Abstract

There is currently great general interest in reducing the use of fossil-based materials. Fossil-based tarps are still widely used as cover for wood chip storage piles, causing additional waste or requiring further waste treatment in the supply chain. This study aimed to investigate the performance of an innovative bio-based wood chip pile cover compared to conventional treatments (plastic-covered and uncovered) in eastern Finnish conditions. The experiment evaluated the drying process during the storage of stemwood chips during 5.9 months of storage. It included the developments of temperature, moisture content, heating value, energy content, basic density, particle size distribution, and the dry matter losses of a total of six piles. As a result, the forest stemwood chips dried by 11%, with dry-matter losses of 4.3%, when covered with the bio-pile cover. Using the plastic covering, the forest stemwood chips dried by 22%, with dry matter losses of 2.9%. At the end of the experiment, the energy content in plastic-covered piles was 6.1% higher than uncovered piles and 3.1% higher than bio-pile-covered piles. While differences in the key drying performance parameters can be observed, the differences between uncovered piles and those covered with plastic tarps, as well as between the bio-based and the uncovered piles, were not statistically significant. We conclude that the bio-based cover, under the studied conditions, do not render better storage conditions than in current practices. However, our study indicates possible fossil-substitutional benefits by using a bio-based cover, which calls for further R&D work in this matter.

Highlights

  • The European Union (EU) is currently initiating various efforts in several sectors of the economy to shift from fossil-based energy sources to renewable energy alternatives

  • For chips produced from Norway spruce stemwood, the authors of [26] presented monthly dry-matter losses (DML) of 0.4% in a pile covered with a semi-permeable sheet and 1.1% in uncovered piles

  • Results showed that the energy content of the piles decreased during storage by an average of 5.0%, a decrease that is in line with the range of usable energy content loss presented for the storage of energy roundwood chip piles during wintertime [20]

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Summary

Introduction

The European Union (EU) is currently initiating various efforts in several sectors of the economy to shift from fossil-based energy sources to renewable energy alternatives. The high utilisation of wood fuel in energy production has highlighted the importance of wood fuel storage as part of the supply chain [2]. Serve as a crucial buffer because there is a seasonal variation of supply and demand. It can ensure the security of supply (see [3])

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