姓名: 柴振华 性别: 男 出生日期: |
职位: 教授 电话: Email: hustczh@hust.edu.cn 个人主页: |
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基本情况 Basic
博士,教授,中国力学学会渗流力学专业组青年委员会委员,<PLOS One>杂志Academic editor,<Mathematical Reviews>评论员。 ResearcherID: http://www.researcherid.com/rid/F-6832-2010 Homepage: http://maths.hust.edu.cn/teacher/index.php?g=Index&m=Index&a=teacher_view&user=24
教育背景 Educational background
09/2004-07/2009: 博士,华中科技大学 09/2000-07/2004: 学士,郑州大学
工作经历 Work experience
11/2016-至今: 教授,数学与统计学院,华中科技大学 11/2013-至今: 计算数学系主任,数学与统计学院,华中科技大学 11/2013-10/2016: 副教授,数学与统计学院,华中科技大学 12/2011-12/2013: 博士后 (香江学者计划),香港科技大学 07/2009-10/2013: 讲师, 数学与统计学院,华中科技大学
研究方向 Research fields
1. 格子Boltzmann方法 2. 微尺度流动与传热 3. 多孔介质流动与传热
科研成果 Scientific achievements
I. 省部级以上项目-------------------------------------
#国家自然科学基金:
5. 2016-2019: 微尺度多孔介质中多组分气体传输机理的格子Boltzmann方法研究 (51576079,主持).
4. 2011-2013: 基于格子Boltzmann方法的致密多孔介质内多相流体微观传输机理研究 (51006040,主持).
3. 2010-2012: 混合气体微尺度输运的格子Boltzmann模型及应用研究 (10972087,参与).
2. 2008-2010: 复杂流动的格子Boltzmann建模与计算机仿真 (60773195,参与).
1. 2007-2009: 微尺度气体流动与传热的格子Boltzmann 方法研究 (50606012,参与).
#国家重大/重点基金(973):
3. 2017-2019:“航空零件激光增材制造过程的数值模拟关键技术及软件”,国家重点研发计划(政府间国际科技创新合作重点专项), (2017YFE0100100,参与)
2. 2011-2015: “二氧化碳减排、储存和资源化利用的基础研究”专题“低渗透CO2混相驱渗流的微观数值研究” ,国家重大基础研究专项基金(973),(2011CB707305,参与).
1. 2006-2010: “温室气体提高石油采收率的资源化利用及地下埋存”专题“基于介观格子Boltzmann方法研究CO2驱油过程中的细观和宏观渗流规律”,国家重大基础研究专项基金(973),(2006CB705804,参与).
#中国博士后科学基金:
2. 2012-2014: 低渗透多孔介质内二氧化碳驱油微观机理的数值研究 (2012M521424,主持).
1. 2011-2013: 燃料电池电极中的传质过程研究 (201104467,特别资助,主持).
#湖北省自然科学基金:
1. 2015-2016: 页岩气藏中气体传输机理的格子Boltzmann方法研究 (2015CFB440,主持).
II. 学术论文
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#国际期刊论文:
65. Qianhuan Li, Zhenhua Chai, and Baochang Shi, Lattice Boltzmann models for two-dimensional coupled Burgers' equations, Computers and Mathematics with Applications, https://doi.org/10.1016/j.camwa.2017.10.013 (2017).
64. Lei Wang, Baochang Shi, and Zhenhua Chai, Effects of temperature-dependent properties on natural convection of nanofluids in a partially heated cubic enclosure, Applied Thermal Engineering, 128(5): 204-213 (2018).
63. Zhimin Hou, Baochang Shi, and Zhenhua Chai, A lattice Boltzmann based local feedback control approach for spiral wave, Computers and Mathematics with Applications, 74: 2330-2340 (2017).
62. Lei Wang, Zhenhua Chai, and Baochang Shi, Lattice Boltzmann simulation of magnetic field effect on natural convection of power-law nanofluids in rectangular enclosures, Advances in Applied Mathematics and Mechanics, 9: 1094-1110 (2017).
61. H. Liang, B. C. Shi and Z. H. Chai, An efficient phase-field-based multiple-relaxation-time lattice Boltzmann model for three-dimensional multiphase flows, Computers and Mathematics with Applications, 73: 1524-1538 (2017).
60. Huili Wang, Baochang Shi, Hong Liang, and Zhenhua Chai, Finite-difference lattice Boltzmann model for nonlinear convection-diffusion equations, Applied Mathematics and Computation, 309: 334-349 (2017).
59. Huili Wang, Zhenhua Chai, Baochang Shi, and Hong Liang, Comparative study of the lattice Boltzmann models for Allen-Cahn and Cahn-Hilliard equations, Physical Review E, 94: 033304, (2016).
58. 梁宏, 柴振华, 施保昌, 分叉微通道内液滴动力学行为的格子Boltzmann方法模拟, 物理学报, 65(20): 204701 (2016). Hong Liang, Zhenhua Chai, and Baochang Shi, Lattice Boltzmann simulation of droplet dynamics in a bifurcating micro-channel, Acta Physica Sinica, 65(20): 204701 (2016).
57. Lei Wang, Zhenhua Chai, and Baochang Shi, Regularized lattice Boltzmann simulation of double-diffusive convection of power-law nanofluids in rectangular enclosures, International Journal of Heat and Mass Transfer, 102: 381-395 (2016).
56. Lei Wang, Baochang Shi, Zhenhua Chai, and Xuguang Yang, Regularized lattice Boltzmann model for double-diffusive convection in vertical enclosures with heating and salting from below, Applied Thermal Engineering, 103: 365-376 (2016).
55. Chen Wu, Baochang Shi, Zhenhua Chai, and Peng Wang, Discrete unified gas kinetic scheme with force term for incompressible fluid flows, Computers and Mathematics with Applications, 71: 2608-2629 (2016).
54. Zhenhua Chai, Baochang Shi, and Zhaoli Guo, A multiple-relaxation-time lattice Boltzmann model for general nonlinear anisotropic convection-diffusion equations, Journal of Scientific Computing, 69: 355-390 (2016).
53. Shuqi Cui, Ning Hong, Baochang Shi, and Zhenhua Chai, Discrete effect on the halfway bounce-back boundary condition of multiple-relaxation-time lattice Boltzmann model for convection-diffusion equations, Physical Review E, 93: 043311 (2016).
52. Zhenhua Chai, Changsheng Huang, Baochang Shi, and Zhaoli Guo, A comparative study on the lattice Boltzmann models for predicting effective diffusivity of porous media, International Journal of Heat and Mass Transfer, 98: 687-696 (2016).
51. H. Liang, Q.X. Li, B.C. Shi, and Z.H. Chai, Lattice Boltzmann simulation of three-dimensional Rayleigh-Taylor instability, Physical Review E, 93, 033113 (2016).
50. 黄虎, 洪宁, 梁宏, 施保昌, 柴振华, 液滴撞击液膜过程的格子Boltzmann方法模拟, 物理学报, 65(8): 084702 (2016). Hu Huang, Ning Hong, Hong Liang, Baochang Shi, and Zhenhua Chai, Lattice Boltzmann simulation of the droplet impact onto liquid film, Acta Physica Sinica, 65(8): 084702 (2016).
49. H. Liang, B.C. Shi, and Z.H. Chai, Lattice Boltzmann modeling of three-phase incompressible flows, Physical Review E, 93, 013308 (2016).
48. Lei Wang, Baochang Shi, and Zhenhua Chai, A lattice Boltzmann study of the asymmetry effect on the hemodynamics in stented fusiform aneurysms, Computers and Mathematics with Applications, 71, 328-348 (2016).
47. 张婷, 施保昌, 柴振华, 多孔介质内溶解与沉淀过程的格子Boltzmann方法模拟, 物理学报, 64(15):154701 (2015). Ting Zhang, Bao-Chang Shi, Zhen-Hua Chai, Lattice Boltzmann simulation of dissolution and precipitation in porous media, Acta Physica Sinica, 64(15):154701 (2015).
46. Lei Wang, Baochang Shi, and Zhenhua Chai, Regularized Lattice Boltzmann Model for a class of convection-diffusion equations, Physical Review E, 92: 043311 (2015).
45. Qianhuan Li, Zhenhua Chai, and Baochang Shi, Lattice Boltzmann models for a class of convection-diffusion equations with variable coefficients, Computers and Mathematics with Applications, 70: 548-561 (2015).
44. Changsheng Huang, Baochang Shi, Zhaoli Guo, and Zhenhua Chai, Multi-GPU based lattice Boltzmann method for hemodynamic simulation in patient-specific cerebral aneurysm, Communications in Computational Physics, 17(4): 960-974 (2015).
43. Hong Liang, Zhenhua Chai*, Baochang Shi, Zhaoli Guo, and Qiuxiang Li, Numerical simulations of immiscible displacement in the cavities via lattice Boltzmann method, International Journal of Modern Physics C, 26: 1550074 (2015).
42. Qianhuan Li, Zhenhua Chai, and Baochang Shi, A novel lattice Boltzmann model for the coupled viscous Burgers’ equations, Applied Mathematics and Computation, 250: 948-957 (2015).
41. Changsheng Huang, Baochang Shi, Nanzhong He, and Zhenhua Chai, Implementation of multi-GPU based lattice Boltzmann method for flow through porous media, Advances in Applied Mathematics and Mechanics, 7: 1-12 (2015).
40. H. Liang, Z.H. Chai, B.C. Shi, Z.L. Guo, and T. Zhang, Phase-field-based lattice Boltzmann model for axisymmetric multiphase flows, Physical Review E, 90: 063311 (2014).
39. Xuguang Yang, Baochang Shi, and Zhenhua Chai, Coupled lattice Boltzmann method for generalized Keller–Segel chemotaxis model, Computers and Mathematics with Applications, 68: 1653-1670 (2014).
38. L. An, T.S. Zhao, Z.H. Chai, P. Tan, and L. Zeng, Mathematical modeling of an anion-exchange membrane water electrolyzer for hydrogen production, International Journal of Hydrogen Energy, 39: 19869-19876 (2014).
37. Qiuxiang Li, Zhenhua Chai, Baochang Shi, and Hong Liang, Deformation and breakup of a liquid droplet past a solid circular cylinder: A lattice Boltzmann study, Physical Review E, 90: 043015 (2014).
36. Xuguang Yang, Baochang Shi, and Zhenhua Chai, Zhaoli Guo, A coupled lattice Boltzmann method to solve Nernst-Planck model for simulating electro-osmotic flows, Journal of Scientific Computing, 61: 222-238 (2014).
35. Qianhuan Li, Zhenhua Chai, and Baochang Shi, An efficient lattice Boltzmann model for steady convection-difusion equation, Journal of Scientific Computing, 61: 308-326 (2014).
34. Xuguang Yang, Baochang Shi, and Zhenhua Chai, Generalized modification in the lattice Bhatnagar-Gross-Krook model for incompressible Navier-Stokes equations and convection-diffusion equation, Physical Reivew E, 90: 013309 (2014).
33. Junhui Chen, Zhenhua Chai, Baochang Shi, and Wenhuan Zhang, Lattice Boltzmann method for filtering and contour detection of the natural images, Computers and Mathematics with Applications, 68: 257-268 (2014).
32. Zhenhua Chai and T.S. Zhao, Non-equilibrium scheme for computing the flux of the convection-diffusion equation in the framework of lattice Boltzmann method, Physical Review E, 90: 013305 (2014).
31. H. Liang, B.C. Shi, Z.L. Guo, and Z.H. Chai, Phase-field multiple-relaxation-time lattice Boltzmann model for incompressible multiphase flows, Physical Review E, 89: 053320 (2014).
30. L. An, T.S. Zhao, Z.H. Chai. L. Zeng, and P. Tan, Modeling of the mixed potential in hydrogen peroxide-based fuel cells, International Journal of Hydrogen Energy, 39: 7407-7416 (2014).
29. Qiuxiang Li, Ning Hong, Baochang Shi, and Zhenhua Chai, Simulation of power-law fluid flows in two-dimensional square cavity using multi-relaxation-time lattice Boltzmann method, Communications in Computational Physics, 15(1): 265-284 (2014).
28. L. An, Z. H. Chai, L. Zeng, P. Tan, and T. S. Zhao, Mathematical modeling of alkaline direct ethanol fuel cells, International Journal of Hydrogen Energy, 38: 14067-14075 (2013).
27. Zhenhua Chai and T. S. Zhao, Lattice Boltzmann model for the convection-diffusion equation, Physical Review E, 87(6): 063309 (2013).
26. Wenhuan Zhang, Zhenhua Chai, Baochang Shi, and Zhaoli Guo, Lattice Boltzmann study of flow and mixing characteristics of two-dimensional confined impinging streams with uniform and non-uniform inlet jets, Computers and Mathematics with Applications, 65: 638-647 (2013).
25. Wenhuan Zhang, Zhenhua Chai, Zhaoli Guo, and Baochang Shi, Lattice Boltzmann study of flow and temperature structures of non-isothermal laminar impinging streams, Communications in Computational Physics, 13(3): 835-850 (2013).
24. Changsheng Huang, Zhenhua Chai, and Baochang Shi, Non-Newtonian effect on hemodynamic characteristics of blood flow in stented cerebral aneurysm, Communications in Computational Physics, 13(3): 916-928 (2013).
23. Zhenhua Chai and T. S. Zhao, Effect of the forcing term in the multiple-relaxation-time lattice Boltzmann equation on the shear stress or the strain rate tensor, Physical Review E, 86: 016705 (2012).
22. Zhenhua Chai and T. S. Zhao, A pseudopotential-based multiple-relaxation-time lattice Boltzmann model for multicomponent/multiphase flows, Acta Mechanica Sinica, 28(4): 983-992 (2012) (Invited Article).
21. Ting Zhang, Baochang Shi, Zhaoli Guo, Zhenhua Chai, and Jianhua Lu, General bounce-back scheme for concentration boundary condition in the lattice Boltzmann method, Physical Review E, 85: 016701 (2012), Corrigendum, 88: 029903 (2013).
20. Ting Zhang, Baochang Shi, Zhenhua Chai, and Fumei Rong, Lattice BGK model for incompressible axisymmetric flows, Communications in Computational Physics, 11: 1569-1590 (2012).
19. Hongyan Du, Zhenhua Chai, and Baochang Shi, Lattice Boltzmann study of mixed convection in a cubic cavity, Communications in Theoretical Physics, 56: 144-150 (2011).
18. Jianhua Lu, Zhenhua Chai, Baochang Shi, Zhaoli Guo, and Guoxiang Hou, Rectangular lattice Boltzmann model for nonlinear convection-diffusion equations, Philosophical Transactions of the Royal Society A, 369: 2311-2319 (2011).
17. Zhenghua Wang, Baochang Shi, Xiuqiao Xiang, Zhenhua Chai, and Jianhua Lu, Lattice Boltzmann method for n-dimensional nonlinear hyperbolic conservation laws with the source term, Chaos, 21: 013120 (2011).
16 Zhenhua Chai, Jianhua Lu, Baochang Shi, and Zhaoli Guo, Gas slippage effect on the permeability of circular cylinders in a square array, International Journal of Heat and Mass Transfer, 54: 3009-3014 (2011).
15. Zhenhua Chai, Baochang Shi, Zhaoli Guo, and Fumei Rong, Multiple-relaxation-time lattice Boltzmann model for generalized Newtonian fluid flows, Journal of Non-Newtonian Fluid Mechanics, 166: 332-342 (2011).
14. Fumei Rong, Zhaoli Guo, Zhenhua Chai, and Baochang Shi, A lattice Boltzmann model for axisymmetric thermal flows through porous media, International Journal of Heat and Mass Transfer, 53(23-24): 5519-5527 (2010).
13. Ting Zhang, Baochang Shi, and Zhenhua Chai, Lattice Boltzmann simulation of lid-driven flow in trapezoidal cavities, Computers & Fluids, 39(10): 1977-1989 (2010).
12. Zhenhua Chai, Baochang Shi, Jianhua Lu, and Zhaoli Guo, Non-Darcy flow in disordered porous media: A lattice Boltzmann study, Computers & Fluids, 39(10): 2069-2077 (2010).
11. Zhenhua Chai, Baochang Shi, Zhaoli Guo, and Jianhua Lu, Gas flow through square arrays of circular cylinders with Klinkenberg effect: A lattice Boltzmann study, Communications in Computational Physics, 8(5): 1052-1073 (2010).
10. Jianhua Lu, Zhaoli Guo, Zhenhua Chai, and Baochang Shi, Numerical study on the tortuosity of porous media via lattice Boltzmann method, Communications in Computational Physics, 6(2): 354-366 (2009).
9. Zhenhua Chai, Zhaoli Guo, Lin Zheng, and Baochang Shi, Lattice Boltzmann simulation of surface roughness effect on gaseous flow in a microchannel, Journal of Applied Physics, 104: 014902 (2008).
8. Zhenhua Chai and Baochang Shi, A novel lattice Boltzmann model for the Poisson equation, Applied Mathematical Modelling, 32: 2050-2058 (2008).
7. Zhenhua Chai, Baochang Shi, and Lin Zheng, A unified lattice Boltzmann model for some nonlinear partial differential equations, Chaos, Solitons and Fractals, 36: 874-882 (2008).
6. Zhenhua Chai, Baochang Shi, and Lin Zheng, Lattice Boltzmann simulation of viscous dissipation in electro-osmotic flow in microchannels, International Journal of Modern Physics C, 18(7): 1119-1131 (2007).
5. Zhenhua Chai, Zhaoli Guo, and Baochang Shi, Study of electro-osmotic flows in microchannels packed with variable porosity media via lattice Boltzmann method, Journal of Applied Physics, 101: 104913 (2007), selected by Virtual Journal of Nanoscale Science & Technology (AIP & APS).
4. Zhenhua Chai and Baochang Shi, Simulation of electro-osmotic flow in microchannel with lattice Boltzmann method, Physics Letters A, 364: 183-188 (2007), Corrigendum, 367: 507 (2007).
3. Lin Zheng, Baochang Shi, and Zhenhua Chai, Lattice Boltzmann method for simulating the temperature jump and velocity slip in microchannels, Communications in Computational Physics, 2(6): 1125-1138 (2007).
2. Lin Zheng, Baochang Shi, and Zhenhua Chai. TLBM model for the viscous heat dissipation in incompressible limit, International Journal of Modern Physics B, 21(1): 117-126 (2007).
1. Zhenhua Chai, Baochang Shi, and Lin Zheng, Simulating high Reynolds number flow in two-dimensional lid-driven cavity by multi-relaxation-time lattice Boltzmann method, Chinese Physics, 15(8): 1855-1863 (2006).
#中文期刊和会议论文:
6. 黄虎, 洪宁, 崔淑琪, 施保昌, 柴振华, 基于格子Boltzmann方法的液滴撞击粗糙壁面上液膜过程的数值研究, 科学通报, 62: 2428-2441 (2017).
5. 张婷, 郭照立, 柴振华, 施保昌, 钙基吸收剂吸收CO2过程的格子Boltzmann模拟, 化工学报, 63(S1): 165-171 (2012).
4. 柴振华, 郭照立, 施保昌, 利用多松弛格子Boltzmann方法预测多孔介质的渗透率. 工程热物理学报, 31(1): 107-109 (2010).
3. Jianhua Lu, Baochang Shi, Zhaoli Guo, and Zhenhua Chai, Numerical study on natural convection in a square enclosure containing a rectangular heated cylinder, Frontiers of Energy and Power Engineering in China, 3(4): 373-380 (2009).
2. 王华龙, 柴振华, 郭照立, 致密多孔介质中气体渗流的格子Boltzmann模拟. 计算物理, 26(3): 389-395 (2009).
1. Zhenhua Chai, Zhaoli Guo, and Baochang Shi, Lattice Boltzmann simulation of mixed convection in a driven cavity packed with porous medium, LNCS, 4487: 802-809 (2007) (Y. Shi et al. (Eds.) ICCS 2007).
III. 专利
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1. 发明专利:一种基于格子-玻尔兹曼模型的油层流体模拟方法 (武琛,施保昌,柴振华,赵勇,黄昌盛,汪垒,唐冲)2017.09
其它 Other
荣誉与奖励 8. 2017.04: 华中科技大学“青年五四奖章” 7. 2016.09: 华中科技大学“研究生知心导师” 6. 2016.09: 华中科技大学本科生“优秀教师班主任” 5. 2013.12: 华中科技大学“华中学者”晨星岗 4. 2012.07: 华中科技大学“学术新人”奖 3. 2012.05: 论文A novel lattice Boltzmann model for the Poisson equation入选Applied Mathematical Modelling 杂志2007-2011年Top Cited Article 2. 2012.03: “香江学者奖” 1. 2010.12: 湖北省第12批优秀博士学位论文