations. Phys. Rev. E, 79: 016701 (2009). .

    28. Kun Xu, Zhaoli Guo, Generalized gas dynamic equations with multiple translational temperatures. Mod. Phys. Lett. B, 23: 237-240 (2009).

     

    ---------- 2008: ----------

     

    29. Zhaoli Guo, Chuguang Zheng, Analysis of lattice Boltzmann equation for microscale gas flows: Relaxation times, boundary conditions and the Knudsen layer. Int. J. Comput. Fluid Dyn., 22: 465-473 (2008).

     

    30. Lin Zheng, Baochang Shi, Zhaoli Guo, Multiple-relaxation-time model for the correct thermohydrodynamic equations. Phys. Rev. E, 78: 026705 (2008).

     

     

    31. Zhenhua Chai, Zhaoli Guo, Lin Zheng, Baochang Shi, Lattice Boltzmann simulation of surface roughness effect on gaseous flow in a microchannel. J. Appl. Phys., 104: 014902 (2008). 32. Lin Zheng, Zhaoli Guo, Baochang Shi, Discrete effects on thermal boundary conditions for the thermal lattice Boltzmann method in simulating microscale gas flows. EPL, 82: 44002 (2008). . 33. Zhaoli Guo, Hongwei Liu, Li-Shi Luo, Kun Xu, A comparative study of the LBE and GKS methods for 2D near incompressible laminar flows. J. Comput. Phys., 227: 4955-4976 (2008). . 34. Zhaoli Guo, Chuguang Zheng, Baochang Shi, Lattice Boltzmann equation with multiple effective relaxation times for gaseous microscale flow. Phys. Rev. E, 77: 036707, (2008). . 35. Yong Shi, Tianshou Zhao, Zhaoli Guo, Lattice Boltzmann simulation of thermal electro-osmotic flows in micro/nanochannels. J. Comput. Theor. Nanosci., 5: 236-246 (2008). . 36. Yong Shi, Tianshou Zhao, Zhaoli Guo, Simplified model and lattice Boltzmann algorithm for microscale electro-osmotic flows and heat transfer. Int. J. Heat Mass Trans., 51: 586-596 (2008). ---------- 2007: ---------- 37. Zhaoli Guo, Baochang Shi, Chuguang Zheng, An extended Navier-Stokes formulation for gas flows in the Knudsen layer near a wall. EPL, 80: 24001 (2007). 38. Zhaoli Guo Baochang Shi, Tianshou Zhao, Chuguang Zheng, Discrete effects on boundary conditions for the lattice Boltzmann equation in simulating microscale gas flows. Phys. Rev. E, 76: 056704 (2007). 39. Zhi-Wei Tian, Chun Zou, Hongjuan Liu, Zhaoli Guo, Zhaohui Liu, Chuguang Zheng , Lattice Boltzmann scheme for simulating thermal micro-flow. Phys. A, 385: 59-68 (2007). 40. Yong Shi, Tianshou Zhao, Zhaoli Guo, Lattice Boltzmann simulation of dense gas flows in microchannels. Phys. Rev. E, 76: 016707 (2007). 41. Zhenhua Chai, Zhaoli Guo, Baochang Shi, Study of electro-osmotic flows in microchannels packed with variable porosity media via lattice Boltzmann method. J. Appl. Phys., 101: 104913 (2007). 42. Zhaoli Guo, Chuguang Zheng, Baochang Shi, Tianshou Zhao, Thermal lattice Boltzmann equation for low Mach number flows: Decoupling model. Phys. Rev. E, 75: 036704 (2007). 43. Zhenhua Chai, Zhaoli Guo, Baochang Shi, Lattice Boltzmann simulation of mixed convection in a driven cavity packed with porous medium. 7th Int. Conf. Comput. Sci. (ICCS 2007), pp 802-809 (2007). (ISTP) 44. Xiaomei Yu, Zhaoli Guo, Baochang Shi, Numerical study of cross diffusion effects on double diffusive convection with lattice Boltzmann method. 7th Int. Conf. Comput. Sci. (ICCS 2007), pp 810-817 (2007). (ISTP) ---------- 2006: ---------- 45. Zhiwei Tian, Chun Zou, Hongjuan Liu, Zhaohui Liu, Zhaoli Guo, Chuguang Zheng, Thermal lattice Boltzmann model with viscous heat dissipation in the incompressible limit. Int. J. Mod. Phys. C, 17: 1131-1139 (2006). 46. Zhaoli Guo, Tianshou Zhao, Xu, Chao, Yong Shi, Simulation of fluid flows in the nanometer: kinetic approach and molecular dynamic simulation. Int. J. Comput. Fluid Dyn., 20: 361-367 (2006). 47. Zhaoli Guo, Tianshou Zhao, Yong Shi, Generalized hydrodynamic model for fluid flows: From nanoscale to macroscale. Phys. Fluids, 18: 067107 (2006). 48. Weiwei Yan, Yang Liu, Zhaoli Guo, Yousheng Xu, Lattice Boltzmann simulation on natural convection heat transfer in a two-dimensional cavity filled with heterogeneously porous medium. Int. J. Mod. Phys. C, 17: 771-783 (2006). 49. Zhiwei Tian, Chun Zou, Zhaohui Liu, Zhaoli Zhaoli Guo, Hongjuan Liu, Chuguang Zheng, Lattice Boltzmann method in simulation of thermal micro-flow with temperature jump. Int. J. Mod. Phys. C, 17(5), pp 603-614 (2006). 50. Zhaoli Guo, Tianshou Zhao, Yong Shi, Physical symmetry, spatial accuracy, and relaxation time of the lattice Boltzmann equation for microgas flows. J. Appl. Phys., 99: 074903, (2006). 51. Yong Shi, Tianshou Zhao, Zhaoli Guo, Lattice Boltzmann method for incompressible flows with large pressure gradients. Phys. Rev. E, 73: 026704 (2006). 52. Yong Shi, Tianshou Zhao, Zhaoli Guo, Finite difference-based lattice Boltzmann simulation of natural convection heat transfer in a horizontal concentric annulus. Comput. Fluids, 35: 1-15 (2006). ---------- 2005 ---------- 53. Z.L. Guo, T.S. Zhao, and Y. Shi, Temperature dependence of the velocity boundary condition for nanoscale fluid flows, Phys. Rev. E, 72: 036301 (2005 ) 54. Z.L. Guo, T.S. Zhao, and Y. Shi, Simple kinetic model for fluid flows in the nanometer scale, Phys. Rev. E, 71: 035301 (2005). 55. Z.L. Guo, T.S. Zhao, and Y. Shi, A lattice Boltzmann algorithm for electro-osmotic flows in microfluidic devices, J. Chem. Phys., 122: 144907 (2005). 56. Z.L. Guo and T.S. Zhao, Finite-difference-based lattice Boltzmann model for dense binary mixtures, Phys. Rev. E, 71: 026701 (2005). 57. Z.L. Guo and T.S. Zhao, A lattice Boltzmann model for convection heat transfer in porous media, Numer.l Heat Transf. B, 47: 157-177 (2005). 58. Z.L. Guo and T.S. Zhao, Lattice Boltzmann simulation of natural convection with temperature-dependent viscosity in a porous cavity, Prog. Comput. Fluid Dyna., 5(1-2), 110-117(2005) ---------- 2004 ---------- 59. Y. Shi, TS Zhao, Z.L. Guo, Thermal lattice Bhatnagar-Gross-Krook model for flows with viscous heat dissipation in the incompressible limit, Phys. Rev. E. 70(6): 066706 (2004). 60. Z.L. Guo, T.S. Zhao, and Y. Shi, Preconditioned lattice-Boltzmann method for steady flows. Phys. Rev. E, 70(6) 066310 (2004 ). 61. S. Chen, B.C. Shi, Z.H. Liu, Z. He, Z.L. Guo, and C.G. Zheng, Lattice-Boltzmann simulation of particle-laden flow over a backward-facing step, Chin. Phys., 13(10) 1657-1664(2004) 62. N.Z. He, N.C. Wang, B.C. Shi, and Z.L. Guo, A unified incompressible lattice BGK model and its application to three-dimensional lid-driven cavity flow. Chin. Phys., 13 (1): 40-46 (JAN 2004). 63. Z.L. Guo and Y. Zhou, Numerical and experimental investigation of a streamwise oscillating cylinder wake in the presence of a downstream cylinder, Fluid Mech. Its Appl., 75: 415-424 (2004). ---------- 2003 ---------- 64. W. Guo, N.C. Wang, B.C. Shi, and Z.L. Guo, Lattice-BGK simulation of a two-dimensional channel flow around a square cylinder. Chin. Phys., 12 (1) 67-74 (2003). 65. Z.L. Guo and T.S. Zhao, Discrete velocity and lattice Boltzmann models for binary mixtures of nonideal fluids. Phys. Rev. E, 68(3): 035302(2003) 66. W.B. Guo, B.C. Shi, N.C. Wang, and Z.L. Guo, Lattice-BGK simulation of stratified flow over a backward-facing step. Int. J. Mod. Phys. B, 17(1/2) (2003). 67. Z.L. Guo, and T.S. Zhao, Explicit finite-difference lattice Boltzmann method for curvilinear coordinates. Phys. Rev. E, 67: 066709 (2003) 68. B.C. Shi, N.Z. He, N.C. Wang, Z.L. Guo, and W.B. Guo, Lattice Boltzmann simulations of fluid flows, Adv. Parallel Proc. Tech., 2834: 322-332 (2003) 69. B.C. Shi and Z.L. Guo, Thermal lattice BGK simulation of turbulent natural convection due to internal heat generation, Int. J. Mod. Phys. B, 17(1-2): 173-177 (2003). 70. Z.L. Guo, C.G. Zheng, and B.C. Shi, Domain-decomposition technique in lattice Boltzmann method. Int. J. Mod. Phys. B, 17(1-2): 129-133 (2003). ---------- 2002 ---------- 71. Z.L. Guo and T.S. Zhao, Lattice Boltzmann model for incompressible flows through porous media, Phys. Rev. E, 66(3): 036304(1-9) (2002) 72. W.B. Guo, N.C. Wang, B.C. Shi, and Z.L. Guo, Lattice Bhatnagar-Gross-Krook simulations of stratified backward-facing step flow, Chin. Phys. Lett., 19: 1831-1834 (2002) 73. Z.L. Guo, C.G. Zheng, and B.C. Shi, Non-equilibrium extrapolation method for velocity and pressure boundary conditions in the lattice Boltzmann method, Chin Phys., 11(4): 366-374(2002) 74. Z.L. Guo, B.C. Shi, and C.G. Zheng, A coupled lattice BGK model for the Boussinesq equation, Int. J. Num. Fluids, 39(4): 325-342(2002) 75. B.C. Shi, Z.L. Guo, and N.C. Wang, Lattice Bhatnagar-Gross-Krook Simulations of Turbulent Natural Convection in a Cavity, Chin. Phys. Lett.., 19(4): 515-517(2002) 76. Z.L. Guo, C.G. Zheng, and B.C. Shi, Discrete lattice effects on the forcing term in the lattice Boltzmann method, Phys. Rev. E, 65(4): 046308 (2002)

    5.   Z.L. Guo, C.G. Zheng, and B.C. Shi, An extrapolation method for boundary condition in Lattice Boltzmann method, Phys. Fluids, 14(6): 2007-2010 (2002)

    ---------- 2001 and before ----------

    4.   Z.L. Guo, C.G. Zheng, and T.S. Zhao, A lattice BGK scheme with general propagation, J. Sci. Comput. 16(4): 569-585 (2001)

    3.   Z.L. Guo, B.C. Shi, and N.C. Wang, Two new algorithms based on product system for discrete cosine transform, Signal Process. 81 (9): 1899-1908 (2001)

    2.   Z.L. Guo, B.C. Shi, and N.C. Wang, Lattice BGK model for incompressible Navier-Stokes equation, J. Comput. Phys., 165(1):288-306(2000)

    1.   Z.L. Guo, B.C.Shi, and N.C. Wang, Full Lagrangian and Lattice Boltzmann Methods for the Advection-Diffusion Equation, J. Sci. Comput., 14(3): 291-300(1999)

所获荣誉和奖励

    作为主要成员获得国家自然科学二等奖(排名第二)、教育部提名国家自然科学一等奖(排名第三)、湖北省自然科学一等奖(排名第二)。