基本信息/Basic Information

        

          周文静 讲师   

       西安交通大学

     化学工程与技术学院

联系方式/Contact Information
站点计数器
工作经历/Work Experiences

2015年10月至今  西安交通大学  化学工程与技术学院  讲师

Oct.2015~present  School of Chemical Engineering and Technology (SCET)  XJTU  Lecturer

研究兴趣/Research Interests

1. 微纳尺度流动与传热

    Micro/nano-scale fluid flow and heat transfer

2. 沸腾换热的多尺度模拟研究

    Research on boiling heat transfer by using multi-scale simulations

3. 表面活性剂减阻的分子动力学模拟研究

    Research on surfactant drag reduction by using molecular dynamics simulations

4. 多尺度方法的发展和应用

    Development and applications of multi-scale methods

代表性论文/Selected Publications

[1] W. J. Zhou, J. J. Wei*, W. Q. TaoA method for controlling absolute pressures at the entrance and exit of a nanochannel/nanotube. Microfluidics and Nanofluidics, 2019, 23(71): 1-11.

[2] W. J. Zhou, F. Liu, D. J. Liu, F. Chen*, J. J. Wei*. Energy analysis of a surfactant micelle's deformation by coarse-grained molecular dynamics simulations. Chemical Engineering Science, 2019, 202: 138-145.

[3] W. J. Zhou, Y. Li, M. J. Li, J. J. Wei*, W. Q. Tao. Bubble nucleation over patterned surfaces with different wettabilities: Molecular dynamics investigation. International Journal of Heat and Mass Transfer, 2019, 136: 1-9.

[4] W. J. Zhou, Z. Q. Yu, Z. Z. Li, J. J. Wei, W. Q. Tao*. Atomistic-continuum hybrid simulations for compressible gas flow in a parallel nanochannel. International Journal of Heat and Mass Transfer, 2017, 108: 2100~2106.

[5] W. J. Zhou, Z. Q. Yu, Z. Z. Li, Y. L. He, W. Q. Tao*. Molecular dynamics-continuum hybrid simulation for the impingement of droplet on a liquid film, Numerical Heat Transfer Part A-Applications, 2015, 68(5): 512~525.

[6] W. J. Zhou, H. B. Luan, Y. L. He, J. Sun, W. Q. Tao*. A study on boundary force model used in multiscale simulations with non-periodic boundary condition, Microfluidics and Nanofluidics, 2014, 16(3): 587~595.

[7] W. J. Zhou, H. B. Luan, J. Sun, Y. L. He, W. Q. Tao*. A molecular dynamics and lattice boltzmann multiscale simulation for dense fluid flows, Numerical Heat Transfer Part B-Fundamentals, 2012, 61(5): 369~386.

[8] F. Liu, W. J. Zhou, D. J. Liu, F. Chen*, J. J. Wei*. Coarse-grained molecular dynamics study on the rheological behaviors of surfactant aqueous solution, Journal of Molecular Liquids, 2018, 265: 572-577.

[9] F. Liu, D. J. Liu, W. J. Zhou, F. Chen*, J. J. Wei*. Coarse-Grained Molecular Dynamics Simulations of the Breakage and Recombination Behaviors of Surfactant Micelles, Industrial & Engineering Chemistry Research, 2018, 57: 9018-9027.

[10] D. J. Liu, F. Liu, W. J. Zhou, F. Chen*, J. J. Wei*. Molecular dynamics simulation of self-assembly and viscosity behavior of PAM and CTAC in salt-added solutions, Journal of Molecular Liquids, 2018, 268: 131-139.

[11] Y. H. Zhang, J. Zhou, W. J. Zhou, B. J. Qi, J. J. Wei*. CHF correlation of boiling in FC-72 with micro-pin-fins for electronics cooling, Applied Thermal Engineering, 2018, 138: 494-500.

[12] M. J. Li, W. J. Zhou, J. J. Wei, W. Q. Tao*. 3D numerical simulation of heat and mass transfer of fin-and-tube heat exchanger under dehumidifying conditions[J]. International Journal of Heat and Mass Transfer, 2018, 127: 597-610.

[13] F. Wu*, X. Zhang, W. J. Zhou, X. X. Ma. Numerical simulation and optimization of hydrodynamics in a novel integral multi-jet spout-fluidized bed, Powder Technology, 2018, 336: 112-121.

[14] F. Wu*, J. J. Zhang, X. X. Ma, W. J. Zhou. Numerical simulation of gas-solid flow in a novel spouted bed: Influence of row number of longitudinal vortex generators, Advanced Powder Technology, 2018, 29(8): 1848-1858.

[15] Z. Q. Yu, P. Wang, W. J. Zhou, Z. Y. Li, W. Q. Tao*. Study on the consistency between field synergy principle and entransy dissipation extremum principle, International Journal of Heat and Mass Transfer, 2018,116: 621~634.

[16] M. G. Jeong, Y. J. Kim, W. J. Zhou, W. Q. Tao, M. Y. Ha*. Effects of surface wettability, roughness and moving wall velocity on the Couette flow in nano-channel using multi-scale hybrid method, Computers & Fluids, 2017, 147: 1~11.

[17] Y. J. Kim, M. G. Jeong, W. J. Zhou, W. Q. Tao, M. S. Ambrosia, M. Y. Ha*. Effects of density on flow in a nano channel using a molecular-continuum hybrid method, Computers & Fluids, 2017, 156: 264~273.

[18] F. Wu*, W. J. Zhou. Local thermal nonequilibrium effects on natural convection in a porous cavity heated and cooled from the side in a spatially sinusoidal manner, Journal of Porous Media, 2016, 19(2): 113-129.

[19] M. J. Li, W. J. Zhou, J. F. Zhang, J. F. Fan, Y. L. He, W. Q. Tao*. Heat transfer and pressure performance of a plain fin with radiantly arranged winglets around each tube in fin-and-tube heat transfer surface, International Journal of Heat and Mass Transfer, 2014, 70: 734~744.