Numerical and Experimental Investigation of the Rising Shape Regime of the Air Bubble Injected into the Water Column

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JAHANGIRI A.; MAJIDI S.; Roshandel Kh.; Borzuei D.; Moosavian S.F; Naji Ranjbar M.

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Journal: Modares Mechanical Engineering Year:2020 | Volume:20 | Issue:1 Page(s): 97-106

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Title

Numerical and Experimental Investigation of the Rising Shape Regime of the Air Bubble Injected into the Water Column

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Keywords

Bubble RisingQ1

Shape RegimeQ1

Clift GraphQ1

3-D Numerical and Experimental SimulationQ1

Abstract

Investigating the history of production and dynamics of growing or collapsing bubbles under various environmental conditions plays an important role in the correct understanding of the process of boiling, evaporation, cavitation, and condensation. In this paper, the rising Shape Regime the air bubble injected into the water column was studied and simulated using numerical and experimental methods. For this purpose, a column filled with water was used in the laboratory as a host fluid and using the high-speed image recording method, the most important hydrodynamic properties of the bubbles, such as velocity, size, pathway, and other bubble properties were measured. Then, using the computational fluid dynamics and the volume of fluid two-phase flow model, ascent and deformation of the single-bubble injected into a stationary reservoir were investigated and compared with previous and current experimental and numerical results. The result of this validation with a good approximation was in accordance with the reference results and it proved the correctness of the solver’ s and its settings. Finally, the bubble Shape Regime was calculated by the non-dimensional numbers of Eö tvö s and Morton and compared with the numerical simulation and empirical test. The regime obtained from the Clift diagram is a spherical cap regime, which at the same conditions, is in accordance with the bubble shaped regime simulated by numerical and experimental methods and this confirms the validity of the numerical solution.

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APA: Copy

JAHANGIRI, A., MAJIDI, S., Roshandel, Kh., Borzuei, D., Moosavian, S.F, & Naji Ranjbar, M.. (2020). Numerical and Experimental Investigation of the Rising Shape Regime of the Air Bubble Injected into the Water Column. MODARES MECHANICAL ENGINEERING, 20(1 ), 97-106. SID. https://sid.ir/paper/178483/en

Vancouver: Copy

JAHANGIRI A., MAJIDI S., Roshandel Kh., Borzuei D., Moosavian S.F, Naji Ranjbar M.. Numerical and Experimental Investigation of the Rising Shape Regime of the Air Bubble Injected into the Water Column. MODARES MECHANICAL ENGINEERING[Internet]. 2020;20(1 ):97-106. Available from: https://sid.ir/paper/178483/en

IEEE: Copy

A. JAHANGIRI, S. MAJIDI, Kh. Roshandel, D. Borzuei, S.F Moosavian, and M. Naji Ranjbar, “Numerical and Experimental Investigation of the Rising Shape Regime of the Air Bubble Injected into the Water Column,” MODARES MECHANICAL ENGINEERING, vol. 20, no. 1 , pp. 97–106, 2020, [Online]. Available: https://sid.ir/paper/178483/en

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