In Chap. 10 we have seen that when an evaporating drop has the shape of a sphere, a spheroid or an ellipsoid, and the boundary conditions are uniform over the drop surface, the whole problem simplifies when proper coordinate systems are used and one-dimensional solutions of the conservation equations can be found. When the drop assumes different shapes, or the boundary conditions are not uniform, two- or three-dimensional solutions appear, even using proper coordinate systems. In this chapter we will explore some cases of practical interest when 2-D or even 3-D solutions can be found analytically.

(2021). Two- and Three-Dimensional Modelling of Heating and Evaporation Under Steady Conditions . Retrieved from http://hdl.handle.net/10446/205421

Two- and Three-Dimensional Modelling of Heating and Evaporation Under Steady Conditions

Cossali G.;Tonini S.
2021-01-01

Abstract

In Chap. 10 we have seen that when an evaporating drop has the shape of a sphere, a spheroid or an ellipsoid, and the boundary conditions are uniform over the drop surface, the whole problem simplifies when proper coordinate systems are used and one-dimensional solutions of the conservation equations can be found. When the drop assumes different shapes, or the boundary conditions are not uniform, two- or three-dimensional solutions appear, even using proper coordinate systems. In this chapter we will explore some cases of practical interest when 2-D or even 3-D solutions can be found analytically.
2021
Cossali, G.; Tonini, S.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10446/205421
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