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Experimental Investigation of Dynamics and Atomization of a Liquid Film Flowing over a Spinning Disk

Freystein, M. and Borsdorf, T. and Gambaryan-Roisman, Tatiana and Stephan, Peter :
Experimental Investigation of Dynamics and Atomization of a Liquid Film Flowing over a Spinning Disk.
[Online-Edition: http://www.dl.begellhouse.com/pt/journals/6a7c7e10642258cc,2...]
In: Atomization and Sprays, 23 (7) pp. 589-603.
[Article] , (2013)

Official URL: http://www.dl.begellhouse.com/pt/journals/6a7c7e10642258cc,2...

Abstract

One of the most commonly used methods of liquid atomization is the rotary atomization. In this process a radially spreading thin liquid film is created on a surface of a rotating disk, due to centrifugal forces. The liquid flows over the disk edge and disintegrates. The liquid film is mostly wavy. The radially propagating waves induce fluctuations resulting in an expansion of the drop size distribution after atomization. An experimental apparatus has been built to investigate the effect of the film dynamics on the atomization process. A water jet is impinging at the center of a rotating disk made of stainless steel. The local instantaneous film thickness is measured using a confocal chromatic sensoring technique. The drop sizes are determined using the shadowgraphy method. The film flow on the rotating disk has been investigated in a wide range of parameters. The strongly wavy structure of the film flow has been observed for all sets of parameters. The development of waves depends on the nozzle-to-disk distance. The radial distribution of the time-averaged film thickness over the disk surface agrees fairly well with the correlations found in the literature. First results of the drop size distribution show a bimodal distribution for low liquid mass flow rates.

Item Type: Article
Erschienen: 2013
Creators: Freystein, M. and Borsdorf, T. and Gambaryan-Roisman, Tatiana and Stephan, Peter
Title: Experimental Investigation of Dynamics and Atomization of a Liquid Film Flowing over a Spinning Disk
Language: English
Abstract:

One of the most commonly used methods of liquid atomization is the rotary atomization. In this process a radially spreading thin liquid film is created on a surface of a rotating disk, due to centrifugal forces. The liquid flows over the disk edge and disintegrates. The liquid film is mostly wavy. The radially propagating waves induce fluctuations resulting in an expansion of the drop size distribution after atomization. An experimental apparatus has been built to investigate the effect of the film dynamics on the atomization process. A water jet is impinging at the center of a rotating disk made of stainless steel. The local instantaneous film thickness is measured using a confocal chromatic sensoring technique. The drop sizes are determined using the shadowgraphy method. The film flow on the rotating disk has been investigated in a wide range of parameters. The strongly wavy structure of the film flow has been observed for all sets of parameters. The development of waves depends on the nozzle-to-disk distance. The radial distribution of the time-averaged film thickness over the disk surface agrees fairly well with the correlations found in the literature. First results of the drop size distribution show a bimodal distribution for low liquid mass flow rates.

Journal or Publication Title: Atomization and Sprays
Volume: 23
Number: 7
Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Institute for Technical Thermodynamics (TTD)
Exzellenzinitiative
Exzellenzinitiative > Clusters of Excellence
Zentrale Einrichtungen
Exzellenzinitiative > Clusters of Excellence > Center of Smart Interfaces (CSI)
Date Deposited: 17 Mar 2015 14:43
Official URL: http://www.dl.begellhouse.com/pt/journals/6a7c7e10642258cc,2...
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