Abstract
The results of enzymatic hydrolysis of birch and beech kraft cellulosic pulps indicate that they may be promising feedstocks for fermentation processes including biofuel manufacturing. The aim of this study was to investigate whether birch and beech wood require the same degree of delignification by kraft pulping as pine wood. The differences observed in the efficiency of hydrolysis for the raw materials tested suggest that the differences in the anatomical structure of the examined wood in relation to pine wood is essential for the efficiency of the enzymatic hydrolysis process. The yields of glucose and other reducing sugars obtained from the birch and beech cellulosic pulps were similar (up to around 75% and 98.3% dry weight, and 76% and 98.6% dry weight, respectively). The highest glucose yields from cellulose contained in the birch and beech pulp were around 81.2% (at a Kappa number of 28.3) and 83.1% (at a Kappa number of 30.4), respectively. The maximum glucose yields and total reducing sugars of birch wood on a dry weight basis (39.8% and 52.1%, respectively) were derived from the pulp at a Kappa number of 28.3, while the highest yields of glucose and total reducing sugars of beech wood on a dry weight basis (around 36.9% and 48.2%, respectively) were reached from the pulp at a Kappa number of 25.3. To obtain the highest glucose yields and total reducing sugars of a wood on a dry weight basis, total lignin elimination from the birch and beech pulps was not necessary. However more in-depth delignification of birch and beech wood is required than for pine wood.
Highlights
In the European paper industry, birch pulps are the most widely used hardwood pulps
The activities of cellulases and xylanases were demonstrated by the commercial preparation of NS-22086, used in the study for the hydrolytic process of birch and beech cellulosic pulps and birch and beech woodchips (0.43–0.8 mm)
The results prove that complete delignification is not required to enhance glucose yields from cellulose
Summary
In the European paper industry, birch pulps are the most widely used hardwood pulps. Beech pulps are often used as a substitute for birch pulps. Birch and beech wood contain around 40% and 41% dry weight (DW) cellulose and 36% and 33% DW hemicelluloses, respectively, and less lignin DW, respectively) than softwoods (above 25% DW) [1,2,3,4,5,6] Because of their high holocellulose content (more than 70% on a dry weight basis) and their high availability, birch and beech woods are excellent raw materials for papermaking and promising feedstocks for biotechnology [7,8,9]. The use of lignocellulosic materials instead of starch and plant oils for the production of biofuels along with other bioproducts is attractive as it does not compete with food production
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