Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition

The construction industry is responsible for a high percentage of the energy consumed on the planet and the emission of greenhouse gases, therefore it is considered necessary to rethink many of the processes that this industry carries out in order to reduce its environmental impact. For this, one of...
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Autor*in:	J.F. Luna-Tintos [verfasserIn] Carlos Cobreros [verfasserIn] Álvaro López-Escamilla [verfasserIn] Rafael Herrera-Limones [verfasserIn] Miguel Torres-García [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	solar decathlon life cycle assessment LCA prefabricated structures sustainability CO

Übergeordnetes Werk:	In: Energies - MDPI AG, 2008, 13(2020), 17, p 4311
Übergeordnetes Werk:	volume:13 ; year:2020 ; number:17, p 4311

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/en13174311

Katalog-ID:	DOAJ084735880

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author	J.F. Luna-Tintos
spellingShingle	J.F. Luna-Tintos misc solar decathlon misc life cycle assessment misc LCA misc prefabricated structures misc sustainability misc CO<sub<2</sub< misc Technology misc T Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition
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topic_title	Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition solar decathlon life cycle assessment LCA prefabricated structures sustainability CO<sub<2</sub<
topic	misc solar decathlon misc life cycle assessment misc LCA misc prefabricated structures misc sustainability misc CO<sub<2</sub< misc Technology misc T
topic_unstemmed	misc solar decathlon misc life cycle assessment misc LCA misc prefabricated structures misc sustainability misc CO<sub<2</sub< misc Technology misc T
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title	Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition
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title_sort	methodology to evaluate the embodied primary energy and co<sub<2</sub< production at each stage of the life cycle of prefabricated structural systems: the case of the solar decathlon competition
title_auth	Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition
abstract	The construction industry is responsible for a high percentage of the energy consumed on the planet and the emission of greenhouse gases, therefore it is considered necessary to rethink many of the processes that this industry carries out in order to reduce its environmental impact. For this, one of the paths could take into account the Life Cycle Assessment of the used materials, for which it is necessary to evaluate this aspect through indicators that allow the qualification and quantification of the weight of these environmental impacts. In this context, this article presents a methodological proposal for the quantitative evaluation of the embodied primary energy and CO<sub<2</sub< production at each stage of the life cycle of prefabricated structural systems, taking as case studies eight prototypes from the “Solar Decathlon” competition in its editions of Europe (2014), United States (2015) and Latin America (2015), through a Simplified Life Cycle Analysis, using the Eco Audit tool from CES Edupack. Through this analysis, conclusions are drawn about the optimization of a structural system with lower environmental demand and the possibilities of transferring knowledge from this competition to be applied in innovative systems of new housing models.
abstractGer	The construction industry is responsible for a high percentage of the energy consumed on the planet and the emission of greenhouse gases, therefore it is considered necessary to rethink many of the processes that this industry carries out in order to reduce its environmental impact. For this, one of the paths could take into account the Life Cycle Assessment of the used materials, for which it is necessary to evaluate this aspect through indicators that allow the qualification and quantification of the weight of these environmental impacts. In this context, this article presents a methodological proposal for the quantitative evaluation of the embodied primary energy and CO<sub<2</sub< production at each stage of the life cycle of prefabricated structural systems, taking as case studies eight prototypes from the “Solar Decathlon” competition in its editions of Europe (2014), United States (2015) and Latin America (2015), through a Simplified Life Cycle Analysis, using the Eco Audit tool from CES Edupack. Through this analysis, conclusions are drawn about the optimization of a structural system with lower environmental demand and the possibilities of transferring knowledge from this competition to be applied in innovative systems of new housing models.
abstract_unstemmed	The construction industry is responsible for a high percentage of the energy consumed on the planet and the emission of greenhouse gases, therefore it is considered necessary to rethink many of the processes that this industry carries out in order to reduce its environmental impact. For this, one of the paths could take into account the Life Cycle Assessment of the used materials, for which it is necessary to evaluate this aspect through indicators that allow the qualification and quantification of the weight of these environmental impacts. In this context, this article presents a methodological proposal for the quantitative evaluation of the embodied primary energy and CO<sub<2</sub< production at each stage of the life cycle of prefabricated structural systems, taking as case studies eight prototypes from the “Solar Decathlon” competition in its editions of Europe (2014), United States (2015) and Latin America (2015), through a Simplified Life Cycle Analysis, using the Eco Audit tool from CES Edupack. Through this analysis, conclusions are drawn about the optimization of a structural system with lower environmental demand and the possibilities of transferring knowledge from this competition to be applied in innovative systems of new housing models.
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Methodology to Evaluate the Embodied Primary Energy and CO<sub<2</sub< Production at Each Stage of the Life Cycle of Prefabricated Structural Systems: The Case of the Solar Decathlon Competition

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