Development of Bubble Characteristics on Chute Spillway Bottom

Development of Bubble Characteristics on Chute Spillway Bottom

Chute aerators introduce a large air discharge through air supply ducts to prevent cavitation erosion on spillways. There is not much information on the microcosmic air bubble characteristics near the chute bottom. This study was focused on examining the bottom air-water flow properties by performin...

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Bibliographic Details
Published in:Water (Basel) Vol. 10; no. 9; p. 1129
Main Authors: Bai, Ruidi, Liu, Chang, Feng, Bingyang, Liu, Shanjun, Zhang, Faxing
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-09-2018
Subjects:
Aerators
air bubble chord length
air bubble frequency
air concentration
Bubbles
Cavitation
Cavitation erosion
chute aerator
Computational fluid dynamics
Ducts
Model testing
Scaling
Size distribution
spillway bottom
Spillways
Studies
Velocity
Water flow
United States > US
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Summary:Chute aerators introduce a large air discharge through air supply ducts to prevent cavitation erosion on spillways. There is not much information on the microcosmic air bubble characteristics near the chute bottom. This study was focused on examining the bottom air-water flow properties by performing a series of model tests that eliminated the upper aeration and illustrated the potential for bubble variation processes on the chute bottom. In comparison with the strong air detrainment in the impact zone, the bottom air bubble frequency decreased slightly. Observations showed that range of probability of the bubble chord length tended to decrease sharply in the impact zone and by a lesser extent in the equilibrium zone. A distinct mechanism to control the bubble size distribution, depending on bubble diameter, was proposed. For bubbles larger than about 1–2 mm, the bubble size distribution followed a—5/3 power-law scaling with diameter. Using the relationship between the local dissipation rate and bubble size, the bottom dissipation rate was found to increase along the chute bottom, and the corresponding Hinze scale showed a good agreement with the observations.
ISSN:2073-4441
2073-4441
DOI:10.3390/w10091129