Behavior of Decayed Spruce (<i>Picea abies</i>) during Kraft Pulping

Markku Halonen; Raimo Alén

doi:10.12103/j.issn.2096-2355.2020.04.001

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Research Article | Open Access

Behavior of Decayed Spruce (Picea abies) during Kraft Pulping

Markku Halonen, Raimo Alén(

)

Laboratory of Applied Chemistry, Department of Chemistry, University of Jyväskylä, FI-40014, Finland

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Abstract

This study indicated that by applying an improved classification system to decayed large-diameter Norway spruce (Picea abies) wood, its use as raw material for kraft pulping without loss of pulp quality could be essentially increased. This is based on the fact that although the cooking yield of decayed spruce material which has been sorted according to these new recommendations is somewhat lower and Kappa number higher than those of sound wood material, the greatest part of the decayed stem (the outer part of the stem) contains long-fiber wood material which produces pulp of good quality. Therefore, large-diameter spruce logs can also be separately used, for example, in the manufacture of reinforcement pulp.

Keywords

wood decay Norway spruce kraft pulping fungal decay soft rot

References

[1]

Biermann C J. Essentials of Pulping and Papermaking. USA: Academic Press, 1993, 19-20.

[2]

Shimada M. Biochemical mechanisms for the biodegradation of wood. In Recent Research on Wood and Wood-based Materials. Shiraishi N, Kajita H, Norimoto M (Eds). Crown House, England: Elsevier Applied Science, 1993, 207-222.

Crossref

[3]

Kellomäki S (Ed). Forest Resources and Sustainable Management. Helsinki, Finland: Paper Engineers' Association, 2009.

[4]

Tamminen P. Butt-rot in Norway spruce in southern Finland. Commununicationes Instituti Forestalis Fenniae, 1985, 127, 1-52.

Google Scholar

[5]

Fengel D, Wegener G. Wood—Chemistry, Ultrastructure, Reactions. Berlin, Germany: Walter de Gruyter, 1989, 373-406.

[6]

Kurkela T. Diseases of Forest—Principles of Forest Pathology. Espoo, Finland: Otatieto, 1994 (in Finnish).

[7]

Schulze S, Bahnweg G, Tesche M, Sandermann H. Identification technique for Armillaria spp. and Heterobasidion annosum root and butt rot diseases: a critical review. Archiv für Phytopathologie Pflanzenschutz, 1997, 31(2), 141-163.

Crossref Google Scholar

[8]

Schulze S, Bahnweg G. Critical review of identification techniques for Armillaria spp. and Heterobasidion annosum root and butt rot diseases. Journal of Phytopathology, 1998, 146(2/3), 61-72.

Crossref Google Scholar

[9]

Baumgartner K. Ecology of Armillaria spp. in mixed-hardwood forests of California. Plant Disease, 2001, 85(9), 947-951.

Crossref Google Scholar

[10]

Rishbeth J. Stump protection against Fomes annosus. Ⅲ. Inoculation with Peniophora gigantean. Annales of Applied Biology, 1963, 52, 63-77.

Crossref Google Scholar

[11]

Rishbeth J. Modern aspects of biological control of Fomes and Armillaria. European Journal of Forest Pathology, 1979, 9, 331-340.

Crossref Google Scholar

[12]

Harstela P. Timber procurement. In Forest Resources and Sustainable Management. Kellomäki S (Ed). Helsinki, Finland: Fapet, 1998, 311-363.

[13]

Watson A J, Bennett A J, Phillips F H, Logan A F. Use of myrtle beech (Nothofagus cunninghamii) as a pulpwood resource. Appita, 1986, 39(3), 230-236.

Google Scholar

[14]

Anderson C A. Influence of wood characteristics on pulp quality. Pacific Pulp and Paper Industry, 1941, 15(11), 18-20.

Google Scholar

[15]

Hunt K. How rot-decayed wood affects chipping and kraft pulping. Pulp & Paper Canada, 1978, 79(8), 65-68.

Google Scholar

[16]

Lönnberg B, Varhimo A. Effect of Fomes annosus on the wood and pulping properties of spruce. Paperi ja Puu, 1981, 63(4a), 269-272.

Google Scholar

[17]

Mischki T, Bicho P, Watson P, et al. The effects of decadent western hemlock in pulping and pulp properties. Pulp & Paper Canada, 2005, 106(1), 49-56.

Google Scholar

[18]

MacLeod J M, Pelletier L J. Basket cases: kraft pulps inside digesters. TAPPI Journal, 1987, 70(11), 47-53.

Google Scholar

[19]

ANON. Spectrophotometer CM-3700d—Hardware Manual. Bern, Switzerland: Minolta Co, 1994.

[20]

Hakkila P. Logging in Finland. Acta Forestalia Fennica, 1989, 207, 1-10.

Crossref Google Scholar

[21]

Karlsson H. Fibre Guide—Fibre Analysis and Process Applications in the Pulp and Paper Industry. Kista, Sweden: AB Lorentzen & Wettre, 2006.

Paper and Biomaterials

Volume 5 Issue 4,
October 2020

Pages 1-7

DOI: 10.12103/j.issn.2096-2355.2020.04.001

Cite this article:

Halonen M, Alén R. Behavior of Decayed Spruce (Picea abies) during Kraft Pulping. Paper and Biomaterials, 2020, 5(4): 1-7. https://doi.org/10.12103/j.issn.2096-2355.2020.04.001

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Received: 07 June 2020

Accepted: 18 August 2020

Published: 29 October 2020

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)