Influence of Contact Angle Boundary Condition on CFD Simulation of T-Junction

被引:18
|
作者
Arias, S. [1 ]
Montlaur, A. [2 ]
机构
[1] Univ Politecn Cataluna, Escola Engn Telecomunicacio & Aeroespacial Castel, C Esteve Terradas 5, Barcelona 08860, Spain
[2] Univ Politecn Cataluna, Escola Engn Telecomunicacio & Aeroespacial Castel, Lab Calcul Numer Www Lacan Upc Edu, C Esteve Terradas 5, Barcelona 08860, Spain
来源
MICROGRAVITY SCIENCE AND TECHNOLOGY | 2018年 / 30卷 / 04期
关键词
Microgravity; Two-phase flows; Bubble generation; T-junction; Computational Fluid Dynamics (CFD); Contact angle; BUBBLE FORMATION; DROPLET FORMATION; REDUCED GRAVITY; ELECTRIC-FIELD; MICROGRAVITY; FLOW; GENERATION; DETACHMENT; REGIMES;
D O I
10.1007/s12217-018-9605-x
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
In this work, we study the influence of the contact angle boundary condition on 3D CFD simulations of the bubble generation process occurring in a capillary T-junction. Numerical simulations have been performed with the commercial Computational Fluid Dynamics solver ANSYS Fluent v15.0.7. Experimental results serve as a reference to validate numerical results for four independent parameters: the bubble generation frequency, volume, velocity and length. CFD simulations accurately reproduce experimental results both from qualitative and quantitative points of view. Numerical results are very sensitive to the gas-liquid-wall contact angle boundary conditions, confirming that this is a fundamental parameter to obtain accurate CFD results for simulations of this kind of problems.
引用
收藏
页码:435 / 443
页数:9
相关论文
共 50 条
  • [1] Influence of Contact Angle Boundary Condition on CFD Simulation of T-Junction
    S. Arias
    A. Montlaur
    Microgravity Science and Technology, 2018, 30 : 435 - 443
  • [2] Numerical simulation of droplet formation in a microfluidic T-junction using a dynamic contact angle model
    Yin, Jun
    Kuhn, Simon
    CHEMICAL ENGINEERING SCIENCE, 2022, 261
  • [3] CFD Simulation of Droplet Formation in a Wide-Type Microfluidic T-Junction
    Chen, Nicheng
    Wu, Jizhou
    Jiang, Hanmei
    Dong, Lichun
    JOURNAL OF DISPERSION SCIENCE AND TECHNOLOGY, 2012, 33 (11) : 1635 - 1641
  • [4] CFD Simulation of Internal Flow and Mixing within Droplets in a T-Junction Microchannel
    Chao, Xu
    Xu, Feishi
    Yao, Chaoqun
    Liu, Tingting
    Chen, Guangwen
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2021, 60 (16) : 6038 - 6047
  • [5] CFD Simulation of Droplet Formation in a Microfluidic T-junction: the Role of Wall Wettability
    Huang, Dafu
    Wu, Jizhou
    Li, Wenping
    Tan, Shiyu
    Dong, Lichun
    Wang, Gang
    CHEMICAL ENGINEERING, 2010, 3 : 72 - 75
  • [6] Synthesis of a CFD benchmarking exercise for a T-junction with wall
    Shams, Afaque
    Edh, Nicolas
    Angele, Kristian
    Veber, Pascal
    Howard, Richard
    Braillard, Olivier
    Chapuliot, Stephane
    Severac, Eric
    Karabaki, Ertugrul
    Seichter, Johannes
    Niceno, Bojan
    NUCLEAR ENGINEERING AND DESIGN, 2018, 330 : 199 - 216
  • [7] A CFD benchmarking exercise based on flow mixing in a T-junction
    Smith, B. L.
    Mahaffy, J. H.
    Angele, K.
    NUCLEAR ENGINEERING AND DESIGN, 2013, 264 : 80 - 88
  • [8] Flow Control in T-Junction Using CFD Based Optimization
    Srinivasan, K.
    Balamurugan, V.
    Jayanti, S.
    FLUID MECHANICS AND FLUID POWER - CONTEMPORARY RESEARCH, 2017, : 687 - 696
  • [9] Numerical simulation of bubble generation in a T-junction
    Arias, S.
    Legendre, D.
    Gonzalez-Cinca, R.
    COMPUTERS & FLUIDS, 2012, 56 : 49 - 60
  • [10] Numerical Simulation of Influence Parameters during Droplet Generation in a Microfluidic T-junction
    Wei, Wei
    Wu, Fang
    Guo, Shuxiang
    Guo, Jian
    Ji, Yuehui
    Ma, Xu
    2014 IEEE INTERNATIONAL CONFERENCE ON MECHATRONICS AND AUTOMATION (IEEE ICMA 2014), 2014, : 66 - 71
12345