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Original Article | Open Access

Fibre Treatment Uniformity in Pulp Refining

Richard J. Kerekes1( )J. David McDonald2
Pulp and Paper Centre, The University of British Columbia, Vancouver, V6T 1Z4, Canada
JDMcD Consulting Inc., Vaudreuil-Dorion, Quebec, J7V 0G1, Canada
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Abstract

This paper explores implications of previous work which suggested that pulp refining is achieved by a small number of impacts.As a consequence, the purpose of multiple bar crossings in refiners is to expose many fibres to a few effective cycles, not to impose many cycles on each fibre.Based on this postulate, tensile strength increase was found to be well described by a cumulative probability equation having two parameters: (a) number of bar crossings and (b) probability of a successful refining outcome at each crossing.In this paper, this concept further with additional refiner data was explored and the link between the probability term and measurable refiner variables was examined.By proposing the possibility, these two parameters may be a desirable alternative to specific energy and specific edge load for characterizing refining action.

Keywords

tensile strengthpulp refiningrefining uniformityrefining characterization

References

[1]

Ryti N, Arjas A. Residence Time in Refine[J]. Paperi ja Puu, 1969, 51(1): 69-84.
Google Scholar
[2]

Roux J C, Joris G. Angular Parameters Beyond Specific Edge Load[J]. TAPPSA Journal, 2005.
Google Scholar
[3]

Fox T S, Brodkey R S, Nisan A H. High Speed Photography of Stock Transport in a Disc Refiner[J]. TAPPI, 1979, 62(3): 55-58.
Google Scholar
[4]
Kerekes R J, Olson J A. Perspectives on Fibre Length Reduction in Refining[C]//PIRA International Conference on Scientific and Technical Advances in Refining an Mechanical Pulping, Stockholm, Sweden, 2003.
[5]
Batchelor W J, Ouellet D. Estimating Forces on Fibres in Refining[C]//4th Int'l Refining Conference, PIRAInternational, Leatherhead, UK, 1997.
[6]
Eckhart R, Hirn U, Bauer W A. A Method to Determine Fiber Wall Damage Induced by Refining[C]//Progress in Paper Physics Seminar, Miami University, Oxford, Ohio, 2006.
[7]

Tam Doo P A, Kerekes R J. The Effect of Beating and Low-Amplitude Flexing on Pulp Fibre Flexibility[J]. J. Pulp Paper Sci., 1989, 15(1): J36-J42.
Google Scholar
[8]

Dunford J, Wild P M. Cyclic Transverse Compression of Single Wood-Pulp Fibres[J]. J. Pulp Paper Sci., 2002, 28(4): 136-141.
Google Scholar
[9]

Goosen D R, Olson J A, Kerekes R J. The Role of Heterogeneity in Compression Refining[J]. J. Pulp Paper Sci., 2007, 33(2): 110-114.
Google Scholar
[10]

Heymer J O, Olson J A, Kerekes R J. The Role of Multiple Loading Cycles on Pulp in Refiners[J]. Nord. Pulp Paper Res. J., 2011, 26(3): 283-287.
Crossref Google Scholar
[11]

Kerekes R J, Meltzer F M. The Influence of bar Width on Bar Forces and Fibre Shortening in Low Consistency Pulp Refining[J]. Nord. Pulp Paper Res. J., 2018, 33(2): 220-225.
Crossref Google Scholar
[12]

Kerekes R J. Characterization of Pulp Refiners by a C-Factor[J]. Nordic Pulp & Paper Res. J., 1990, 1: 3-8.
Crossref Google Scholar
[13]
Batchelor W, Elahimehr A, Martinez M, et al. A New Representation for Low Consistency Refining Data[C]//Fundamental Research Symposium, 2017.
Paper and Biomaterials
Volume 3 Issue 3,
July 2018
Pages 1-6
DOI: 10.26599/PBM.2018.9260015
Cite this article:
Kerekes RJ, McDonald JD. Fibre Treatment Uniformity in Pulp Refining. Paper and Biomaterials, 2018, 3(3): 1-6. https://doi.org/10.26599/PBM.2018.9260015

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Received: 15 June 2018
Accepted: 01 July 2018
Published: 01 July 2018
© 2018 Paper and Biomaterials Editorial Board

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