Bubble formation and behaviour have been studied over decades, but the complex two-phase flow phenomena involved are still not fully understood. In view of the importance of two-phase flow processes in a broad range of industrial applications, such as the chemical process industry, food industry and aerospace applications, it is crucial to obtain a detailed understanding of single and multiple bubble dynamics. Gravity plays an important role in bubble formation and behaviour. Several studies have been conducted on single bubble formation under microgravity conditions, but the effects of gravitational accelerations much larger than on Earth have not been previously documented. In order to gain a full understanding of the effect of gravity on the bubble dynamics and in view of industrial applications, particularly aerospace applications, it is essential to examine bubble formation and behaviour under hypergravity conditions. Bubble formation and behaviour at the surface of a porous material and at a nozzle were investigated at hypergravity levels of 1–20g using the Large Diameter Centrifuge (LDC) at ESA/ESTEC. The formation of air bubbles through a porous filter into a water column was recorded under hypergravity conditions and the obtained data were analysed qualitatively. A decrease in bubble size and an increase in bubble formation frequency with increasing hypergravity levels could be clearly observed. Data for the experiments on air and oil bubble formation at a nozzle into a water column were recorded under hypergravity conditions using a high speed camera (for different nozzle sizes and air/oil flow rates). For the recorded data from the experiments on air and oil bubble formation at a nozzle, a decrease in bubble size and an increase in bubble formation frequency with increasing gravitational acceleration could be observed qualitatively. Quantitative analysis of the data obtained for the experiments on air bubble formation at a nozzle clearly showed a decrease in average bubble diameter with increasing hypergravity levels. The effect of the nozzle diameter on the bubble size was shown to be small and the bubble diameter was larger for higher flow rates.
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ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference
July 18–22, 2010
Bellevue, Washington, USA
Conference Sponsors:
- Pressure Vessels and Piping Division
ISBN:
978-0-7918-4924-8
PROCEEDINGS PAPER
Bubble Formation and Behaviour Under Hypergravity Conditions
Anna Eiden,
Anna Eiden
University of Cambridge, Cambridge, UK
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Christina Giannopapa,
Christina Giannopapa
European Space Agency, Noordwijk, Netherlands
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Balazs Toth,
Balazs Toth
European Space Agency, Noordwijk, Netherlands
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Alan Dowson
Alan Dowson
European Space Agency, Noordwijk, Netherlands
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Anna Eiden
University of Cambridge, Cambridge, UK
Christina Giannopapa
European Space Agency, Noordwijk, Netherlands
Balazs Toth
European Space Agency, Noordwijk, Netherlands
Alan Dowson
European Space Agency, Noordwijk, Netherlands
Paper No:
PVP2010-26148, pp. 665-672; 8 pages
Published Online:
January 10, 2011
Citation
Eiden, A, Giannopapa, C, Toth, B, & Dowson, A. "Bubble Formation and Behaviour Under Hypergravity Conditions." Proceedings of the ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASME 2010 Pressure Vessels and Piping Conference: Volume 5. Bellevue, Washington, USA. July 18–22, 2010. pp. 665-672. ASME. https://doi.org/10.1115/PVP2010-26148
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