西安交通大学航天航空学院导师教师师资介绍简介-张杰

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Welcome - 张杰基本信息

张杰
流体力学博士航天学院教授、博士生导师
青年拔尖人才支持计划A类
中国科学院百篇优秀博士论文

联系方式
磁流体力学研究团队
机械结构强度与振动国家重点实验室
西安交通大学，航天航空学院
Email: j_zhang@xjtu.edu.cn

站点计数器

教育经历
2005-2009 西安交通大学热能与动力工程系学士
2009-2014 中国科学院大学流体力学系博士
2015-2020 西安交通大学航天航空学院讲师、副教授硕士生导师
2016-2017 法国图卢兹流体力学研究所(IMFT) 访问****
2020-今西安交通大学航天航空学院教授博士生导师

研究领域

1. 流体力学、磁流体力学中的多物理场耦合问题
2.分层流体中的气泡、颗粒运动问题
2.计算流体力学、数值算法的发展、多相流动的直接数值模拟
3.气泡在黏性液体中的自由上升问题、界面流体力学的涡流效应
常年招收对流体力学和计算流体力学感兴趣的硕士/博士研究生和博士后，如有兴趣，欢迎联系 j_zhang@xjtu.edu.cn

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1. 中国科协“青年人才托举计划” 项目， 2019.01-2021.12
2. 强磁场环境中液态金属沸腾现象的数值模拟和机理研究，自然科学面上基金，2019.01-2022.12
3.超高静磁场下凝固制备均质难溶合金材料的基础研究，自然科学联合基金重点项目，子课题负责人，2018.01-2021.12
4.气泡群在液体中上升时的相互作用机理以及磁场对其运动特性的影响，自然科学青年基金， 2016.01-2018.12

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2021
? S. Zhao,J. Zhang*, M. J. Ni*, Boiling and evaporation model for liquid-gas flows: A sharp and conservative method based on the geometrical VOF approach ,J. Comput. Phys., under review
?J. Zhang, M.J.Ni*, J.Magnaudet*, Three-dimensional dynamics of a pair of deformable bubbles rising initially in line. Part 1: moderately inertial regimes,J. Fluid Mech., accepted

2020
?J. Zhang, M.J.Ni,Why and how the interactions between a bubble pair become direction-dependent in MHD flows: a numerical study.J. Fluid Mech., under revision
?T. Y. Han,J. Zhang*, M. J. Ni*, A consistent and parallelized height function based scheme for applying contact angle to 3D Volume-of-Fluid Simulations,J. Comput. Phys., 433(110190),2021
? Z.H. Fang, J. Zhang*, Q. Xiong, F. Xu*, and M.J. Ni,Spatiotemporal evolutions of forces and vortices of flow past ellipsoidal bubbles: direct numerical simulation based on a Cartesian grid scheme.Phys. Fluids, 33,012108,2021
?J. Zhang, K.Sahu, M.J.Ni*,Transition of bubble motion from spiralling to zigzagging: a wake-controlled mechanism with a transverse magnetic field .Int. J. Multiphase Flow,136,103551,2021

2019
?J. Zhang, M.Mercier, J.Magnaudet,Core mechanisms of drag enhancement on bodies settling in a stratified fluid,J. Fluid Mech.,2019,875,622-656.
?J. Zhang, L. Chen, MJ. Ni, Vortex interactions between a pairs of bubbles rising side by side. Part I: in the ordinary viscous fluids,Phys. Rev. Fluids, 2019, 4,043604
? X. Jia, J.C.Yang,J. Zhang, M.J. Ni*, An experimental investigation on the collision outcomes of binary liquid metal droplets,Int. J. Multiphase Flow, 2019,116,80-90

2018
? S. Wu,J. Zhang*, MJ. Ni*, Numerical study of a single droplet falling through a non-uniform horizontal magnetic field with a constant gradient,Int. J. Multiphase Flow, 2018.
?J. Zhang, MJ. Ni, Direct numerical simulations of incompressible multiphase magnetohydrodynamics with phase change,J. Comput. Phys., 375 (2018) 717–746(invited paper).
?J. Zhang, The Developments and the Applications of the Numerical Algorithms in Simulating the Incompressible Magnetohydrodynamics with Complex Boundaries and Free Surfaces,Springer,2018.
?JC. Yang, TY. Qi, TY. Han,J. Zhang, MJ. Ni, Elliptical spreading characteristics of a liquid metal droplet impact on a glass surface under a horizontal magnetic field,Phys. Fluids,2018, 30(1): 012101.
?XX. Yu,J. Zhang, MJ. Ni, Numerical simulation of the Rayleigh-Benard convection under the influence of magnetic fields,Int. J. Heat and Mass Trans., 2018, 120: 1118-1131.

2016~2017
?J. Zhang, MJ. Ni, What happens to the vortex structures when the rising bubble transits from zigzag to spiral?,J. Fluid Mech., 2017, 828: 353-373.
?J. Zhang, TY. Han, JC. Yang, MJ. Ni, On the spreading of impacting drops under the influence of a vertical magnetic field,J. Fluid Mech., 2016, 809.
?J. Zhang, MJ. Ni, R. Moreau, Rising motion of a single bubble through a liquid metal in the presence of a horizontal magnetic field,Phys. Fluids,2016, 28(3): 032101.
?JJ. Wang,J. Zhang, MJ. Ni, R. Moreau, Numerical study of single droplet impact onto liquid metal film under a uniform magnetic field,Phys. Fluids, 2014, 26(12): 122107.

2014~2016
?J. Zhang, MJ. Ni, Direct simulation of single bubble motion under vertical magnetic field: Paths and wakes,Phys. Fluids, 2014, 26(10): 102102.
?J. Zhang, MJ. Ni, Direct simulation of multi-phase MHD flows on an unstructured Cartesian adaptive system,J. Comput. Phys.,2014, 270: 345-365.
?J. Zhang, MJ. Ni, A consistent and conservative scheme for MHD flows with complex boundaries on an unstructured Cartesian adaptive system,J. Comput. Phys., 2014, 256: 520-542.

Publications - 张杰Blank

在流体力学顶级期刊 J. Fluid Mech., Phys. Rev. Fluid， Phys. Fluids 以及 J. Comp. Phys.上发表了多篇论文，在Springer出版英文专著一部

2021
? S. Zhao,J. Zhang*, M. J. Ni*, Boiling and evaporation model for liquid-gas flows: A sharp and conservative method based on the geometrical VOF approach , J. Comput. Phys., under review
? J. Zhang, M.J.Ni*, J.Magnaudet*, Three-dimensional dynamics of a pair of deformable bubbles rising initially in line. Part 1: moderately inertial regimes,J. Fluid Mech., accepted

2020
? J. Zhang, M.J.Ni,Why and how the interactions between a bubble pair become direction-dependent in MHD flows: a numerical study. J. Fluid Mech., under revision
? T. Y. Han,J. Zhang*, M. J. Ni*, A consistent and parallelized height function based scheme for applying contact angle to 3D Volume-of-Fluid Simulations, J. Comput. Phys., 433(110190),2021
? Z.H. Fang, J. Zhang*, Q. Xiong, F. Xu*, and M.J. Ni,Spatiotemporal evolutions of forces and vortices of flow past ellipsoidal bubbles: direct numerical simulation based on a Cartesian grid scheme. Phys. Fluids, 33,012108,2021
? J. Zhang, K.Sahu, M.J.Ni*,Transition of bubble motion from spiralling to zigzagging: a wake-controlled mechanism with a transverse magnetic field . Int. J. Multiphase Flow,136,103551,2021

2019
? J. Zhang, M.Mercier, J.Magnaudet,Core mechanisms of drag enhancement on bodies settling in a stratified fluid,J. Fluid Mech.,2019,875,622-656.
? J. Zhang, L. Chen, MJ. Ni, Vortex interactions between a pairs of bubbles rising side by side. Part I: in the ordinary viscous fluids, Phys. Rev. Fluids, 2019, 4,043604
? X. Jia, J.C.Yang,J. Zhang, M.J. Ni*, An experimental investigation on the collision outcomes of binary liquid metal droplets,Int. J. Multiphase Flow, 2019,116,80-90
2018
? S. Wu, J. Zhang*, MJ. Ni*, Numerical study of a single droplet falling through a non-uniform horizontal magnetic field with a constant gradient, Int. J. Multiphase Flow, 2018.
? J. Zhang, MJ. Ni, Direct numerical simulations of incompressible multiphase magnetohydrodynamics with phase change, J. Comput. Phys., 375 (2018) 717–746 (invited paper).
? J. Zhang, The Developments and the Applications of the Numerical Algorithms in Simulating the Incompressible Magnetohydrodynamics with Complex Boundaries and Free Surfaces, Springer, 2018.
? JC. Yang, TY. Qi, TY. Han, J. Zhang, MJ. Ni, Elliptical spreading characteristics of a liquid metal droplet impact on a glass surface under a horizontal magnetic field, Phys. Fluids, 2018, 30(1): 012101.
? XX. Yu, J. Zhang, MJ. Ni, Numerical simulation of the Rayleigh-Benard convection under the influence of magnetic fields, Int. J. Heat and Mass Trans., 2018, 120: 1118-1131.
2016~2017
? J. Zhang, MJ. Ni, What happens to the vortex structures when the rising bubble transits from zigzag to spiral?, J. Fluid Mech., 2017, 828: 353-373.
? J. Zhang, TY. Han, JC. Yang, MJ. Ni, On the spreading of impacting drops under the influence of a vertical magnetic field, J. Fluid Mech., 2016, 809.
? J. Zhang, MJ. Ni, R. Moreau, Rising motion of a single bubble through a liquid metal in the presence of a horizontal magnetic field, Phys. Fluids, 2016, 28(3): 032101.
? JJ. Wang, J. Zhang, MJ. Ni, R. Moreau, Numerical study of single droplet impact onto liquid metal film under a uniform magnetic field, Phys. Fluids, 2014, 26(12): 122107.
2014~2016
?J. Zhang, MJ. Ni, Direct simulation of single bubble motion under vertical magnetic field: Paths and wakes, Phys. Fluids, 2014, 26(10): 102102.
?J. Zhang, MJ. Ni, Direct simulation of multi-phase MHD flows on an unstructured Cartesian adaptive system, J. Comput. Phys., 2014, 270: 345-365.
?J. Zhang, MJ. Ni, A consistent and conservative scheme for MHD flows with complex boundaries on an unstructured Cartesian adaptive system, J. Comput. Phys., 2014, 256: 520-542.