Publication detail
Low-pressure twin-fluid atomization: Effect of mixing process on spray formation
ZAREMBA, M. WEIß, L. MALÝ, M. WENSING, M. JEDELSKÝ, J. JÍCHA, M.
English title
Low-pressure twin-fluid atomization: Effect of mixing process on spray formation
Type
journal article in Web of Science
Language
en
Original abstract
The present work comparably examines four different twin-fluid atomizers operated under the same op- erating conditions. Spray formation was examined by several approaches. The internal flow pattern was estimated using a simplified analytical approach, and the results were supported by the observation of the liquid discharge in the near-nozzle region. A high-speed back illumination was used for visualisation of the primary breakup. In the region of fully developed spray, the dynamics of droplets was studied using a phase-Doppler analyser (PDA). The information obtained from all methods was then correlated. Results show that the spray formation process depends mainly on the internal design of twin-fluid at- omizer at low gas to liquid ratios (GLR). The amount of gas influences the character of the internal two- phase flow, a mechanism of the liquid breakup, droplet dynamics and a resulting drop size distribution. Differences among the atomizers are reduced with the increase in GLR. Moreover, it was shown that a certain mixing process can inherently create the annular internal flow which generates a stable spray characterized by relatively low mean droplet size.
English abstract
The present work comparably examines four different twin-fluid atomizers operated under the same op- erating conditions. Spray formation was examined by several approaches. The internal flow pattern was estimated using a simplified analytical approach, and the results were supported by the observation of the liquid discharge in the near-nozzle region. A high-speed back illumination was used for visualisation of the primary breakup. In the region of fully developed spray, the dynamics of droplets was studied using a phase-Doppler analyser (PDA). The information obtained from all methods was then correlated. Results show that the spray formation process depends mainly on the internal design of twin-fluid at- omizer at low gas to liquid ratios (GLR). The amount of gas influences the character of the internal two- phase flow, a mechanism of the liquid breakup, droplet dynamics and a resulting drop size distribution. Differences among the atomizers are reduced with the increase in GLR. Moreover, it was shown that a certain mixing process can inherently create the annular internal flow which generates a stable spray characterized by relatively low mean droplet size.
Keywords in English
Low-pressure; Atomization; Twin-fluid; Droplet dynamics; Liquid breakup; Back illumination
Released
01.01.2017
Publisher
Elsevier
ISSN
0301-9322
Volume
89
Number
1
Pages from–to
277–289
Pages count
13
BIBTEX
@article{BUT130067,
author="Matouš {Zaremba} and Lukas {Weiß} and Milan {Malý} and Michael {Wensing} and Jan {Jedelský} and Miroslav {Jícha},
title="Low-pressure twin-fluid atomization: Effect of mixing process on spray formation",
year="2017",
volume="89",
number="1",
month="January",
pages="277--289",
publisher="Elsevier",
issn="0301-9322"
}