Dynamics of Radially Expanding Liquid Sheets

Dynamics of Radially Expanding Liquid Sheets

The process of atomization often involves ejecting thin liquid sheets at high speeds from a nozzle that causes the sheet to flap violently and break up into fine droplets. The flapping of the liquid sheet has long been attributed to the sheet's interaction with the surrounding gas phase. Here,...

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Veröffentlicht in:Physical review letters 2018-04, Vol.120 (16), p.164501-164501, Article 164501
Hauptverfasser: Majumdar, Nayanika, Tirumkudulu, Mahesh S
Format: Artikel
Sprache:eng
Schlagworte:
Atomizers
Atomizing
Ejection
Flapping
Liquid sheets
Nozzles
Size distribution
Thinning
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Zusammenfassung:The process of atomization often involves ejecting thin liquid sheets at high speeds from a nozzle that causes the sheet to flap violently and break up into fine droplets. The flapping of the liquid sheet has long been attributed to the sheet's interaction with the surrounding gas phase. Here, we present experimental evidence to the contrary and show that the flapping is caused by the thinning of the liquid sheet as it spreads out from the nozzle exit. The measured growth rates of the waves agree remarkably well with the predictions of a recent theory that accounts for the sheet's thinning but ignores aerodynamic interactions. We anticipate these results to not only lead to more accurate predictions of the final drop-size distribution but also enable more efficient designs of atomizers.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.120.164501