Measuring the Heat of Interaction between Lignocellulosic Materials and Water

<i>Research Highlights</i>: When investigating the sorption of water on lignocellulosic materials, the sorption or mixing enthalpy is an interesting parameter that, together with the sorption isotherms commonly measured, can be used to characterize and understand the sorption process. We...

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Main Authors: Martin Nopens, Lars Wadsö, Christian Ortmann, Michael Fröba, Andreas Krause
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Forests
Subjects:
Online Access:https://www.mdpi.com/1999-4907/10/8/674
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spelling doaj-68ccd4f398054e6ea4b4f1772b84f1da2020-11-24T21:21:02ZengMDPI AGForests1999-49072019-08-0110867410.3390/f10080674f10080674Measuring the Heat of Interaction between Lignocellulosic Materials and WaterMartin Nopens0Lars Wadsö1Christian Ortmann2Michael Fröba3Andreas Krause4Department of Wood Science and Technology, University Hamburg, 21031 Hamburg, GermanyBuilding Materials, Lund University, 223 63 Lund, SwedenTA Instruments, 65760 Eschborn, GermanyInstitute of Inorganic and Applied Chemistry, University Hamburg, 20146 Hamburg, GermanyDepartment of Wood Science and Technology, University Hamburg, 21031 Hamburg, Germany<i>Research Highlights</i>: When investigating the sorption of water on lignocellulosic materials, the sorption or mixing enthalpy is an interesting parameter that, together with the sorption isotherms commonly measured, can be used to characterize and understand the sorption process. We have compared different methods to assess these enthalpies. Additionally, we propose a sorption nomenclature. <i>Background and Objectives</i>: Sorption enthalpies are non-trivial to measure. We have, for the first time, measured sorption enthalpies on the same materials with four different methods, to be able to compare the method&#8217;s strengths and weaknesses. <i>Materials and Methods:</i> The following four methods were used on beech and Scots pine wood: isosteric heat, solution calorimetry, sorption calorimetry, and RH perfusion calorimetry. <i>Results</i>: The results for beech and pine were similar, and were in general agreement with the literature. We do not recommend one of the methods over the others, as they are quite different, and they can therefore be used to elucidate different aspects of the interactions between water and, for example, novel biobased materials (modified woods, cellulose derivatives, and regenerated cellulose).https://www.mdpi.com/1999-4907/10/8/674woodwatersorptionsorption enthalpymixing enthalpyheat of sorption
collection DOAJ
language English
format Article
sources DOAJ
author Martin Nopens
Lars Wadsö
Christian Ortmann
Michael Fröba
Andreas Krause
spellingShingle Martin Nopens
Lars Wadsö
Christian Ortmann
Michael Fröba
Andreas Krause
Measuring the Heat of Interaction between Lignocellulosic Materials and Water
Forests
wood
water
sorption
sorption enthalpy
mixing enthalpy
heat of sorption
author_facet Martin Nopens
Lars Wadsö
Christian Ortmann
Michael Fröba
Andreas Krause
author_sort Martin Nopens
title Measuring the Heat of Interaction between Lignocellulosic Materials and Water
title_short Measuring the Heat of Interaction between Lignocellulosic Materials and Water
title_full Measuring the Heat of Interaction between Lignocellulosic Materials and Water
title_fullStr Measuring the Heat of Interaction between Lignocellulosic Materials and Water
title_full_unstemmed Measuring the Heat of Interaction between Lignocellulosic Materials and Water
title_sort measuring the heat of interaction between lignocellulosic materials and water
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2019-08-01
description <i>Research Highlights</i>: When investigating the sorption of water on lignocellulosic materials, the sorption or mixing enthalpy is an interesting parameter that, together with the sorption isotherms commonly measured, can be used to characterize and understand the sorption process. We have compared different methods to assess these enthalpies. Additionally, we propose a sorption nomenclature. <i>Background and Objectives</i>: Sorption enthalpies are non-trivial to measure. We have, for the first time, measured sorption enthalpies on the same materials with four different methods, to be able to compare the method&#8217;s strengths and weaknesses. <i>Materials and Methods:</i> The following four methods were used on beech and Scots pine wood: isosteric heat, solution calorimetry, sorption calorimetry, and RH perfusion calorimetry. <i>Results</i>: The results for beech and pine were similar, and were in general agreement with the literature. We do not recommend one of the methods over the others, as they are quite different, and they can therefore be used to elucidate different aspects of the interactions between water and, for example, novel biobased materials (modified woods, cellulose derivatives, and regenerated cellulose).
topic wood
water
sorption
sorption enthalpy
mixing enthalpy
heat of sorption
url https://www.mdpi.com/1999-4907/10/8/674
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