Growth and collapse of a vapor bubble in a narrow tube | Zendy

Emmanuel Ory | Zendy; Hao Yuan | Zendy; Andréa Prosperetti | Zendy; Stéphane Popinet | Zendy; Stéphane Zaleski | Zendy

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Growth and collapse of a vapor bubble in a narrow tube

Author(s) -

Emmanuel Ory,

Hao Yuan,

Andréa Prosperetti,

Stéphane Popinet,

Stéphane Zaleski

Publication year - 2000

Publication title -

physics of fluids

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.188

H-Index - 180

eISSN - 1089-7666

pISSN - 1070-6631

DOI - 10.1063/1.870381

Subject(s) - bubble , mechanics , physics , tube (container) , rotational symmetry , inertia , dimensionless quantity , viscous liquid , fluid dynamics , work (physics) , streamlines, streaklines, and pathlines , classical mechanics , thermodynamics , materials science , composite material

The fluid mechanical aspects of the axisymmetric growth and collapse of a bubble in a narrow tube filled with a viscous liquid are studied numerically. The tube is open at both ends and connects two liquid reservoirs at constant pressure. The bubble is initially a small sphere and growth is triggered by a large internal pressure applied for a short time. After this initial phase, the motion proceeds by inertia. This model simulates the effect of an intense, localized, brief heating of the liquid which leads to the nucleation and growth of a bubble. The dimensionless parameters governing the problem are discussed and their effects illustrated with several examples. It is also shown that, when the bubble is not located at the midpoint of the tube, a net flow develops capable of pumping fluid from one reservoir to the other. The motivation for this work is offered by the possibility to use vapor bubbles as actuators in fluid-handling microdevices

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