MODELLING OF THE ENERGY NEEDED FOR DEFROSTING OF WOOD MATERIALS IN THE HYGROSCOPIC RANGE

Authors

  • Nencho Deliiski Author

Keywords:

modelling, wood defrosting, specific heat energy, wood specie, hygroscopic range

Abstract

A mathematical model of the specific heat energy, which is needed for defrosting of wood materials in the hygroscopic range, dfr q , has been suggested. The specific heat energy d fr q consist of two parts: the energy needed for heating of the frozen wood until melting of the ice in it, wfr q , and the energy needed for the melting of the ice formed from the bound water in the wood, bwq . Using the suggested model computations have been carried out for the determination of wfr q , bwq , and d fr q = wfr q + bwq during defrosting of oak, pine, beech, and poplar frozen wood with moisture content from 0.2 kg·kg-1 up to the border of the hygroscopic diapason and with initial temperature in the range from −20 oC to −2 oC, at which the thawing of the ice formed from the bounded water is completed.

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Published

2014-05-20

Versions

Issue

Vol. 3 No. 1 (2014): INNOVATION IN WOODWORKING INDUSTRY AND ENGINEERING DESIGN 1/2014

Section

Biocomposite Technologies, Furniture Manufacturing and Design

License

Copyright (c) 2014 Nencho Deliiski (Author)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

(1)
Deliiski, N. MODELLING OF THE ENERGY NEEDED FOR DEFROSTING OF WOOD MATERIALS IN THE HYGROSCOPIC RANGE. INNO 2014, 3 (1).

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