张俊 - 北京航空航天大学 - 航空科学与工程学院

个人简介

张俊，教授，博导，国家级青年人才，航空学院人机与环境工程系主任。本科毕业于中国科学技术大学，博士毕业于中科院力学所。曾在中科院力学所，英国思克莱德大学、爱丁堡大学工作，2017年入职北航。任《Advances in Aerodynamics》编委、《航空学报》青年编委，力学学会高温气体动力学专业组成员。主要从事非平衡和多尺度流动与传热研究，包括临近空间稀薄气体动力学、高超和高温气体动力学、液滴动力学的多尺度计算与数据驱动建模等。其代表性工作包括：发展了从稀薄到连续流域的统一随机粒子方法，并开发了相关计算软件（JCP, 2020；CPC, 2023），提出了从微观分子模拟到宏观控制方程的数据驱动模式（JFM, 2020），搭建了从微观气固相互作用模型到宏观滑移边界条件的桥梁（PRE, 2021），在Journal of Fluid Mechanics, Journal of Computational Physics, Physical Review E等发表论文60余篇，Google Scholar引用1200余次。主持国家自然科学基金重大研究计划培育项目、面上项目，装发重大基础研究项目课题，173重点项目子课题。主讲力学强基班和拔尖班工程基础课《热力学与统计物理》、航空学院本科生专业选修课《分子气体动力学》，研究生课程《分子模拟与多尺度计算》，国通学院研究生核心课程《高等计算力学》。2019年获北航“研究生课程卓越教学奖”。教育经历 2004.9 -- 2009.7 中国科学院力学研究所力学博士研究生毕业博士学位 2000.9 -- 2004.7 中国科学技术大学力学大学本科毕业学士学位工作经历 2017.3 -- 至今北京航空航天大学教授，博导 2016.2 -- 2017.2 英国爱丁堡大学 Research Associate 2014.2 -- 2016.2 英国思克莱德大学 Research Associate 2012.1 -- 2014.2 中国科学院力学研究所副研究员 2009.7 -- 2011.12 中国科学院力学研究所助理研究员

研究领域

高超声速多尺度流动模拟: 面向空天跨流域流动、航天器再入、低轨卫星、火星探测空天飞行的界面动力学：面向高超声速气固相互作用问题和航空结冰问题多尺度计算和机器学习耦合：面向非平衡本构关系和宏观方程探索

近期论文

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J. Zhang*, W. Ma, Data-driven discovery of governing equations for fluid dynamics based on molecular simulation, Journal of Fluid Mechanics, 892 (2020) A5.,2020 F. Fei, J. Zhang*, J. Li, Z.H. Liu*, A unified stochastic particle Bhatnagar-Gross-Krook method for multiscale gas flows, Journal of Computational Physics, 400 (2020) 108972.,2020 F. Fei*, H. Liu, Z. Liu, J. Zhang*, A Benchmark Study of Kinetic Models for Shock Waves, AIAA Journal, (2020), in press.,2020 S.K. Li, F.Q. Chu, J. Zhang, D. Brutin, D.S. Wen, Droplet jumping induced by coalescence of a moving droplet and a static one: Effect of initial velocity, Chem. Eng. Sci., 211 (2020) 115252.,2020 M. Ghalambaz, J. Zhang, Conjugate solid-liquid phase change heat transfer in heatsink filled with phase change material-metal foam, International Journal of Heat and Mass Transfer, 146 (2020) 118832.,2020 J. Zhang, P. Tian, S. Yao, F. Fei, Multiscale investigation of Kolmogorov flow: From microscopic molecular motions to macroscopic coherent structures, Physics of Fluids, 31(8) (2019) 082008.,2020 J. Zhang, B. John, M. Pfeiffer, F. Fei, D. Wen, Particle-based hybrid and multiscale methods for nonequilibrium gas flows, Advances in Aerodynamics, 1(1) (2019) 12.,2020 J.H. Guo, G.P. Lin, J. Zhang, X.Q. Bu, H. Li, Hypersonic aerodynamics of a deformed aeroshell in continuum and near-continuum regimes, Aerosp. Sci. Technol., 93 (2019) 105296.,2020 F. Chu, X. Zhang, S. Li, H. Jin, J. Zhang, X. Wu, D. Wen, Bubble formation in freezing droplets, Physical Review Fluids, 4(7) (2019) 071601(R).,2020 J. Zhang, P. Wang, M.K. Borg, J.M. Reese, D. Wen, A critical assessment of the line tension determined by the modified Young's equation, Physics of Fluids, 30(8) (2018) 082003.,2020 S.M. Longshaw, M.K. Borg, S.B. Ramisetti, J. Zhang, D.A. Lockerby, D.R. Emerson, J.M. Reese, mdFoam plus : Advanced molecular dynamics in OpenFOAM, Comput. Phys. Commun., 224 (2018) 1-21.,2020 J. Zhang, T. Onskog, Langevin equation elucidates the mechanism of the Rayleigh-Benard instability by coupling molecular motions and macroscopic fluctuations, Physical Review E, 96(4) (2017) 043104.,2020 J. Zhang, M.K. Borg, J.M. Reese, Multiscale simulation of dynamic wetting, International Journal of Heat and Mass Transfer, 115 (2017) 886-896.,2020 L. Wu, J. Zhang, H.H. Liu, Y.H. Zhang, J.M. Reese, A fast iterative scheme for the linearized Boltzmann equation, Journal of Computational Physics, 338 (2017) 431-451.,2020 F. Fei, Z.H. Liu, J. Zhang, C.G. Zheng, A Particle Fokker-Planck Algorithm with Multiscale Temporal Discretization for Rarefied and Continuum Gas Flows, Commun. Comput. Phys., 22(2) (2017) 338-374.,2020 M. Amjad, Y. Yang, G. Raza, H. Gao, J. Zhang, L.P. Zhou, X.Z. Du, D.S. Wen, Deposition pattern and tracer particle motion of evaporating multi-component sessile droplets, J. Colloid Interface Sci., 506 (2017) 83-92.,2020 J. Zhang, M.K. Borg, K. Ritos, J.M. Reese, Electrowetting controls the deposit patterns of evaporated salt water nanodroplets, Langmuir, 32(6) (2016) 1542-1549.,2020 J. Zhang, M.K. Borg, K. Sefiane, J.M. Reese, Wetting and evaporation of salt-water nanodroplets: A molecular dynamics investigation, Physical Review E, 92(5) (2015) 052403.,2020 L. Wu, J. Zhang, J.M. Reese, Y. Zhang, A fast spectral method for the Boltzmann equation for monatomic gas mixtures, Journal of Computational Physics, 298 (2015) 602-621.,2020 T. ?nskog, J. Zhang, An accurate treatment of diffuse reflection boundary conditions for a stochastic particle Fokker–Planck algorithm with large time steps, Physica A: Statistical Mechanics and its Applications, 440 (2015) 139-146.,2020 J. Zhang, D. Zeng, J. Fan, Analysis of transport properties determined by Langevin dynamics using Green–Kubo formulae, Physica A: Statistical Mechanics and its Applications, 411 (2014) 104-112.,2020 J. Zhang, C. Liu, J. Fan, Comparison of Cu thin films deposited on Si substrates with different surfaces and temperatures, Applied Surface Science, 276 (2013) 417-423.,2020 C. Liu, J. Zhang, L. Wang, Y. Shu, J. Fan, Molecular dynamics analysis of lattice site dependent oxygen ion diffusion in YBa 2 Cu 3 O 7? δ: Exposing the origin of anisotropic oxygen diffusivity, Solid State Ionics, 232 (2013) 123-128.,2020 J. Zhang, C. Liu, Y. Shu, J. Fan, Growth and properties of Cu thin film deposited on Si (001) substrate: A molecular dynamics simulation study, Applied Surface Science, 261 (2012) 690-696.,2020 A. Manela, J. Zhang*, The effect of compressibility on the stability of wall-bounded Kolmogorov flow, Journal of Fluid Mechanics, 694 (2012) 29-49.,2020 T. Zhu, W. Ye, J. Zhang, Negative Knudsen force on heated microbeams, Physical Review E, 84(5) (2011) 056316.,2020 J. Zhang, J. Fan, J. Jiang, Multiple temperature model for the information preservation method and its application to nonequilibrium gas flows, Journal of Computational Physics, 230(19) (2011) 7250-7265.,2020 J. Zhang, J. Fan, F. Fei, Effects of convection and solid wall on the diffusion in microscale convection flows, Physics of Fluids, 22(12) (2010) 122005.,2020 J. Zhang, J. Fan, Kinetic study of the Rayleigh-Bénard flows, Chinese Science Bulletin, 54(3) (2009) 364-368.,2020 J. Zhang, J. Fan, Monte Carlo simulation of thermal fluctuations below the onset of Rayleigh-Bénard convection, Physical Review E, 79(5) (2009) 056302.,2020