Mobilization of biomass for energy from boreal forests in Finland & Russia under present sustainable forest management certification and new sustainability requirements for solid biofuels

Forest biomass is one of the main contributors to the EU's renewable energy target of 20% gross final energy consumption in 2020 (Renewable Energy Directive). Following the RED, new sustainability principles are launched by the European energy sector, such as the Initiative Wood Pellet Buyers (...

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Bibliographic Details
Published in:Biomass & bioenergy 2014-12, Vol.71, p.23-36
Main Authors: Sikkema, R., Faaij, A.P.C., Ranta, T., Heinimö, J., Gerasimov, Y.Y., Karjalainen, T., Nabuurs, G.J.
Format: Article
Language:English
Subjects:
alternatives
bioenergy
countries
environmental impacts
fuel
potentials
procurement
products
resources
wood
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Summary:Forest biomass is one of the main contributors to the EU's renewable energy target of 20% gross final energy consumption in 2020 (Renewable Energy Directive). Following the RED, new sustainability principles are launched by the European energy sector, such as the Initiative Wood Pellet Buyers (IWPB or SBP). The aim of our study is the investigation of the quantitative impacts from IWPB's principles for forest biomass for energy only. We deploy a bottom up method that quantifies the supplies and the costs from log harvest until forest chip delivery at a domestic consumer. We have a reference situation with existing national (forest) legislation and voluntary certification schemes (scenario 1) and a future situation with additional criteria based on the IWPB principles (scenario 2). Two country studies were selected for our (2008) survey: one in Finland with nearly 100% certification and one in Leningrad province with a minor areal share of certification in scenario 1. The sustainable potential of forest resources for energy is about 54 Mm super(3) (385 PJ) in Finland and about 13.5 Mm super(3) (95 PJ) in Leningrad in scenario 1 without extra criteria. The potential volumes reduce considerably by maximum 43% respectively 39% after new criteria from the IWPB, like a minimum use of sawlogs, stumps and slash for energy, and by an increased area of protected forests (scenario 2A Maximum extra restrictions). In case sawlogs can be used, but instead ash recycling is applied after a maximum stump and slash recovery (scenario 2B Minimum extra restrictions), the potential supply is less reduced: 5% in Finland and 22% in Leningrad region. The estimated reference costs for forest chips are between [Euro18 and [Euro45 solid m super(-3) in Finland and between [Euro7 and [Euro33 solid m super(-3) in the Leningrad region. In scenario 2A, the costs will mainly increase by [Euro7 m super(-3) for delimbing full trees (Finland), and maximum [Euro0.3 m super(-3) for suggested improved forest management (Leningrad region). In scenario 2B, when ash recycling is applied, costs increase by about [Euro0.3 to [Euro1.6 m super(-3), depending on the rate of soil contamination. This is an increase of 2%, on top of the costs in scenario 2A.
ISSN:0961-9534
1873-2909
DOI:10.1016/j.biombioe.2013.11.010