Journal
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
Volume 176, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijheatmasstransfer.2021.121449
Keywords
Composite droplets; Puffing; Micro-explosion; Heating; Evaporation; Droplets in tandem
Categories
Funding
- National Research Tomsk Polytechnic University [VIU-ISHFVP-60/2019]
- Russian Federation [SP-447.2021.1, MN-7/2260]
- EPSRC, UK [EP/M002608/1]
- Royal Society (UK)
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The lead droplet always puffs/micro-explodes before the downstream droplet, and the difference between their times decreases with increasing distance between the droplets. The puffing/micro-explosion time of both droplets increases with increasing distance between droplets.
The results of the experimental and theoretical investigations of the mutual effect on their puffing/microexplosion of droplets in a flow, using an example of two closely spaced droplets in tandem, are presented. It is shown that the time to puffing/micro-explosion (tau(p)) of the lead droplet is always shorter than that of the downstream droplet, and the difference between them decreases with increasing distance between droplets divided by their initial diameters (2R(d0)). It is shown that the tau(p) of both droplets increases with increasing R-d0. The experimental results are interpreted in terms of the previously developed model for fuel/water droplet puffing/micro-explosion, based on the assumptions that the water sub-droplet is located in the centre of the fuel droplet and that this process is triggered when the temperature at the water/fuel interface reaches the water nucleation temperature. The effect of interaction between the lead and downstream droplets is taken into account via modifications to the Nusselt and Sherwood numbers for these droplets using the results of numerical calculations. Both experimentally observed and predicted values of tau(p) are shown to increase with increasing R-d0. They are shown to be longer for the downstream droplets than for the lead droplets. The experimentally observed differences in tau(p) for the lead and downstream droplets are close to the predicted differences. (C) 2021 Elsevier Ltd. All rights reserved.
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