Life cycle assessment of a multi-megawatt wind turbine

At the present moment in time, renewable energy sources have achieved great significance for modern day society. The main reason for this boom is the need to use alternative sources of energy to fossil fuels which are free of CO 2 emissions and contamination. Among the current renewable energy sourc...

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Bibliographic Details
Published in:Renewable energy 2009-03, Vol.34 (3), p.667-673
Main Authors: Martínez, E., Sanz, F., Pellegrini, S., Jiménez, E., Blanco, J.
Format: Article
Language:English
Subjects:
Applied sciences
Eco-Indicators 99
Economic data
Energy
Energy economics
Energy policy
Exact sciences and technology
General, economic and professional studies
LCA
Natural energy
Wind energy
Wind power
Wind turbine
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Summary:At the present moment in time, renewable energy sources have achieved great significance for modern day society. The main reason for this boom is the need to use alternative sources of energy to fossil fuels which are free of CO 2 emissions and contamination. Among the current renewable energy sources, the growth of wind farms has been spectacular. Wind power uses the kinetic energy of the wind to produce a clean form of energy without producing contamination or emissions. The problem it raises is that of quantifying to what extent it is a totally clean form of energy. In this sense we have to consider not only the emissions produced while they are in operation, but also the contamination and environmental impact resulting from their manufacture and the future dismantling of the turbines when they come to the end of their working life. The aim of this study is to analyse the real impact that this technology has if we consider the whole life cycle. The application of the ISO 14040 standard [ISO. ISO 14040. Environmental management – life cycle assessment – principles and framework. Geneva, Switzerland: International Standard Organization; 1998.] allows us to make an LCA study quantifying the overall impact of a wind turbine and each of its components. Applying this methodology, the wind turbine is analysed during all the phases of its life cycle, from cradle to grave, with regard to the manufacture of its key components (through the incorporation of cut-off criteria), transport to the wind farm, subsequent installation, start-up, maintenance and final dismantling and stripping down into waste materials and their treatment.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2008.05.020