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

 

2024

  J. Zhang*, et al. ,  Lift reversal for an oblate droplet translating in a linear shear flow: from inviscid bubble to rigid spheroid, J. Fluid Mech., under review

C. S. Huang, T. Y. Han, J. Zhang*, and M. J. Ni*,  A 2D sharp and conservative VOF method for modeling the contact line dynamics with hysteresis on complex boundary, J. Comput. Phys., under review

H. C. Huang, P. Y. Shi*, J. Zhang*, Path of a pair of deformable bubbles rising initially in line and  close to a vertical wall, Phys. Rev. Fluids, in revision

B. L. Wei, J. Zhang*, and M. J. Ni*,  A hybrid Phase field-Volume of fluid method for the simulation of three-dimensional binary solidification in the presence of gas bubble, J. Comput. Phys., in revision

T. Y. Han, J. Zhang*, and M. J. Ni*,  Maximum spreading of a liquid metal droplet under horizontal magnetic field, Phys. Rev. Fluids, accepted

♦  H. T. GuK. Sahu, J. Zhang*, M. J. Ni, Three-dimensional simulation of film boiling on a horizontal surface with magnetic field, J. Fluid Mech., accepted

P. Y. Shi, J. Zhang*, J. Magnaudet*, Lateral migration and bouncing of a deformable bubble rising near a vertical wall. Part 1. Moderately inertial regimes, J. Fluid Mech., accepted

S. Zhao,  J. Zhang*,, C. Sun, M. J. Ni*,Direct numerical simulation of Leidenfrost drop impacting onto superheated liquid pool:an early stage study, J. Fluid Mech., in revision

♦  Z. H. Xue,  J. Zhang*, M. J. Ni, Flow regimes in a melting system composed of binary fluid: transition from penetrative convection to diffusion, J. Fluid Mech., accepted

♦  J. C. Huang,  J. Zhang*, M. J. Ni, On the spreading of an impacting ferrofluid droplet under a vertical magnetic field, Langmuir, accepted

 

2023

♦  Z. X. Cheng, J. C. Yang, J. Zhang* et al.,Experimental study of a spheroid falling in water: from prolate to oblate, Int. J. Multiphase Flow, 174, 2024

♦  Z. H. XueS. Zhao,, M. J. Ni*, J. Zhang*, Three-dimensional sharp and conservative VOF method for the simulation of binary solidification, J. Comput. Phys., 491, 2023

 

2022

♦  S. ZhaoJ. 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., 452, 11098, 2022

♦  J. Zhang, M.J.Ni*, J.Magnaudet*, Three-dimensional dynamics of a pair of deformable bubbles rising initially in line. Part 2: highly inertial regimes, J. Fluid Mech., 943, 2022

 

2021

♦  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., 920, A16, 2021

♦  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., 926, A22, 2021.

 

2020

♦   T. Y. HanJ. 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.