Volume 14 Issue 1
Aug.  2021
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Lu Lin, Ran Li, Jing-jie Feng, Ying-han Huang, Xiao-dong Yong, Yang-ming Ou, You-quan Yuan. 2021: Microanalysis of supersaturated gas release based on wall-attached bubbles. Water Science and Engineering, 14(1): 80-86. doi: 10.1016/j.wse.2021.01.001
Citation: Lu Lin, Ran Li, Jing-jie Feng, Ying-han Huang, Xiao-dong Yong, Yang-ming Ou, You-quan Yuan. 2021: Microanalysis of supersaturated gas release based on wall-attached bubbles. Water Science and Engineering, 14(1): 80-86. doi: 10.1016/j.wse.2021.01.001

Microanalysis of supersaturated gas release based on wall-attached bubbles

doi: 10.1016/j.wse.2021.01.001
Funds:

the National Key Research and Development Program of China 2016YFC0401707

the National Natural Science Foundation of China 51879173

More Information
  • Corresponding author: E-mail address: fengjingjie@scu.edu.cn (Jing-jie Feng)
  • Received Date: 2020-10-28
  • Accepted Date: 2021-01-04
  • Available Online: 2021-03-23
  • Supersaturation of dissolved gases in natural water, due to spillage from high dams and other factors, may cause fish mortality. In previous experiments, the dissipation coefficient has been used to denote the degassing process of total dissolved gas (TDG) saturation. These experiments mainly analyzed supersaturated TDG dissipation from a macroscopic view. To precisely clarify the mechanism of supersaturated TDG release, this study investigated bubble adsorption at a wall surface from a microscopic view. The experiment was conducted in a Plexiglas-wall container filled with supersaturated TDG water. A model that calculates the adsorption flux of supersaturated TDG by a solid wall, and helps describe construction for a contact angle at a three-phase intersection, was developed according to Young's equation. This model was used to investigate the formation process of bubbles adsorbed on a solid polymethyl methacrylate (PMMA) surface in supersaturated TDG water. The adsorption effect of a solid wall on TDG release was analyzed based on the experimental data. The modeling results were compared with observations under different wall area conditions, and it was found that TDG release tended to increase with wall area. This study helps improve our understanding of the mechanisms of supersaturated TDG release and provides an important theoretical method for accurate calculation of the release process. The adsorption flux model of the solid wall provides mitigation measures to combat the adverse effects of TDG supersaturation, which will be beneficial to the protection of aquatic organisms in hydropower-regulated rivers.

     

  • Peer review under responsibility of Hohai University.
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