Study on Water Engineering with Hydromechanics and the Bubble Float Flow Measuring Method

Ao Dian Li; Hai Hua Wang

doi:10.4028/www.scientific.net/AMR.977.353

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 977Study on Water Engineering with Hydromechanics and...

Study on Water Engineering with Hydromechanics and the Bubble Float Flow Measuring Method

Abstract:

The state of bubbles moving in water is a complicated process, during the rising process of the bubble, their shapes, flow and temperature state of the water will have a certain impact on their movement. The impacts of relevant factors are analyzed in this paper. Combined with experiments of bubbles moving in still water and moving water, velocity and temperature sensibility of the bubble are analyzed. Meanwhile, based on the summarizing the regularity of the bubbles rising. Theoretical guidance are provided to the new method of bubbles float measuring method.

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Periodical:

Advanced Materials Research (Volume 977)

Pages:

353-358

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.977.353

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Online since:

June 2014

Authors:

Ao Dian Li*, Hai Hua Wang

Keywords:

Bubble Float, Flow Velocity Measurement, Sensibility of the Temperature

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* - Corresponding Author

References

[1] Yang Yuge and Cheng Zuhui, in: Water Resources & Hydropower of Northeast China Vol. 10 (2010), pp.47-48 (In Chinese).

Google Scholar

[2] Málaga C and Rallison J M, in: Journal of Non-Newtonian Fluid Mechanics Vol. 141 (2007), pp.59-78.

DOI: 10.1016/j.jnnfm.2006.07.012

Google Scholar

[3] Jiang S et al. 2010, in: Chinese Journal of Chemical Engineering Vol. 18 (2010), pp.18-26.

Google Scholar

[4] Basarová P et al. 2010, in: International Journal of Mineral Processing Vol. 94 (2010), pp.58-66.

Google Scholar

[5] Cheng Wen et al, in: Journal of Xi'an University of Technology Vol. 1 (2000), pp.57-60 (In Chinese).

Google Scholar

[6] Jiao Jian, et al, in: Water conservancy information Vol. 3 (2011), pp.41-45 (In Chinese).

Google Scholar

[7] Xu Jiong, in: Chinese Journal of Hydrodynamics Vol. 6 (2008), pp.709-714 (In Chinese).

Google Scholar

[8] A. Shima, in: Studies on bubble dynamics, Shock Waves, Vol. 1 (1997), pp.33-42.

Google Scholar

[9] Zhengliang Liu and Ying Zheng, in: Powder Technology Vol. 168 (2006), pp.10-20.

Google Scholar

[10] S.J. Lind & T.N. Phillips, in: Journal of Non-Newtonian Fluid Mechanics Vol. 165. (2010), p.852–865.

Google Scholar

[11] Xie Zhenghua, edited by Advanced Fluid Mechanics (Third Edition), Metallurgical Industry Press, Beijing (2007), in press. (In Chinese).

Google Scholar