Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources

Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources

Demands on forest bioenergy feedstock are expected to increase in many countries due to climate change mitigation. However, sustainable use of forest biomass resources can be ensured only if local and landscape conditions are taken into account, linking energy use to its resource base. The aim of th...

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Main Authors: X. Pang, R. Trubins, V. Lekavicius, A. Galinis, G. Mozgeris, G. Kulbokas, U. Mörtberg
Format: Article
Language:English
Published: Elsevier 2019-04-01
Series:Energy Strategy Reviews
Online Access:http://www.sciencedirect.com/science/article/pii/S2211467X19300318
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spelling doaj-525c7d6b99a54866ab9a6ab24ed2f8662020-11-24T21:30:54ZengElsevierEnergy Strategy Reviews2211-467X2019-04-0124244253Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resourcesX. Pang0R. Trubins1V. Lekavicius2A. Galinis3G. Mozgeris4G. Kulbokas5U. Mörtberg6KTH Royal Institute of Technology, Stockholm, Sweden; Corresponding author.Swedish University of Agricultural Sciences, Alnarp, SwedenLithuanian Energy Institute, Kaunas, LithuaniaLithuanian Energy Institute, Kaunas, LithuaniaAleksandras Stulginskis University, Kaunas Region, LithuaniaAleksandras Stulginskis University, Kaunas Region, LithuaniaKTH Royal Institute of Technology, Stockholm, SwedenDemands on forest bioenergy feedstock are expected to increase in many countries due to climate change mitigation. However, sustainable use of forest biomass resources can be ensured only if local and landscape conditions are taken into account, linking energy use to its resource base. The aim of this study was to analyse the forest biomass potential for Lithuania's energy pathways, while comparing the projected demand of forest bioenergy feedstock with resource projections. This was performed using the Landscape simulation and Ecological Assessment (LEcA) tool and the energy model MESSAGE. Biomass demand can be met up to 2050, after which demands under a Biomass Low pathway can still be met by the domestic forest resource if other wood uses are reduced, while Biomass High leads to a biomass deficit regarding domestic forest resources. Information exchange between the energy model and the LEcA tool enables an integrated sustainability assessment, and may contribute to a sustainable and efficient use of forest as a bioenergy feedstock resource. Keywords: Forest bioenergy feedstock, Environmental restrictions, Resource efficiency, Integrated resource assessment, Integrated sustainability assessmenthttp://www.sciencedirect.com/science/article/pii/S2211467X19300318
collection DOAJ
language English
format Article
sources DOAJ
author X. Pang
R. Trubins
V. Lekavicius
A. Galinis
G. Mozgeris
G. Kulbokas
U. Mörtberg
spellingShingle X. Pang
R. Trubins
V. Lekavicius
A. Galinis
G. Mozgeris
G. Kulbokas
U. Mörtberg
Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
Energy Strategy Reviews
author_facet X. Pang
R. Trubins
V. Lekavicius
A. Galinis
G. Mozgeris
G. Kulbokas
U. Mörtberg
author_sort X. Pang
title Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
title_short Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
title_full Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
title_fullStr Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
title_full_unstemmed Forest bioenergy feedstock in Lithuania – Renewable energy goals and the use of forest resources
title_sort forest bioenergy feedstock in lithuania – renewable energy goals and the use of forest resources
publisher Elsevier
series Energy Strategy Reviews
issn 2211-467X
publishDate 2019-04-01
description Demands on forest bioenergy feedstock are expected to increase in many countries due to climate change mitigation. However, sustainable use of forest biomass resources can be ensured only if local and landscape conditions are taken into account, linking energy use to its resource base. The aim of this study was to analyse the forest biomass potential for Lithuania's energy pathways, while comparing the projected demand of forest bioenergy feedstock with resource projections. This was performed using the Landscape simulation and Ecological Assessment (LEcA) tool and the energy model MESSAGE. Biomass demand can be met up to 2050, after which demands under a Biomass Low pathway can still be met by the domestic forest resource if other wood uses are reduced, while Biomass High leads to a biomass deficit regarding domestic forest resources. Information exchange between the energy model and the LEcA tool enables an integrated sustainability assessment, and may contribute to a sustainable and efficient use of forest as a bioenergy feedstock resource. Keywords: Forest bioenergy feedstock, Environmental restrictions, Resource efficiency, Integrated resource assessment, Integrated sustainability assessment
url http://www.sciencedirect.com/science/article/pii/S2211467X19300318
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AT vlekavicius forestbioenergyfeedstockinlithuaniarenewableenergygoalsandtheuseofforestresources
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AT gmozgeris forestbioenergyfeedstockinlithuaniarenewableenergygoalsandtheuseofforestresources
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AT umortberg forestbioenergyfeedstockinlithuaniarenewableenergygoalsandtheuseofforestresources
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