Interaction of Liquid Droplets With Planar Shock Waves

T. Yoshida; K. Takayama

Source: Journal of Fluids Engineering:;1990:;volume( 112 ):;issue: 004::page 481

Author:

T. Yoshida

K. Takayama

DOI: 10.1115/1.2909431

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Interactions and breakup processes of 1.50-mm-diameter ethyl alcohol droplets and 5.14-mm-diameter water bubbles with planar shock waves were observed using double-exposure holographic interferometry. Experiments were conducted in a 60 mm × 150 mm cross-sectional shock tube for shock Mach number 1.56 in air. The Weber numbers of droplets and liquid bubbles were 5.6 × 103 and 2.9 × 103 , respectively, while the corresonding Reynolds numbers were 4.2 × 10 and 1.5 × 105 . It is shown that the resulting holographic interferogram can eliminate the effect of the mists produced by the breakup of the droplets and clearly show the structure of a disintegrating droplet and its wake. This observation was impossible by conventional optical flow visualization. It is demonstrated that the time variation of the diameter of a breaking droplet measured by conventional optical techniques has been overestimated by up to 35 percent.

keyword(s): Shock waves , Bubbles , Shock (Mechanics) , Ethanol , Shock tubes , Water , Reynolds number , Flow visualization , Holographic interferometry , Wakes AND Mach number ,

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Interaction of Liquid Droplets With Planar Shock Waves

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contributor author	T. Yoshida
contributor author	K. Takayama
date accessioned	2017-05-08T23:32:56Z
date available	2017-05-08T23:32:56Z
date copyright	December, 1990
date issued	1990
identifier issn	0098-2202
identifier other	JFEGA4-27054#481_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/107066
description abstract	Interactions and breakup processes of 1.50-mm-diameter ethyl alcohol droplets and 5.14-mm-diameter water bubbles with planar shock waves were observed using double-exposure holographic interferometry. Experiments were conducted in a 60 mm × 150 mm cross-sectional shock tube for shock Mach number 1.56 in air. The Weber numbers of droplets and liquid bubbles were 5.6 × 103 and 2.9 × 103 , respectively, while the corresonding Reynolds numbers were 4.2 × 10 and 1.5 × 105 . It is shown that the resulting holographic interferogram can eliminate the effect of the mists produced by the breakup of the droplets and clearly show the structure of a disintegrating droplet and its wake. This observation was impossible by conventional optical flow visualization. It is demonstrated that the time variation of the diameter of a breaking droplet measured by conventional optical techniques has been overestimated by up to 35 percent.
publisher	The American Society of Mechanical Engineers (ASME)
title	Interaction of Liquid Droplets With Planar Shock Waves
type	Journal Paper
journal volume	112
journal issue	4
journal title	Journal of Fluids Engineering
identifier doi	10.1115/1.2909431
journal fristpage	481
journal lastpage	486
identifier eissn	1528-901X
keywords	Shock waves
keywords	Bubbles
keywords	Shock (Mechanics)
keywords	Ethanol
keywords	Shock tubes
keywords	Water
keywords	Reynolds number
keywords	Flow visualization
keywords	Holographic interferometry
keywords	Wakes AND Mach number
tree	Journal of Fluids Engineering:;1990:;volume( 112 ):;issue: 004
contenttype	Fulltext

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