SANDOVAL-TORRES, S.; NADEAU, Jean-Pierre; HERNANDEZ-BAUTISTA, , E; RODRÍGUEZ-RAMÍREZ, , J.; MÉNDEZ-LAGUNAS, L.

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SANDOVAL-TORRES, S.
Instituto Politecnico Nacional [Mexico] [IPN]

NADEAU, Jean-Pierre

HERNANDEZ-BAUTISTA, , E
Instituto Politecnico Nacional [Mexico] [IPN]

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Communication dans un congrès avec actes

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EuroDrying'2011: III European drying conference : Palma de Mallorca (Spain), October 26-28, 2011 / Universitat de les Illes Balears, European Drying Conference - EuroDrying'2011, 2011-10-26. 2011-10p. 1-4

Universitat de les Illes Balears

English Abstract

In this work, we present the second part of our investigation. In the first part, we have published a semi-empirical model for drying. In this second part, we present the numerical solution of a drying model for Pinus pseudostrobus (Mexican softwood). The model take into account a multiphysics approach. The model describes the moisture mobilities and profiles. The system of partial differential equations were solved in COMSOL 3.4 with the UMFPACK solver. Three primary variables are solved; the moisture content; the temperature; and the density of dry air. The model is validated by comparison. We have compared the phenomenological model versus experimental data and versus a semiempirical model.Read less <

English Keywords

Comsol Multiphisic 3.4

Numerical simulation

Drying of Mexican pinewood

Phenomenological model

Comsol Multiphisic 3.4.

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Numerical simulation of drying of Pinus pseudostrobus wood with Comsol Multiphysics

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