Electrolyte and temperature effects in a rising bubble

•Single H2 bubble rise in water and (mixture)-electrolytes at different temperatures.•Bubble rise characteristics show a pure-liquid behaviour, dependent only on ρ, μ, σ.•Non-dimensional parameter ReWe−2/3Mo1/5 is constant within a flow regime. In this work, the rise characteristics of a single H2 b...

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Bibliographic Details
Published inChemical engineering science Vol. 270; p. 118276
Main Authors Mandalahalli, Manas M., Lif, Johan, Mudde, Robert F., Portela, Luis M.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.04.2023
Subjects
Bubble rise
Electrolytes
Non-dimensional analysis
Temperature effect
Temperature effect
Electrolytes
Bubble rise
Non-dimensional analysis
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Summary:•Single H2 bubble rise in water and (mixture)-electrolytes at different temperatures.•Bubble rise characteristics show a pure-liquid behaviour, dependent only on ρ, μ, σ.•Non-dimensional parameter ReWe−2/3Mo1/5 is constant within a flow regime. In this work, the rise characteristics of a single H2 bubble, in the ellipsoidal regime, in (i) water, (ii) single electrolyte (2 M, 4.5 M NaCl) solution and (iii) various concentrations of electrolyte mixture (up to 6.4 M of 1:5 weight fraction NaCl-NaClO3), have been studied, at temperatures up to 80°C. Our results show that both individual and collective effects of the temperature and the electrolyte concentration on the rise velocity and the bubble shape are purely dependent on the changes in liquid properties (density, viscosity, and surface tension); the bubble motion can be described by known non-dimensional correlations for clean bubble rise in pure fluids.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2022.118276