Guide for evaluation of the sustainability of formworks

Descripción del Articulo

El continuous growth of the construction industry is directly linked to significant environmental impacts. According to the United Nations Environment Programme (UNEP) in 2020, the operation and construction of buildings contribute to 38% of all carbon dioxide (CO2) emissions related to energy. UNEP...

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Detalles Bibliográficos
Autores: Benavides, Stefany, Miu, Sebastian, Peña, Pablo
Formato: artículo
Fecha de Publicación:2024
Institución:Universidad Peruana de Ciencias Aplicadas
Repositorio:UPC-Institucional
Lenguaje:inglés
OAI Identifier:oai:repositorioacademico.upc.edu.pe:10757/675893
Enlace del recurso:http://hdl.handle.net/10757/675893
Nivel de acceso:acceso embargado
Materia:sustainability of formworks
construction industry
https://purl.org/pe-repo/ocde/ford#2.01.00
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dc.title.es_PE.fl_str_mv Guide for evaluation of the sustainability of formworks
title Guide for evaluation of the sustainability of formworks
spellingShingle Guide for evaluation of the sustainability of formworks
Benavides, Stefany
sustainability of formworks
construction industry
https://purl.org/pe-repo/ocde/ford#2.01.00
title_short Guide for evaluation of the sustainability of formworks
title_full Guide for evaluation of the sustainability of formworks
title_fullStr Guide for evaluation of the sustainability of formworks
title_full_unstemmed Guide for evaluation of the sustainability of formworks
title_sort Guide for evaluation of the sustainability of formworks
author Benavides, Stefany
author_facet Benavides, Stefany
Miu, Sebastian
Peña, Pablo
author_role author
author2 Miu, Sebastian
Peña, Pablo
author2_role author
author
dc.contributor.author.fl_str_mv Benavides, Stefany
Miu, Sebastian
Peña, Pablo
dc.subject.es_PE.fl_str_mv sustainability of formworks
construction industry
topic sustainability of formworks
construction industry
https://purl.org/pe-repo/ocde/ford#2.01.00
dc.subject.ocde.none.fl_str_mv https://purl.org/pe-repo/ocde/ford#2.01.00
description El continuous growth of the construction industry is directly linked to significant environmental impacts. According to the United Nations Environment Programme (UNEP) in 2020, the operation and construction of buildings contribute to 38% of all carbon dioxide (CO2) emissions related to energy. UNEP emphasize the need for a three-fold strategy to address this issue: aggressively reduce energy demand in built areas, decarbonize the energy sector, and implement material strategies that reduce carbon emissions throughout the lifecycle of products. To quantify the Carbon Footprint, an approach called Life Cycle Assessment (LCA) is used, which involves assessing the impact on climate change by considering the entire value chain of a product or service, including inputs and greenhouse gas (GHG) emissions. To evaluate the sustainability of a formwork, it is necessary to evaluate the carbon footprint of the formwork at different stages: I. Understanding the stages and processes of the life cycle of a construction material. II. Identifying the stages and processes of the life cycle of a formwork in which GHG emissions are generated. III. Selecting the stages and their respective processes to evaluate in the life cycle of a formwork. IV. Recognizing the resources and raw materials consumed capable of emitting GHGs. V. Quantifying the amount of resources and raw materials required for the production of a formwork unit. VI. Finding the equivalent CO2 emission factor for the required resources and raw materials. VII. Estimating the carbon footprint for the manufacturing of a formwork unit. It can be concluded that in order to estimate the carbon footprint of manufacturing a formwork unit, it is necessary to use the following formula: Carbon footprint = Activity Data × Emission Factor. Additionally, it is necessary to calculate the carbon footprint produced by the consumption of electricity and water during the manufacturing process of the metal formwork by multiplying the quantities consumed per formwork unit by their respective emission factors and adding both values.
publishDate 2024
dc.date.accessioned.none.fl_str_mv 2024-09-28T04:16:30Z
dc.date.available.none.fl_str_mv 2024-09-28T04:16:30Z
dc.date.issued.fl_str_mv 2024-08-19
dc.type.es_PE.fl_str_mv info:eu-repo/semantics/article
format article
dc.identifier.issn.none.fl_str_mv 0094243X
dc.identifier.doi.none.fl_str_mv 10.1063/5.0231434
dc.identifier.uri.none.fl_str_mv http://hdl.handle.net/10757/675893
dc.identifier.eissn.none.fl_str_mv 15517616
dc.identifier.journal.es_PE.fl_str_mv AIP Conference Proceedings
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dc.identifier.scopusid.none.fl_str_mv SCOPUS_ID:85202503610
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identifier_str_mv 0094243X
10.1063/5.0231434
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AIP Conference Proceedings
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url http://hdl.handle.net/10757/675893
dc.language.iso.es_PE.fl_str_mv eng
language eng
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dc.publisher.es_PE.fl_str_mv American Institute of Physics
dc.source.none.fl_str_mv reponame:UPC-Institucional
instname:Universidad Peruana de Ciencias Aplicadas
instacron:UPC
instname_str Universidad Peruana de Ciencias Aplicadas
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dc.source.journaltitle.none.fl_str_mv AIP Conference Proceedings
dc.source.volume.none.fl_str_mv 3203
dc.source.issue.none.fl_str_mv 1
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spelling d6bf18b41769b5c2e7a267661795d73e3000ed2da90582dea5299e8b6c6cbe1a81b300d4bcb41898e0cc8205290c0413d4f7beBenavides, StefanyMiu, SebastianPeña, Pablo2024-09-28T04:16:30Z2024-09-28T04:16:30Z2024-08-190094243X10.1063/5.0231434http://hdl.handle.net/10757/67589315517616AIP Conference Proceedings2-s2.0-85202503610SCOPUS_ID:852025036100000 0001 2196 144XEl continuous growth of the construction industry is directly linked to significant environmental impacts. According to the United Nations Environment Programme (UNEP) in 2020, the operation and construction of buildings contribute to 38% of all carbon dioxide (CO2) emissions related to energy. UNEP emphasize the need for a three-fold strategy to address this issue: aggressively reduce energy demand in built areas, decarbonize the energy sector, and implement material strategies that reduce carbon emissions throughout the lifecycle of products. To quantify the Carbon Footprint, an approach called Life Cycle Assessment (LCA) is used, which involves assessing the impact on climate change by considering the entire value chain of a product or service, including inputs and greenhouse gas (GHG) emissions. To evaluate the sustainability of a formwork, it is necessary to evaluate the carbon footprint of the formwork at different stages: I. Understanding the stages and processes of the life cycle of a construction material. II. Identifying the stages and processes of the life cycle of a formwork in which GHG emissions are generated. III. Selecting the stages and their respective processes to evaluate in the life cycle of a formwork. IV. Recognizing the resources and raw materials consumed capable of emitting GHGs. V. Quantifying the amount of resources and raw materials required for the production of a formwork unit. VI. Finding the equivalent CO2 emission factor for the required resources and raw materials. VII. Estimating the carbon footprint for the manufacturing of a formwork unit. It can be concluded that in order to estimate the carbon footprint of manufacturing a formwork unit, it is necessary to use the following formula: Carbon footprint = Activity Data × Emission Factor. 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Guide for evaluation of the sustainability of formworks
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