Sazhin, Sergei and Al Qubeissi, M. and Xie, J.-F. (2021) Two approaches to modelling the heating of evaporating droplets. [Data Collection]
Project Description
Two approaches to modelling the heating of evaporating droplets have beenwidely used in engineering applications. In the first approach the heat rate supplied to the droplets to raise their temperatures, q˙d, is derived from the requirement that droplet evaporation rates, inferred from steady-state equations for mass and heat balance, should be the same. The second approach is based on the direct calculation of the distribution of temperature inside droplets assuming that their thermal conductivity is not infinitely large. The implications of these two approaches are compared for the case of stationary droplets in conditions relevant to Diesel engines. It is pointed out that although the trends of time evolution of q˙ d predicted by both approaches are similar, actual values of q˙ d predicted by these approaches can be visibly different. This difference can lead to noticeable differences in predicted droplet surface temperatures, radii and evaporation times. Possible reasons for these differences are discussed.
Uncontrolled Keywords: | Droplet heating Droplet evaporation n-Dodecane Heat/mass transfer |
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Subjects: | H Engineering > H311 Thermodynamics |
Departments: | School of Architecture, Technology and Engineering |
Depositing User: | Oyuna Rybdylova |
Date Deposited: | 25 Mar 2021 16:33 |
Last Modified: | 23 Jun 2021 11:33 |
Researchers (inc. External): |
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