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A master's thesis from Aalborg University
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Comparative Life Cycle Assesment of selected renewable electricity genaration technologies

Author

Term

4. Term

Education

Urban, Energy and Environmental Planning, Master

Publication year

2015

Submitted on

Abstract

This thesis compares the environmental performance of wind power and solar photovoltaic (PV) technologies in Denmark and Spain using a consequential life cycle assessment (LCA) consistent with ISO 14040/14044. The study evaluates impacts across all life cycle stages, compares results between the two geographical contexts, and identifies parameters that can improve performance. For Denmark, scenarios include changes in electricity demand within the Danish energy mix and an alternative assessment of system regulation needs, modeled with either hydro reservoir or natural gas to balance variable generation; the environmental implications of these options are included. For Spain, analogous demand-change modeling was not included due to data limitations. The main findings indicate that wind performs better than solar PV, that location has a considerable influence on results, and that manufacturing is the dominant contributor to impacts for both technologies. Extending plant lifetime and siting in favorable locations emerge as key levers for improving environmental performance.

Dette speciale sammenligner den miljømæssige præstation for vindkraft og solceller (PV) i Danmark og Spanien ved hjælp af en konsekvensbaseret livscyklusvurdering (LCA) i overensstemmelse med ISO 14040/14044. Studien vurderer påvirkninger på tværs af alle livscyklusfaser, sammenligner resultater mellem de to geografiske kontekster og identificerer parametre, der kan forbedre præstationen. For Danmark omfatter scenarierne ændringer i elforbruget inden for den danske energimix samt en alternativ vurdering af behovet for regulering af den variable produktion, modelleret med enten vandkraftmagasin eller naturgas; de miljømæssige konsekvenser af disse muligheder indgår. For Spanien blev tilsvarende modellering af efterspørgselsændringer ikke inkluderet på grund af datamangel. De væsentligste resultater viser, at vind klarer sig bedre end solceller, at geografisk placering har betydning, og at fremstillingsfasen er den dominerende kilde til påvirkninger for begge teknologier. En forlænget levetid for anlæg og en optimal lokalisering fremstår som centrale greb til at forbedre den miljømæssige performance.

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