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A theoretical study of the amount of moisture held in wood as capillary condensed water in the relative humidity (RH) range of 90–99.9% is carried out. The study is based on idealized geometries of the softwood structure related to micrographs. It is confined to structural elements such as bordered pits and the pointed ends of tracheids. The theoretical amount of water in these elements is found by employing the Kelvin equation. An equal amount of earlywood and latewood cells with different geometries and with different amounts of pits is assumed. The effect of pit aspiration is considered, and different degrees of pit aspiration are assigned to earlywood and latewood. We suggest based on the results that capillary condensation makes only a very small contribution to the equilibrium moisture content. At 99.9% RH the contribution amounts to less than 0.0035 kg water per kg dry wood. This is in line with the experimental results presented in Part 1 of this study.
Original languageEnglish
JournalHolzforschung
Publication date2010
Volume64
Journal number3
Pages325-330
ISSN0018-3830
DOIs
StatePublished
CitationsWeb of Science® Times Cited: 5

Keywords

  • Capillary condensation, Isotherm, Kelvin equation, Sorption, Wood-water relations
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