Capillary-driven flows in eccentric annuli under microgravity

被引:0
|
作者
Shangtong Chen
Lei Guo
Yong Li
Jintao Liu
Qi Kang
Wen Li
机构
[1] Beijing Institute of Control Engineering,Institute of Mechanics
[2] China Academy of Space Technology,College of Engineering and Science
[3] Chinese Academy of Sciences,undefined
[4] University of Chinese Academy of Sciences,undefined
来源
Archive of Applied Mechanics | 2023年 / 93卷
关键词
Capillary-driven flow; Eccentric annulus; Volume of fluid method; Microgravity;
D O I
暂无
中图分类号
学科分类号
摘要
The capillary-driven flow is an essential portion of liquid behavior under microgravity. Capillary-driven flows in eccentric annuli under microgravity are deeply analyzed in this paper. A second-order differential equation for the climbing height of liquid is derived. It can be solved with the Runge–Kutta method with appropriate initial conditions. The influences of the dynamic angle, the friction force on the annulus wall and the liquid meniscus in the reservoir on liquid behaviors are all considered in this paper. Moreover, effects of eccentricity on flow resistance and flow speed are discussed. This study has been verified by numerical simulation with the volume of fluid method.
引用
收藏
页码:731 / 743
页数:12
相关论文
共 50 条
  • [1] Capillary-driven flows in eccentric annuli under microgravity
    Chen, Shangtong
    Guo, Lei
    Li, Yong
    Liu, Jintao
    Kang, Qi
    Li, Wen
    [J]. ARCHIVE OF APPLIED MECHANICS, 2023, 93 (02) : 731 - 743
  • [2] Capillary-driven flow in tubes connected to the containers under microgravity condition
    Zhou Hong-Wei
    Wang Lin-Wei
    Xu Sheng-Hua
    Sun Zhi-Wei
    [J]. ACTA PHYSICA SINICA, 2015, 64 (12)
  • [3] Some generic capillary-driven flows
    Villanueva, W.
    Amberg, G.
    [J]. INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 2006, 32 (09) : 1072 - 1086
  • [4] Influence of Contact Angle and Tube Size on Capillary-Driven Flow Under Microgravity
    Wang, Caixia
    Xu, Shenghua
    Sun, Zhiwei
    Hu, Wenrui
    [J]. AIAA JOURNAL, 2009, 47 (11) : 2642 - 2648
  • [5] Influence of contact angle and tube size on capillary-driven flow under microgravity
    Wang, Caixia
    Xu, Shenghua
    Sun, Zhiwei
    Hu, Wenrui
    [J]. AIAA Journal, 2009, 47 (11): : 2642 - 2648
  • [6] A capillary-driven root module for plant growth in microgravity
    Jones, SB
    Or, D
    [J]. INSTRUMENTATION FOR MONITORING AND CONTROL IN CELSS, 1999, 22 (10): : 1407 - 1412
  • [7] A capillary-driven root module for plant growth in microgravity
    Jones, Scott B.
    Or, Dani
    [J]. Advances in Space Research, 22 (10): : 1407 - 1412
  • [8] Pattern Recognition for Capillary-Driven Extensional Flows
    Im, Minhyuk
    Jang, Junhyeong
    Kim, Ju Min
    Nam, Jaewook
    [J]. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2024, 63 (35) : 15524 - 15533
  • [9] Modeling of capillary-driven flows in axisymmetric geometries
    Chassagne, Romain
    Doerfler, Fabian
    Guyenot, Michael
    Harting, Jens
    [J]. COMPUTERS & FLUIDS, 2019, 178 : 132 - 140
  • [10] Capillary driven fluid flows in microgravity
    Smirnova, M. N.
    Nikitin, V. F.
    Skryleva, E. I.
    Weisman, Yu. G.
    [J]. ACTA ASTRONAUTICA, 2023, 204 : 892 - 899
12345