Abstract
The bubble shape influences the transfer of momentum and heat/mass between the bubble and the surrounding fluid as well as the flow field around the bubble. The shape is determined by the interaction of the fluid field in the bubble, the physics on the surface, and the surrounding flow field. It is well known that contaminations can disturb the surface physics so that the bubble shape can be influenced. Indeed, an influence of sodium chloride (NaCl) on the hydrodynamics of bubbly flows was shown for air/water systems in previous studies. The aim of the present work is to investigate if, and to what extent, the NaCl concentration affects the bubble shape in bubble columns. For this purpose, several experiments at the Helmholtz-Zentrum Dresden-Rossendorf and at the pilot-scale bubble column at the Politecnico di Milano are evaluated. The experiments were executed independently from each other and were evaluated with different methods. All experiments show that the bubble shape is not distinctly affected in the examined concentration range from 0 to 1 M NaCl, which is in contrast to a previous study on single bubbles. Therefore, the effect of NaCl on the hydrodynamics of bubbly flows is not induced by the bubble shape.
Highlights
In multiphase flows, the interface size and its shape are one of the most important modelling parameters
The bubble shape can be estimated by using, for example, the Reynolds, Eötvös, and Morton number (e.g., [1]). This estimation is only valid for single bubbles in quiescent flows
Like the flow field found in bubble columns, the surrounding turbulence can affect the bubble shape
Summary
The interface size and its shape are one of the most important modelling parameters. In particular wobbling bubbles, have a very complex interface since many effects determine the bubbles shape. The bubble shape can be estimated by using, for example, the Reynolds, Eötvös, and Morton number (e.g., [1]). This estimation is only valid for single bubbles in quiescent flows. Like the flow field found in bubble columns, the surrounding turbulence can affect the bubble shape. The influence of the turbulent flow field that is usually found in bubble columns is rather small at low to medium void fractions [2]
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