2014
DOI: 10.1073/pnas.1312753111
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Integrated life-cycle assessment of electricity-supply scenarios confirms global environmental benefit of low-carbon technologies

Abstract: Decarbonization of electricity generation can support climatechange mitigation and presents an opportunity to address pollution resulting from fossil-fuel combustion. Generally, renewable technologies require higher initial investments in infrastructure than fossil-based power systems. To assess the tradeoffs of increased up-front emissions and reduced operational emissions, we present, to our knowledge, the first global, integrated lifecycle assessment (LCA) of long-term, wide-scale implementation of electric… Show more

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Cited by 589 publications
(468 citation statements)
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References 26 publications
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“…The key challenge is to effectively combine backcasting LCSA 5 (BLCSA; Heijungs et al 2014 ) with forecasting LCSA (FLCSA) approaches (e.g. Hertwich et al 2014 ;Koning et al 2015 ) and eventually also product LCA (CLCA as well as ALCA) in such a way that policies and transitions towards a more sustainable future can be properly supported and monitored. 6 All our life cycle tools should be accompanied with proper ways of dealing with uncertainties of data, methodological choices, assumptions and scenarios and pref-5 Heijungs et al ( 2014 ) defi ned backcasting LCSA as exploring ways, in a life cycle perspective, to stay within normatively defi ned sustainability levels (e.g.…”
Section: Resultsmentioning
confidence: 99%
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“…The key challenge is to effectively combine backcasting LCSA 5 (BLCSA; Heijungs et al 2014 ) with forecasting LCSA (FLCSA) approaches (e.g. Hertwich et al 2014 ;Koning et al 2015 ) and eventually also product LCA (CLCA as well as ALCA) in such a way that policies and transitions towards a more sustainable future can be properly supported and monitored. 6 All our life cycle tools should be accompanied with proper ways of dealing with uncertainties of data, methodological choices, assumptions and scenarios and pref-5 Heijungs et al ( 2014 ) defi ned backcasting LCSA as exploring ways, in a life cycle perspective, to stay within normatively defi ned sustainability levels (e.g.…”
Section: Resultsmentioning
confidence: 99%
“…For policy development, we need to analyse all possible direct and indirect consequences of potential policy options using life cycle-based scenario analysis for which CLCA, BLCSA, FLCSA and other scenariobased life cycle approaches (e.g. Spielmann et al 2005 ;Hertwich et al 2014 ;Koning et al 2015 ) are best suited. For monitoring existing, accepted policies, we need clear black and white answers and no scenario-based ranges of answers; for this, ALCA seems better suited.…”
Section: Resultsmentioning
confidence: 99%
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“…The life-cycle environmental benefits of renewable energy technologies at the micro-level have been largely documented and compared to those of other technologies (Hertwich et al, 2015;Masanet et al, 2013;Nugent and Sovacool, 2014). Nevertheless, these findings do not necessarily reflect the environmental performance of these technologies from a macro-level perspective, i.e.…”
Section: The Cannibalisation Effectmentioning
confidence: 99%
“…accelerated shift toward renewable (low-carbon) energy technologies can be observed (International Energy Agency 2015). The large-scale implementation of renewable energy technologies, however, comes with increased use of mineral resources, such as copper for photovoltaic systems and iron for wind power plants (Hertwich et al 2014;Kleijn et al 2011;Pehlken et al 2017).…”
Section: Responsible Editor: Gian Luca Baldomentioning
confidence: 99%