A new control-volume finite-element scheme for heterogeneous porous media : application to the drying of softwood


Autoria(s): Carr, E. J.; Turner, I. W.; Perré, P.
Data(s)

28/06/2011

Resumo

An improved mesoscopic model is presented for simulating the drying of porous media. The aim of this model is to account for two scales simultaneously: the scale of the whole product and the scale of the heterogeneities of the porous medium. The innovation of this method is the utilization of a new mass-conservative scheme based on the Control-Volume Finite-Element (CV-FE) method that partitions the moisture content field over the individual sub-control volumes surrounding each node within the mesh. Although the new formulation has potential for application across a wide range of transport processes in heterogeneous porous media, the focus here is on applying the model to the drying of small sections of softwood consisting of several growth rings. The results conclude that, when compared to a previously published scheme, only the new mass-conservative formulation correctly captures the true moisture content evolution in the earlywood and latewood components of the growth rings during drying.

Formato

application/pdf

Identificador

http://eprints.qut.edu.au/44063/

Publicador

WILEY-VCH Verlag

Relação

http://eprints.qut.edu.au/44063/1/44063.pdf

DOI:10.1002/ceat.201100060

Carr, E. J., Turner, I. W., & Perré, P. (2011) A new control-volume finite-element scheme for heterogeneous porous media : application to the drying of softwood. Chemical Engineering & Technology, 34(7), pp. 1143-1150.

Direitos

Copyright 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

Fonte

Mathematical Sciences

Palavras-Chave #010200 APPLIED MATHEMATICS #010300 NUMERICAL AND COMPUTATIONAL MATHEMATICS #070500 FORESTRY SCIENCES #Anisotropy #Control-Volume Finite-Element Method #Heterogeneity #Mesoscopic model #Wood drying #Exponential Integrator #Growth rings
Tipo

Journal Article