Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process

Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process

This study investigated the evolution of the density, gas permeability, and thermal conductivity of sugar maple wood during the thermo-hygro-mechanical densification process. The results suggested that the oven-dry average density of densified samples was significantly higher than that of the contro...

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Bibliographic Details
Main Authors: Qilan Fu, Alain Cloutier, Aziz Laghdir
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Fibers
Subjects:
density
gas permeability
thermal conductivity
densification
Online Access:http://www.mdpi.com/2079-6439/6/3/51
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spelling doaj-9ad563eeac584220ab6ac7015d0b47f72020-11-25T00:43:27ZengMDPI AGFibers2079-64392018-07-01635110.3390/fib6030051fib6030051Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification ProcessQilan Fu0Alain Cloutier1Aziz Laghdir2Center de Recherche sur les Matériaux Renouvelables (Renewable Materials Research Center), Département des Sciences du Bois et de la Forêt (Department of Wood and Forest Science), Université Laval, Québec, QC G1V 0A6, CanadaCenter de Recherche sur les Matériaux Renouvelables (Renewable Materials Research Center), Département des Sciences du Bois et de la Forêt (Department of Wood and Forest Science), Université Laval, Québec, QC G1V 0A6, CanadaResearch Scientist, Service de Recherche et D’expertise en Transformation des Produits Forestiers (Research and Expertise Service on Transformation of Forest Products), Amqui, QC G5J 1K3, CanadaThis study investigated the evolution of the density, gas permeability, and thermal conductivity of sugar maple wood during the thermo-hygro-mechanical densification process. The results suggested that the oven-dry average density of densified samples was significantly higher than that of the control samples. However, the oven-dry density did not show a linear increase with the decrease of wood samples thickness. The radial intrinsic gas permeability of the control samples was 5 to 40 times higher than that of densified samples, which indicated that the void volume of wood was reduced notably after the densification process. The thermal conductivity increased by 0.5–1.5 percent for an increase of one percent moisture content for densified samples. The thermal conductivity of densified wood was lower than that of the control samples. The densification time had significant effects on the oven-dry density and gas permeability. Both densification time and moisture content had significant effects on thermal conductivity but their interaction effect was not significant.http://www.mdpi.com/2079-6439/6/3/51densitygas permeabilitythermal conductivitydensification
collection DOAJ
language English
format Article
sources DOAJ
author Qilan Fu
Alain Cloutier
Aziz Laghdir
spellingShingle Qilan Fu
Alain Cloutier
Aziz Laghdir
Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
Fibers
density
gas permeability
thermal conductivity
densification
author_facet Qilan Fu
Alain Cloutier
Aziz Laghdir
author_sort Qilan Fu
title Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
title_short Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
title_full Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
title_fullStr Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
title_full_unstemmed Heat and Mass Transfer Properties of Sugar Maple Wood Treated by the Thermo-Hygro-Mechanical Densification Process
title_sort heat and mass transfer properties of sugar maple wood treated by the thermo-hygro-mechanical densification process
publisher MDPI AG
series Fibers
issn 2079-6439
publishDate 2018-07-01
description This study investigated the evolution of the density, gas permeability, and thermal conductivity of sugar maple wood during the thermo-hygro-mechanical densification process. The results suggested that the oven-dry average density of densified samples was significantly higher than that of the control samples. However, the oven-dry density did not show a linear increase with the decrease of wood samples thickness. The radial intrinsic gas permeability of the control samples was 5 to 40 times higher than that of densified samples, which indicated that the void volume of wood was reduced notably after the densification process. The thermal conductivity increased by 0.5–1.5 percent for an increase of one percent moisture content for densified samples. The thermal conductivity of densified wood was lower than that of the control samples. The densification time had significant effects on the oven-dry density and gas permeability. Both densification time and moisture content had significant effects on thermal conductivity but their interaction effect was not significant.
topic density
gas permeability
thermal conductivity
densification
url http://www.mdpi.com/2079-6439/6/3/51
work_keys_str_mv AT qilanfu heatandmasstransferpropertiesofsugarmaplewoodtreatedbythethermohygromechanicaldensificationprocess
AT alaincloutier heatandmasstransferpropertiesofsugarmaplewoodtreatedbythethermohygromechanicaldensificationprocess
AT azizlaghdir heatandmasstransferpropertiesofsugarmaplewoodtreatedbythethermohygromechanicaldensificationprocess
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