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The Influence of WaterSoluble Substances on Moisture Distribution in Larch Lumber before Drying

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Sh.G. Zaripov, A.P. Chizhov, V.A. Kornienko, N.I. Semenova

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UDС

674.032.475.3

DOI:

10.17238/issn0536-1036.2019.6.185

Abstract

The initial moisture content of wood is one of the major factors that determines the duration of lumber drying. It is generally accepted that the water content in the tree trunk, regardless of breed, depends on the zone of wood. The maximum amount of water can be found in sapwood, times less – in core wood. Deviation from the generally accepted provisions for the distribution of moisture in larch wood was found when studying the kinetics of lumber drying. Larch wood is 90 % core wood, and in lumber it is up to 100 %. The obtained data indicate the presence of a certain factor that determines the water content in Siberian larch wood. Such a factor is water-soluble substances, the basis of which is arabinogalactan; a polysaccharide with polyelectrolyte properties and capable of retaining a large number of water molecules. The article substantiates the assumption that moisture distribution in the cross section of a larch board before drying is formed by arabinogalactan, which is a part of wood. Arabinogalactan dissolving transfers water from the active phase to the passive one. Therefore, the presence of arabinogalactan at certain points of a log influences the water balance and leads to the formation of sharp boundaries of water distribution in wood. Consequently, it is reasonable to take into consideration the fact of predominant concentration of this group of water-soluble substances in the production of larch wood products. The research purpose is to justify the influence of water-soluble substances on the distribution of free water in larch lumber before drying.

Authors

Sh.G. Zaripov, Doctor of Engineering, Assoc. Prof.; ORCID: 0000-0001-6483-2453 
A.P. Chizhov, Candidate of Engineering, Assoc. Prof.; ORCID: 0000-0001-8466-8080
V.A. Kornienko, Candidate of Engineering, Assoc. Prof.; ORCID: 0000-0002-1709-9153
N.I. Semenova, Assoc. Prof.; ORCID: 0000-0003-1055-3277 

Affiliation

Lesosibirsk Branch of the Reshetnev Siberian State University of Science and Technology, ul. Pobedy, 29, Lesosibirsk, 662543, Russian Federation; e-mail: zaripov_sh@mail.ruap_chizhov@mail.rukornvlad@mail.rusemenovawood@mail.ru

Keywords

Siberian larch, free water, water-soluble extractives, arabinogalactan, moisture transfer, drying

For citation

Zaripov Sh.G., Chizhov A.P., Kornienko V.A., Semenova N.I. The Influence of Water-Soluble Substances on Moisture Distribution in Larch Lumber before Drying. Lesnoy Zhurnal [Russian Forestry Journal], 2019, no. 6, pp. 185–193. DOI: 10.17238/issn0536-1036.2019.6.185

References

  1. Alekseyeva T.V., Belen’kaya N.G., Chochiyeva M.M., Antonovskiy S.D., Terpukov A.F. The Effect of Arabinogalactan on Paper Properties. Khimiya drevesiny, 1978, no. 5, pp. 104–109.
  2. Bokshchanin Yu.R. Processing and Use of Larch Wood. Moscow, Lesnaya promyshlennost’ Publ., 1982. 216 p.
  3. Bochkov A.N., Afanas’yev V.A., Zaikov G.E. The Formation and Cleavage of Glycosidic Bonds. Moscow, Nauka Publ., 1978. 179 p.
  4. Gvozdeva E.N., Sharkov V.I. On the Change of Chemical Composition of Siberian Larch Wood (LARIX SIBIRIKA) with Age. Khimiya drevesiny, 1972, no.12, pp. 45–48.
  5. Gorokhovskiy A.G. Drying Schedule of Lumber Based on Simulation and Optimization of Heat and Mass Transfer Processes in Wood: Dr. Eng. Sci. Diss. Abs. Saint Petersburg, 2008. 39 p.
  6. Zaripov Sh.G. Improving the Technology of Larch Lumber Drying: Dr. Eng. Sci. Diss. Arkhangelsk, NArFU, 2016. 244 p.
  7. Levin E.D., Denisov O.B., Pen R.Z. Complex Processing of Larch. Moscow, Lesnaya promyshlennost’ Publ., 1978. 224 p.
  8. Medvedeva S.A., Alexandrova G.P., Tantsyrev A.P. Gel-Penetrating Chromatography of Arabinogalactan. Lesnoy Zhurnal [Forestry Journal], 2002, no. 6, pp. 108–114. URL: http://lesnoizhurnal.ru/upload/iblock/c05/c05c363868a82d9b3750175eb6419612.pdf
  9. Rebinder P.A. On the Forms of Connection of the Material with Water in Drying. All-Union Scientific and Technical Meeting on Drying. Plenary Sessions. Moscow, 1958, pp. 20–33.
  10. Sergovskiy P.S. Hydrothermal Processing and Preservation of Wood. Moscow, Lesnaya promyshlennost’ Publ., 1975. 400 p.
  11. Urazayev V.A. Solvents. Tekhnologii elektronnoy promyshlennosti [Technologies in Electronic Industry], 2006, no. 1, pp. 44–49.
  12. Chudinov B.S. Moisture in Timber. Novosibirsk, Nauka Publ., 1984. 267 p.
  13. Shubin G.S. Physical Principles and Calculation of Wood Drying Processes. Moscow, Lesnaya promyshlennost’ Publ., 1973. 248 p.
  14. Yakushkina N.I. Bakhtenko E.Yu. Plant Physiology. Moscow, Vlados Publ., 2005. 464 p.
  15. Almeida G., Gagné S., Hernández R.E. A NMR Study of Water Distribution in Hardwoods at Several Equilibrium Moisture Contents. Wood Science and Technology, 2007, vol. 41, pp. 293–307. DOI: 10.1007/s00226-006-0116-3
  16. Gezici-Koç Ö., Erich S.J.F., Huinink H.P., van der Ven L.G.J., Adan O.C.G. Bound and Free Water Distribution in Wood during Water Uptake and Drying as Measured by 1D Magnetic Resonance Imaging. Cellulose, 2017, vol. 24, iss. 2, pp. 535–553. DOI: 10.1007/s10570-016-1173-x
  17. Panshin A.J., de Zeeuw C. Structure, Identification, Properties, and Uses of the Commercial Woods of the United States and Canada. Vol. 1. Textbook of Wood Technology. New York, McGraw-Hill College, 1980. 736 p.
  18. Simpson W.T. Specific Gravity, Moisture Content, and Density Relationship for Wood. General Technical Report FPL-GTR-76. Madison, WI, United States Dep
  19. Skaar C. Wood-Water Relations. Berlin, Springer-Verlag, 1988. 283 p. DOI: 10.1007/978-3-642-73683-4
  20. Wengert E.M. Principles and Practices of Drying Lumber. Blacksburg, VA, 2006. 59 p.

The Influence of WaterSoluble Substances on Moisture Distribution in Larch Lumber before Drying

 

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