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Meccanica

Erschienen in:

23.02.2018

Effect of orifice shape on bubble formation mechanism

verfasst von: Pedram Hanafizadeh, Amirmohammad Sattari, Seyed Erfan Hosseini-Doost, Arash G. Nouri, Mehdi Ashjaee

Erschienen in: Meccanica | Ausgabe 10/2018

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Abstract

The effect of orifice shape on the mechanism of bubble formation in gas–liquid two-phase flow is investigated experimentally with three different orifice geometries regarding a circle, a square, and a triangle with same cross-sectional areas. The liquid and gas phases are purified water at 20 °C and air at room temperature, respectively. Gas is injected at the rate of 50–1200 mlph into a stagnant pool of liquid in distances of 5, 10, and 15 cm below the liquid surface. The position, velocity, and acceleration of bubbles are measured at bubbles’ centers of mass (CM) and the effects of these parameters on the bubble volume are investigated. Moreover, the forces acting on a bubble are balanced and the effects of geometry and gas flow rate on each force are presented. In addition, the changes of the acting forces versus time are plotted and discussed for a specific condition. Results show the bubbles formed with the square and circular orifice cross-sectional areas have the most and least volumes at detachment, respectively.

Nächster Artikel Maximizing working pressure of autofrettaged three layer compound cylinders with considering Bauschinger effect and reverse yielding

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Davidson JF, Schüler BOG (1960) Bubble formation at an orifice in a viscous liquid. Chem Eng Res Des 75:S105–S115CrossRef

Satyanarayan A, Kumar R, Kuloor NR (1969) Studies in bubble formation—II bubble formation under constant pressure conditions. Chem Eng Sci 24(4):749–761CrossRef

Sada E, Yasunzshz A, Katoh S, Nishioka M (1978) Bubble formation in flowing liquid. Can J Chem Eng 56:669–672CrossRef

Oguz H, Prosperetti A (1993) Dynamics of bubble growth and detachment from a needle. J Fluid Mech 257(1):111–145CrossRefADS

Takagi S, Prosperetti A, Matsumoto Y (1994) Drag coefficient of a gas bubble in an axisymmetric shear flow. Phys Fluids 6(9):3186–3188CrossRefMATHADS

Vafaei S, Angeli P, Wen D (2011) Bubble growth rate from stainless steel substrate and needle nozzles. Colloids Surf A Physicochem Eng Asp 384(1–3):240–247CrossRef

Ramakrishnan S, Kumar R, Kuloor NR (1969) Studies in bubble formation—1 bubble formation under constant flow conditions. Chem Eng Sci 24:731–747CrossRef

Ramakrishnan S, Kumar R, Kuloor NR (1969) Studies in bubble formation—I bubble formation under constant flow conditions. Chem Eng Sci 24(4):731–747CrossRef

Gaddis ES, Vogelpohl A (1986) Bubble formation in quiescent liquids under constant flow conditions. Chem Eng Sci 41(1):97–105CrossRef

10.

Terasaka K, Tsuge H (1993) Bubble formation under constant-flow conditions. Chem Eng Sci 48(19):3417–3422CrossRef

11.

Hao Y, Prosperetti A (1999) The effect of viscosity on the spherical stability of oscillating gas bubbles. Phys Fluids 11(6):1309MathSciNetCrossRefMATHADS

12.

Jamialahmadi M, Zehtaban MR, Müller-Steinhagen H, Sarrafi A, Smith JM (2001) Study of bubble formation under constant flow conditions. Chem Eng Res Des 79(5):523–532CrossRef

13.

Das AK, Das PK, Saha P (2011) Formation of bubbles at submerged orifices—experimental investigation and theoretical prediction. Exp Therm Fluid Sci 35(4):618–627CrossRef

14.

Fritz W (1935) Berechnung des maximal volume von dampfblasen. Phys Z 36:379–388

15.

Terasaka K, Tsuge H (1991) Bubble formation at a single orifice non-newtonian liquids. Chem Eng Sci 46(1):85–93CrossRef

16.

Badam VK, Buwa V, Durst F (2007) Experimental investigations of regimes of bubble formation on submerged orifices under constant flow condition. Can J Chem Eng 85(June):257–267

17.

Fan W, Jiang S, Zhu C, Ma Y, Li H (2008) Study on bubble formation in non-Newtonian fluids by laser image technique. Opt Laser Technol 40(2):389–393CrossRefADS

18.

Di Bari S, Robinson AJ (2013) Experimental study of gas injected bubble growth from submerged orifices. Exp Therm Fluid Sci 44:124–137CrossRef

19.

Hanafizadeh P, Eshraghi J, Kosari E, Ahmed WH (2015) The effect of gas properties on bubble formation, growth and detachment. Part Sci Technol 6351:150407162559008

20.

Kulkarni AA, Joshi JB (2005) Bubble formation and bubble rise velocity in gas-liquid systems: a review. Ind Eng Chem Res 44:5873–5931CrossRef

21.

Corchero G, Medina A, Higuera FJ (2006) Effect of wetting conditions and flow rate on bubble formation at orifices submerged in water. Colloids Surfaces A Physicochem Eng Asp 290(1–3):41–49CrossRef

22.

Vafaei S, Wen D (2010) Bubble formation on a submerged micronozzle. J Colloid Interface Sci 343(1):291–297CrossRefADS

23.

Eral HB, ’T Mannetje DJCM, Oh JM (2013) Contact angle hysteresis: a review of fundamentals and applications. Colloid Polym Sci 291(2):247–260CrossRef

24.

Hanafizadeh P, Ghanbarzadeh S, Saidi MH (2011) Visual technique for detection of gas–liquid two-phase flow regime in the airlift pump. J Pet Sci Eng 75(3–4):327–335CrossRef

25.

Keshock EG, Siegel R (1964) Forces acting on bubbles in nucleate boiling under normal and reduced gravity conditions. NASA Tech. Note TN D-2299, no. August, p 28

26.

Morrison F (2013) Data correlation for drag coefficient for sphere. Michigan Technol. Univ. Houghton, MI, vol 6, pp 1–2

27.

Duhar G, Colin C (2006) Dynamics of bubble growth and detachment in a viscous shear flow. Phys Fluids 18(7):77101CrossRef

Titel: Effect of orifice shape on bubble formation mechanism
verfasst von: Pedram Hanafizadeh
Amirmohammad Sattari
Seyed Erfan Hosseini-Doost
Arash G. Nouri
Mehdi Ashjaee
Publikationsdatum: 23.02.2018
Verlag: Springer Netherlands
Erschienen in: Meccanica / Ausgabe 10/2018
Print ISSN: 0025-6455
Elektronische ISSN: 1572-9648
DOI: https://doi.org/10.1007/s11012-018-0835-1

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