2002
DOI: 10.1007/s00348-002-0456-1
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Transient high-frequency ultrasonic water atomization

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Cited by 140 publications
(84 citation statements)
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“…Their work noted that the mechanism of atomization appeared to be unstable unless the fluid layer was thin and that the atomization process ejected drops in three different size ranges. Barreras et al (2002) found a similar phenomenon in a detailed experimental study using a piston ultrasonic atomizer, effectively capturing a number of images that indicated the length scales of each of the instabilities giving rise to the drops. Other means for generating micron-sized drops are described in the literature, and the article by Kripfgans et al (2004) is especially thorough in describing how atomization produces small drops from a fluid jet that is subsequently exposed to intense ultrasound.…”
Section: Atomizationmentioning
confidence: 63%
“…Their work noted that the mechanism of atomization appeared to be unstable unless the fluid layer was thin and that the atomization process ejected drops in three different size ranges. Barreras et al (2002) found a similar phenomenon in a detailed experimental study using a piston ultrasonic atomizer, effectively capturing a number of images that indicated the length scales of each of the instabilities giving rise to the drops. Other means for generating micron-sized drops are described in the literature, and the article by Kripfgans et al (2004) is especially thorough in describing how atomization produces small drops from a fluid jet that is subsequently exposed to intense ultrasound.…”
Section: Atomizationmentioning
confidence: 63%
“…However, it has recognized the complexity introduced by an observed acoustic cavitation zone in the liquid and the periodic release of droplets from the capillary wave (fountain) formed at the surface of the liquid. Also, recent observations have noted that the droplet formation and consequent droplet size distribution are not as uniform as previously considered [1]. The formation of satellite droplets, larger than the primary droplets was reportedly observed in recent experiments and uniformity droplet size distributions over a period of time, based on a physical understanding and models of the atomization process, has been discussed [2].…”
Section: Introductionmentioning
confidence: 86%
“…Numerous reports [1][2][3][4][5][6] have been published on the mechanism of droplet formation by ultrasonic atomization with this limited understanding in the past. However, it has recognized the complexity introduced by an observed acoustic cavitation zone in the liquid and the periodic release of droplets from the capillary wave (fountain) formed at the surface of the liquid.…”
Section: Introductionmentioning
confidence: 99%
“…Unfortunately, this relationship does not hold at high frequencies and the discrepancy has been remarkable 17 with some researchers even proposing ͑unnecessarily, see Ref. 14͒ cavitation as the dominant mechanism 18,19 instead. Capillary waves in microfluidics contribute to a wide range of other phenomena, including particle rafting 20 and concentration, 21 that are physically curious and have engineering applications.…”
Section: Introductionmentioning
confidence: 99%