Abstract
We set out to determine the particle-size distribution, the fiber, the bark and the leaves content, the heating value, the CNH and the ash content of a wide sample of wood chips, collected from 10 forestry and 10 agroforestry production sources. This sampling focused on two main production types: forestry (Full Tree System—FTS—and logging residues—LR) and agroforestry (Short Rotation Coppice—SRC). For the forestry production wood chips from coniferous and broadleaf species were considered. For the agroforestry production wood chips from poplar plantations were examined (different clones with two different harvesting intervals). Overall, we collected 400 samples. Particle size distribution was determined with an automatic screening device on 200 samples. The higher heating value was determined on 200 subsamples using an adiabatic bomb calorimeter. The CNH and the ash content was ascertained on another 200 subsamples. FTS and SRC (with three year old sprouts) offered the best quality, with high fiber content (71%–80%), favorable particle-size distribution and good energetic parameters. On the contrary, both logging residues and SRC (with two year old sprouts) presented a high bark content (18%–27%) and occasionally a mediocre particle-size distribution, being often too rich in fines (6%–12%), but the energetic parameters are in the normal range.
Highlights
A recent study on timber trade in the World, based on FAO statistics [1], revealed a rising trend in the use of the wood for various markets, especially in response to energy demand [2]
The chips produced in the full tree harvesting system (FTS) samples contain 79.2% of wood fiber, 13.3% of bark, 3.2% of twigs and 4.3% of “other”
The chips produced in the 100 logging residues (LR) samples contain 74.1% of wood fiber, 18.4% of bark, 5.9% of twigs and 1.6% of “other”
Summary
A recent study on timber trade in the World, based on FAO statistics [1], revealed a rising trend in the use of the wood for various markets, especially in response to energy demand [2]. According to the analysis carried out by the European Renewable Energy Council, the EU aims for a 100% renewable energy future by 2050, where biomass will potentially supply about 36% of the total. Wood biomass is available in many forms and in all parts of the World, allowing the deployment of bioenergy almost everywhere, once the useful sources have been identified and assessed [6]. This same diversity makes biomass a complex and difficult fuel
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