Article
Heat and Mass Transfer and Physical Gasdynamics
2015. V. 53. № 2. P. 214–216
Alekseev V.B., Zalkind V.I., Zeigarnik Yu.A., Marinichev D.V., Nizovskiy V.L., Nizovskiy L.V.
On the nature of bimodal drop distribution over sizes under superheated water atomization
Annotation
A description of the possible succession of the processes resulting in bimodal drop distribution over sizes under superheated water atomization is presented. The first one consists in fragmentation of the liquid discharging from the atomizer and formation of $5$- to $15$-$\mu$m liquid fragments due to the baro-capillary effect; the second one results in fragmentation of a part of these fragments under the action of the rapidly expanding vapor bubbles (flashing).
Article reference:
Alekseev V.B., Zalkind V.I., Zeigarnik Yu.A., Marinichev D.V., Nizovskiy V.L., Nizovskiy L.V. On the nature of bimodal drop distribution over sizes under superheated water atomization, High Temp., 2015. V. 53. № 2. P. 214
Alekseev V.B., Zalkind V.I., Zeigarnik Yu.A., Marinichev D.V., Nizovskiy V.L., Nizovskiy L.V. On the nature of bimodal drop distribution over sizes under superheated water atomization, High Temp., 2015. V. 53. № 2. P. 214
News
Information
Impact factor 2022: 1.0
ISSN: 0040-3644 (Russian version)
ISSN: 0018-151X (English version)
ISSN: 1608-3156 (Online version)
ISSN: 1608-3156 (Online version)
