Finite element analysis of polymeric membrane and coating formation by solvent evaporation

Finite element analysis of polymeric membrane and coating formation by solvent evaporation

The solvent evaporation process from acetone–cellulose acetate solutions is studied as a numerical experiment. The process is modeled as a coupled heat and mass transfer problem with a moving boundary. The resulting non-linear system of governing equations is solved with the Galerkin finite element...

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Veröffentlicht in:Computational mechanics 2001-04, Vol.27 (4), p.332-340
Hauptverfasser: VERROS, G. D, MALAMATARIS, N. A
Format: Artikel
Sprache:eng
Schlagworte:
Acetone
Cellulose acetate
Computational methods in continuum mechanics
Continuum mechanics (soil mechanics...)
Evaporation
Evaporation rate
Exact sciences and technology
Finite element method
Fundamental areas of phenomenology (including applications)
Galerkin method
Heat transfer
Mass transfer
Membranes, rods and strings
Morphology
Nonlinear equations
Nonlinear systems
Parametric analysis
Physics
Solid mechanics
Solvents
Structural and continuum mechanics
Structural mechanics (beam, string...)
Theory and numerical methods
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Zusammenfassung:The solvent evaporation process from acetone–cellulose acetate solutions is studied as a numerical experiment. The process is modeled as a coupled heat and mass transfer problem with a moving boundary. The resulting non-linear system of governing equations is solved with the Galerkin finite element method. A parametric analysis is carried out and it is discussed in detail how the process conditions affect the evaporation rate, the temperature at the surface of the solution and the resulting morphology of the final product. This analysis may be applied in the modeling of polymeric membrane formation and in the drying of coatings.
ISSN:0178-7675
1432-0924
DOI:10.1007/s004660000229