Abstract

The need to increase the use of renewable biomasses for energy supply, such as fuel pellets is significant. However, different types of biomasses have different mechanical properties to be pelletized, which entails a limitation in available raw materials for pellet producers. Within this study eleven different pure substances from biomasses were separately mixed with European beech and Scots pine, to identify its impact on the densification process. Beech and pine pellets were used as control materials against their corresponding pellets mixed with substances representing: cellulose, hemicelluloses, other polysaccharides, lignin, protein, and extractives. The mechanical properties were investigated as well as FT-IR and SEM analyses on the pellets. The results showed that the addition of the substances xylan and galactan created the hardest pellets for both pine and beech and that adding extractives to wood affects pine more than beech in relation to hardness. The FT-IR data could not provide clear explanations as to the variation in hardness and springback behavior through the identification of major functional groups in each pellet. It can be concluded that biomass residues rich in xylan and galactan increase pellet quality in terms of strength and durability without affecting the production process.

Highlights

  • The need for a reduction in the use of fossil resources and an increase in the utilization of all kinds of biomasses is clear [1]

  • Biomasses can be transported in a more energy-efficient way, as they become both homogenous in size and resistant to molds, with an increase in density [2], and the aforesaid problem related to dust formation can be effectively minimized

  • The demand for biomass pellets is increasing [3], and as the pellet market grows in size, the need for raw materials becomes greater

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Summary

Introduction

The need for a reduction in the use of fossil resources and an increase in the utilization of all kinds of biomasses is clear [1]. Biomasses can be difficult to handle for logistical reasons and their transportation is associated with high costs This is because, at their origin, biomasses have a low bulk density (weight per unit volume), molds and other microbes can grow on humid biomasses, and non-uniform sizes of biomass particles present logistical challenges. Biomass, such as sawdust, might present problems with dust formation, which may lead to explosions. The demand for biomass pellets is increasing [3], and as the pellet market grows in size, the need for raw materials becomes greater.

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