Centrifugal gas-liquid separation under low gravity conditions

被引:12
|
作者
Ahn, H [1 ]
Tanaka, K [1 ]
Tsuge, H [1 ]
Terasaka, K [1 ]
Tsukada, K [1 ]
机构
[1] Keio Univ, Dept Appl Chem, Kohoku Ku, Yokohama, Kanagawa 2238522, Japan
来源
SEPARATION AND PURIFICATION TECHNOLOGY | 2000年 / 19卷 / 1-2期
关键词
gas-liquid separation; microgravity; bubble; drop shaft; centrifugal force;
D O I
10.1016/S1383-5866(99)00083-0
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
Bubbles dispersed in liquid are easily separable by gravity-induced buoyancy on the earth. In microgravity environment, however, the other external forces should be utilized to separate bubbles in liquids because the gravitational force does not work. Centrifugal force is frequently applied as external force for separation of a small density difference mixture on the earth. The gas-liquid system has large density difference, the gas-liquid separation by centrifugal force is considered effective under low gravity conditions. In this study, two types of centrifugal gas-liquid separation systems were investigated under low gravity conditions. (C) 2000 Elsevier Science B.V. All rights reserved.
引用
收藏
页码:121 / 129
页数:9
相关论文
共 50 条
  • [41] Numerical Study on Gas-liquid Separation Performance of Spiral Pipe Used in On-orbit Refueling
    Cui, Cunyan
    Si, Pingjun
    Wang, Hua
    Yan, Wenxian
    Li, Wei
    Sun, Jian
    PROCEEDINGS 2013 INTERNATIONAL CONFERENCE ON MECHATRONIC SCIENCES, ELECTRIC ENGINEERING AND COMPUTER (MEC), 2013, : 2852 - 2855
  • [42] Investigation on separation characteristics of gas-liquid two-phase flow around the perforated tube
    Wang, Jinzhi
    Wang, Yechun
    Xie, Xiangdong
    Xu, Qiang
    Wang, Jiang
    Guo, Liejin
    NUCLEAR ENGINEERING AND DESIGN, 2023, 404
  • [43] Morphology-Patterned Anisotropic Wetting Surface for Fluid Control and Gas-Liquid Separation in Microfluidics
    Wang, Shuli
    Yu, Nianzuo
    Wang, Tieqiang
    Ge, Peng
    Ye, Shunsheng
    Xue, Peihong
    Liu, Wendong
    Shen, Huaizhong
    Zhang, Junhu
    Yang, Bai
    ACS APPLIED MATERIALS & INTERFACES, 2016, 8 (20) : 13094 - 13103
  • [44] Varying Gravity Force Using Magnetic-Field Emulated Artificial Gravity: Application to Cocurrent Gas-Liquid Flows in Porous Media
    Larachi, F.
    Munteanu, M. C.
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2010, 49 (08) : 3623 - 3633
  • [45] Void fraction measurements in gas-liquid flows under 1-g and mu-g conditions using capacitance sensors
    Elkow, KJ
    Rezkallah, KS
    INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 1997, 23 (05) : 815 - 829
  • [46] EXPERIMENTAL STUDY ON TWO DIFFERENT GAS-LIQUID SEPARATORS UNDER DIFFERENT FLOW PATTERNS
    Zeng, Xiaobo
    Yan, Changqi
    Fan, Guangming
    Cheng, Jie
    Xu, Junxiu
    Liu, Antai
    PROCEEDINGS OF THE 2020 INTERNATIONAL CONFERENCE ON NUCLEAR ENGINEERING (ICONE2020), VOL 3, 2020,
  • [47] Enhancement of gas-liquid mass transfer by nanofluids in a microchannel under Taylor flow regime
    Huang, Mengmeng
    Zhu, Chunying
    Fu, Taotao
    Ma, Youguang
    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2021, 176 (176)
  • [48] A study of gas-liquid two-phase flow in a horizontal tube under microgravity
    Choi, B
    Fujii, T
    Asano, H
    Sugimoto, K
    MICROGRAVITY TRANSPORT PROCESSES IN FLUID, THERMAL, BIOLOGICAL, AND MATERIALS SCIENCES, 2002, 974 : 316 - 327
  • [49] Gas evolution in rotating electrochemical cells under reduced and normal gravity conditions
    Weng, FB
    Su, A
    Kamotani, Y
    Ostrach, S
    CHINESE JOURNAL OF MECHANICS-SERIES A, 2003, 19 (03): : 349 - 355
  • [50] Experimental and numerical investigation of gas-liquid flow in water electrolysis under magnetic field
    Liu, Hong-bo
    Pan, Liang-ming
    Qin, Qi-jun
    Li, Peng-fei
    JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 2019, 832 : 293 - 302
12345