Detail publikace

Influence of the primary breakup conditions on the droplet size of the spray generated by twin fluid atomizers

Originální název

Influence of the primary breakup conditions on the droplet size of the spray generated by twin fluid atomizers

Anglický název

Influence of the primary breakup conditions on the droplet size of the spray generated by twin fluid atomizers

Jazyk

en

Originální abstrakt

Main goal of this study is to relate the measured droplet sizes, characterized by the Sauter mean diameter (ID32), to the conditions of the primary breakup defined mainly by the Weber number (We). To compare different atomizing techniques, we investigated four twin-fluid atomizers with different mechanisms of internal mixing: Y-jet atomizer, outside in gas (OIG) and outside in liquid (OIL) effervescent atomizers and in-house invented CFT atomizer.

Anglický abstrakt

Main goal of this study is to relate the measured droplet sizes, characterized by the Sauter mean diameter (ID32), to the conditions of the primary breakup defined mainly by the Weber number (We). To compare different atomizing techniques, we investigated four twin-fluid atomizers with different mechanisms of internal mixing: Y-jet atomizer, outside in gas (OIG) and outside in liquid (OIL) effervescent atomizers and in-house invented CFT atomizer.

BibTex


@article{BUT120670,
  author="Marek {Mlkvik} and Matouš {Zaremba} and Philipp {Stähle} and Heike P. {Schuchmann} and Volker {Gaukel} and Jan {Jedelský}",
  title="Influence of the primary breakup conditions on the droplet size of the spray generated by twin fluid atomizers",
  annote="Main goal of this study is to relate the measured droplet sizes, characterized by the Sauter mean diameter (ID32), to the conditions of the primary breakup defined mainly by the Weber number (We). To compare different atomizing techniques, we investigated four twin-fluid atomizers with different mechanisms of internal mixing: Y-jet atomizer, outside in gas (OIG) and outside in liquid (OIL) effervescent atomizers and in-house invented CFT atomizer.",
  address="Trans Tech Publications Inc.",
  chapter="120670",
  doi="10.4028/www.scientific.net/AMM.821.91",
  howpublished="online",
  institution="Trans Tech Publications Inc.",
  number="1",
  volume="821",
  year="2016",
  month="january",
  pages="91--96",
  publisher="Trans Tech Publications Inc.",
  type="journal article"
}