Abstract
The depletion of fossil resources is driving forward the search for new and alternative renewable feedstocks in the production of renewable chemicals, which could replace the petroleum-based ones. One such feedstock is pine (Pinus sylvestris) sawdust, which is generated enormous amounts in Finnish sawmills yearly. However, prior to the utilization in high-value applications, it needs to be fractionated into its constituents. In this work, the objective was to produce monomeric hemicellulose sugars from pine sawdust without degrading cellulose or lignin simultaneously. The influence of the reaction temperature and time, as well as acid type and concentration, was studied. Based on the results, the temperature was the main distinguishing feature between cellulose and hemicellulose hydrolysis. Promising results were achieved with acid mixtures consisting of 0.5% sulfuric acid and 5.5 or 10% formic acid. At 120 °C with the reaction time of 2 h, the mixtures produced hemicellulose sugars with the yields of 62%. These yields were comparable to the yields achieved in similar conditions with 1.5% sulfuric acid or 40% formic acid. Therefore, by using an acid mixture, the concentration of a single acid could be reduced significantly. The solid fractions remaining after the hydrolysis consisted mainly of cellulose and lignin, which verified the selectivity of the hemicellulose hydrolysis. Also, the fractionation of the remaining solids confirmed that the utilization of all the sawdust components is feasible.
Highlights
Scots pine is the main raw material used by sawmills in northern countries, like Finland and Sweden
If the amount of total glucose was higher than the maximum amount of glucose in hemicellulose (7.7 mol%), it indicated that the cellulose had hydrolyzed
Hemicellulose from pine sawdust was selectively hydrolyzed into monomeric sugars using moderate reaction temperature and time as well as low acid concentrations
Summary
Scots pine is the main raw material used by sawmills in northern countries, like Finland and Sweden. The utilization of wood produces enormous amounts of side streams like sawdust. Ten million m3 of sawdust and woodchips is generated at sawmills in Finland yearly [1]. Sawdust is utilized as pellets for energy production, but burning does not allow the full utilization of the potential in sawdust structure. Sawdust and other side streams of lignocellulosic biomasses (LCBs) should be utilized otherwise in higher-value applications. LCBs are, e.g. an excellent source of platform sugars, which can be further refined to fuels
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