Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/drop-heating-and-evaporation-analytical-solutions-in-curvilinear-gQqqdE3KET
References (10)
-
J. Wilms (2005)
Evaporation of multicomponent droplets -
B. Abramzon, W. Sirignano (1988)
Droplet vaporization model for spray combustion calculations -
T. Narasimhan (1999)
Fourier’s heat conduction equation: History, influence, and connectionsProceedings of the Indian Academy of Sciences - Earth and Planetary Sciences, 108
-
E. Gyftopoulos, G. Beretta (1991)
Thermodynamics: Foundations and Applications -
G. Hunt, G. Batchelor (1968)
An Introduction to Fluid DynamicsThe Mathematical Gazette, 52
-
S. Tonini, G. Cossali (2015)
A novel formulation of multi-component drop evaporation models for spray applicationsInternational Journal of Thermal Sciences, 89
-
G. Brenn, L. Deviprasath, F. Durst, C. Fink (2007)
Evaporation of acoustically levitated multi-component liquid dropletsInternational Journal of Heat and Mass Transfer, 50
-
S. Tonini, G. Cossali (2016)
On molar- and mass-based approaches to single component drop evaporation modelling*International Communications in Heat and Mass Transfer, 77
-
F. Incropera, D. Witt (1990)
Fundamentals of heat and mass transfer, 2nd edition -
S. Sazhin (2014)
Droplets and Sprays
- Publisher
- Springer International Publishing
- Copyright
- © Springer Nature Switzerland AG 2021
- ISBN
- 978-3-030-49273-1
- Pages
- 235 –249
- DOI
- 10.1007/978-3-030-49274-8_9
- Publisher site
- See Chapter on Publisher Site
Abstract
[The heat and mass transfer mechanisms taking place when a drop evaporates in a gaseous atmosphere can be accurately described making use of the equations developed in the previous chapters of this part of the book. However, when analytical tools are to be used to find solutions to such equations, some simplifying assumptions must be adopted to transform the governing equation to a more manageable form. In this chapter we will analyse the most common assumptions adopted when modelling the heating and evaporation of a liquid drop, and we will apply them to the conservation and constitutive equations to obtain differential equations that may admit analytical solutions.]
Published: Jul 1, 2020