MODELING VACUUM-CONTACT DRYING OF WOOD: THE WATER POTENTIAL APPROACH |
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| Authors: | Maurice Defo Graduate student Alain Cloutier Associate professor Yves Fortin Professor |
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| Affiliation: | Département des sciences du bois et de la forêt Faculte de foresterie et de géomatique , Universite Laval , Quebec, Qc, G1K 7P4, Canada |
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| Abstract: | ABSTRACT A two-dimensional mathematical model for vacuum-contact drying of wood is presented. The moisture and heat equations are based on the water potential concept whereas the pressure equation is formulated considering unsteady state conservation equation of dry air. Most of the model parameters were determined during independent experiments. The set of equations is then solved in a coupled form using the finite element method. The validation of the model is performed using experimental results obtained during vacuum-contact drying of sugar maple sapwood. The experimental and calculated data are in good agreement. Nevertheless, some discrepancies are observed which can be attributed to the boundary conditions used and to the fact that heat transfer by convection was neglected. |
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| Keywords: | effective water conductivity finite element method moisture content pressure sugar maple temperature |
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