Abstract There have been increased interests on exporting wood pellets from Canada to Europe to meet the increased demand on biofuels in European countries. The wood pellet industry in Canada, especially in the west coastal region, has grown at an annual rate of more than 20% averaged over last 5 years due to the steady supply of wood residues. This paper attempted to analyze the fuel consumption and air emissions associated with the wood pellet production in British Columbia and export to Sweden based on a streamlined life cycle analysis, starting from tree harvesting for wood residue production to the shipping of wood pellets from Vancouver to Stockholm in Sweden. The results showed that about 7.2 GJ of energy is consumed for each tonne of wood pellets produced and shipped to Europe, representing about 39% of the total energy content of the wood pellets. Among those energies consumed over the life cycle, about 2.6 GJ is associated with long-distance ocean transportation. The ocean transportation is also the major contributor to environmental and health impacts, followed by the pellet production processes. The fossil fuel content, which quantifies the amount of fossil fuel consumed over the life cycle, for exported wood pellets ranged from 19% to 35%, depending on whether natural gas or wood residue is used in the drying operation during the wood pellet production stage. To reduce the fossil fuel content and the environmental impacts, wood residues should be used in the drying operation and, if possible, local market should be explored to reduce the energy consumption associated with wood pellet transportation over long distances.
[1]
Kornelis Blok,et al.
Renewable energy policies in the European Union
,
2006
.
[2]
M. Huijbregts,et al.
Priority assessment of toxic substances in life cycle assessment. Part I: calculation of toxicity potentials for 181 substances with the nested multi-media fate, exposure and effects model USES-LCA.
,
2000,
Chemosphere.
[3]
W. Carter.
Development of Ozone Reactivity Scales for Volatile Organic Compounds
,
1994
.
[4]
Sudhagar Mani,et al.
A systems analysis of biomass densification process
,
2005
.
[5]
Johan Vinterbäck,et al.
Pellets 2002: the first world conference on pellets.
,
2004
.
[6]
Shahab Sokhansanj,et al.
ECONOMICS OF PRODUCING FUEL PELLETS FROM BIOMASS
,
2006
.