CHEMISTRY AND DELIGNIFICATION KINETICS OF CANADIAN INDUSTRIAL HEMP

CHEMISTRY AND DELIGNIFICATION KINETICS OF CANADIAN INDUSTRIAL HEMP

Strategies to diversify the Canadian fibre supply have provided an impetus for investigating a wide variety of alternative fibres including industrial hemp (Cannabis sativa L.) in Canada. The alkaline delignification kinetics of Canadian hemp (bast, core and whole stem fractions), using micro pulpin...

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Bibliographic Details
Published in:Journal of wood chemistry and technology Vol. 21; no. 2; pp. 97 - 111
Main Authors: Correia, Fatima, Roy, D. N., Goel, Krishan
Format: Journal Article
Language:English
Published: Colchester Taylor & Francis Group 31-05-2001
Taylor & Francis
Subjects:
Applied sciences
Exact sciences and technology
Paper, paperboard, non wovens
Polymer industry, paints, wood
Pulp manufacturing
Wood. Paper. Non wovens
Canada
North America
America
Cannabis sativa
Chemical pulping
Dicotyledones
Angiospermae
Paper pulp
Cannabidaceae
Spermatophyta
Delignification
Kinetics
Manufacturing
Experimental study
Fiber crop
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Summary:Strategies to diversify the Canadian fibre supply have provided an impetus for investigating a wide variety of alternative fibres including industrial hemp (Cannabis sativa L.) in Canada. The alkaline delignification kinetics of Canadian hemp (bast, core and whole stem fractions), using micro pulping units was investigated. The nature of hemp (macromolecule proportions) was a major contributor to the chemical pulping behaviour shown in the results. The initial lignin and holocellulose content of the bast were 10% and 85%, respectively, and the core lignin and holocellulose contents were 21% and 72%, respectively. The bast fibre had a comparative pulping advantage over the core fibre region due to its chemical constitution. The activation energies for lignin removal from hemp are 41 kJ/mol, 76 kJ/mol and 76 kJ/mol for the bast, core and whole stem respectively. These are considerably lower than the reported values for traditional wood pulp species.
ISSN:0277-3813
1532-2319
DOI:10.1081/WCT-100104221