Experimental investigation on the influence of ethanol on bubble column hydrodynamics

•Influence of ethanol in a large-diameter and large-scale bubble column is experimentally studied.•The influence of ethanol over holdup, flow regime transition and bubble size distributions is studied.•Influence of ethanol on bubble shape is investigated.•Near sparger bubble size distributions are i...

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Bibliographic Details
Published in:Chemical engineering research & design 2016-08, Vol.112, p.1-15
Main Authors: Besagni, Giorgio, Inzoli, Fabio, De Guido, Giorgia, Pellegrini, Laura Annamaria
Format: Article
Language:English
Subjects:
Bubble column
Bubble diameter distribution
Bubble shape
Ethanol
Gas holdup
Image analysis
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Summary:•Influence of ethanol in a large-diameter and large-scale bubble column is experimentally studied.•The influence of ethanol over holdup, flow regime transition and bubble size distributions is studied.•Influence of ethanol on bubble shape is investigated.•Near sparger bubble size distributions are investigated.•The relation between holdup, flow regime transition and bubble size distributions is investigated. We experimentally investigate the effect of ethanol (0.05% in mass) on the hydrodynamics of a large-diameter and large-scale bubble column. The bubble column is 5.3m in height, has an inner diameter of 0.24m, and we consider gas superficial velocities in the range of 0.004–0.20m/s. The experimental investigation consists of gas holdup measurements and image analysis. The gas holdup measurements are used to investigate the flow regime transition and the global bubble column hydrodynamics. The image analysis is used to investigate the bubble shapes and size distributions near the sparger and in the developed region of the column. The presence of ethanol increases the gas holdup, stabilizes the homogeneous regime and modifies the bubble shapes and size distributions. In particular, the addition of ethanol increases the mean bubble aspect ratio and decreases the bubble diameters. The results suggest that the addition of ethanol changes the bubble properties, which modifies the bubble size distribution and shapes, thus, stabilizing the homogeneous flow regime and, finally, increasing the gas holdup.
ISSN:0263-8762
DOI:10.1016/j.cherd.2016.06.009