Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction

In this study a comparative life cycle assessment (LCA) was conducted according to a ‘cradle-to-laid’ approach to evaluate the potential environmental impacts related to the use of recycled concrete aggregates (RCAs) as a partial replacement of coarse natural aggregates in the production of Hot Mix...

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Autores:
Santos, Joao
Vega A, Daniela L
Martinez Arguelles, Gilberto
Tipo de recurso:
Article of journal
Fecha de publicación:
2020
Institución:
Corporación Universidad de la Costa
Repositorio:
REDICUC - Repositorio CUC
Idioma:
eng
OAI Identifier:
oai:repositorio.cuc.edu.co:11323/7840
Acceso en línea:
https://hdl.handle.net/11323/7840
https://doi.org/10.1080/10298436.2020.1778694
https://repositorio.cuc.edu.co/
Palabra clave:
Life cycle assessment (LCA)
hot mix asphalt (HMA)
recycled concrete aggregate (RCA)
sustainable pavement construction and management
Rights
openAccess
License
Attribution-NonCommercial-NoDerivatives 4.0 International
id RCUC2_ce45532b5536d29c240a09fdad639f21
oai_identifier_str oai:repositorio.cuc.edu.co:11323/7840
network_acronym_str RCUC2
network_name_str REDICUC - Repositorio CUC
repository_id_str
dc.title.spa.fl_str_mv Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
title Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
spellingShingle Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
Life cycle assessment (LCA)
hot mix asphalt (HMA)
recycled concrete aggregate (RCA)
sustainable pavement construction and management
title_short Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
title_full Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
title_fullStr Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
title_full_unstemmed Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
title_sort Life cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction
dc.creator.fl_str_mv Santos, Joao
Vega A, Daniela L
Martinez Arguelles, Gilberto
dc.contributor.author.spa.fl_str_mv Santos, Joao
Vega A, Daniela L
Martinez Arguelles, Gilberto
dc.subject.spa.fl_str_mv Life cycle assessment (LCA)
hot mix asphalt (HMA)
recycled concrete aggregate (RCA)
sustainable pavement construction and management
topic Life cycle assessment (LCA)
hot mix asphalt (HMA)
recycled concrete aggregate (RCA)
sustainable pavement construction and management
description In this study a comparative life cycle assessment (LCA) was conducted according to a ‘cradle-to-laid’ approach to evaluate the potential environmental impacts related to the use of recycled concrete aggregates (RCAs) as a partial replacement of coarse natural aggregates in the production of Hot Mix Asphalt (HMA). Specifically, three percentages of RCA replacements were analyzed: 15, 30 and 45%. Primary data collected mainly through surveys performed in Colombian contractors from the region of Barranquila were used to model the foreground system. The SimaPro 8.4.0 software was used for modelling the processes analyzed in the case study and all the life cycle inputs and outputs related to the functional unit were characterised during life cycle impact assessment (LCIA) phase into potential impacts according to the TRACI v.2.1 impact assessment methodology. The results of the case study showed that the mixtures incorporating 15 and 30% of RCA can be considered as eco-friendly alternatives to the conventional mixture (i.e. no RCA content), as both allow reductions in all impact categories scores. On the contrary, the mixture that contains 45% of RCA denoted a lower environmental performance than that of the conventional mixture.
publishDate 2020
dc.date.issued.none.fl_str_mv 2020
dc.date.accessioned.none.fl_str_mv 2021-02-05T23:16:21Z
dc.date.available.none.fl_str_mv 2021-02-05T23:16:21Z
dc.type.spa.fl_str_mv Artículo de revista
dc.type.coar.fl_str_mv http://purl.org/coar/resource_type/c_2df8fbb1
dc.type.coar.spa.fl_str_mv http://purl.org/coar/resource_type/c_6501
dc.type.content.spa.fl_str_mv Text
dc.type.driver.spa.fl_str_mv info:eu-repo/semantics/article
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dc.type.version.spa.fl_str_mv info:eu-repo/semantics/acceptedVersion
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dc.identifier.uri.spa.fl_str_mv https://hdl.handle.net/11323/7840
dc.identifier.doi.spa.fl_str_mv https://doi.org/10.1080/10298436.2020.1778694
dc.identifier.instname.spa.fl_str_mv Corporación Universidad de la Costa
dc.identifier.reponame.spa.fl_str_mv REDICUC - Repositorio CUC
dc.identifier.repourl.spa.fl_str_mv https://repositorio.cuc.edu.co/
url https://hdl.handle.net/11323/7840
https://doi.org/10.1080/10298436.2020.1778694
https://repositorio.cuc.edu.co/
identifier_str_mv Corporación Universidad de la Costa
REDICUC - Repositorio CUC
dc.language.iso.none.fl_str_mv eng
language eng
dc.relation.references.spa.fl_str_mv Albayati, A. , et al. , 2018. A sustainable pavement concrete using warm mix asphalt and hydrated lime treated recycled concrete aggregates. Sustainable Materials and Technologies , 20, e00081
Androjic, I. , et al. , 2020. Analysis of impact of aggregate moisture content on energy demand during the production of hot mix asphalt (HMA). Journal of Cleaner Production , 244, 118868
Arabani, M. and Azarhoosh, A.R. , 2012. The effect of recycled concrete aggregate and steel slag on the dynamic properties of asphalt mixtures. Construction and Building Materials , 35, 1–7.
Azarijafari, H. , Yahia, A. , and Amor, M.B. , 2016. Life cycle assessment of pavements: reviewing research challenges and opportunities. Journal of Cleaner Production , 112, 2187–2197
Balaguera, A. , et al. , 2018. Life cycle assessment of road construction alternative materials: a literature review. Resources, Conservation & Recycling , 132, 37–48.
Bare, J. , 2012. Tool for the reduction and assessment of chemical and other environmental impacts (TRACI), Version 2.1 – User’s Manual. EPA/600/R-12/554, (July).
Bonicelli, A. , et al. , 2017. Experimental study on the use of rejuvenators and plastomeric polymers for improving durability of high RAP content asphalt mixtures. Construction and Building Materials , 155, 37–44
Braga, A.M. , Silvestre, J.D. , and de Brito, J. , 2017. Compared environmental and economic impact from cradle to gate of concrete with natural and recycled coarse aggregates. Journal of Cleaner Production , 162, 529–543
Bressi, S. , et al. , 2019. A comparative environmental impact analysis of asphalt mixtures containing crumb rubber and reclaimed asphalt pavement using life cycle assessment.
Castro, A. , et al. , 2019. Mechanical properties of cold recycled bituminous mixes with crumb rubber. IOP Conference Series: Materials Science and Engineering , 471 (10), 102044.
Clavreul, Julie , Guyonnet, Dominique , and Christensen, Thomas H. , 2012. Quantifying uncertainty in LCA-modelling of waste management systems. Waste Management , 32 (12), 2482–2495
Colangelo, F. , et al. , 2018. Life cycle assessment of recycled concretes: a case study in southern Italy. Science of the Total Environment , 615, 1506–1517.
Cupo-Pagano, M. , et al. , 1994. Use of building demolition waste for asphalt mixes: first results. Energy, environment and technological innovation. In: Proceedings of III International Congress, 203–8.
EIA , 2017. CO2 emissions from fuel combustion 2017 highlights
Estanqueiro, B. , et al. , 2016. Environmental life cycle assessment of coarse natural and recycled aggregates for concrete.
Federal Highway Administration Research and Technology , 2016. User guidelines for waste and byproduct materials in pavement construction. Available from: https://www.fhwa.dot.gov/publications/research/infrastructure/structures/97148/rap131.cfm .
Gallego, J. and Toledano, M. , 2010. Asphalt mixtures with construction and demolition debris (January).
Harvey, J.T. , et al. , 2016. Pavement life cycle assessment framework (No. FHWA-HIF-16-014). United States. Federal Highway Administration.
Hossain, M.U. , et al. , 2016. Comparative environmental evaluation of aggregate production from recycled waste materials and virgin sources by LCA.
INVIAS , 2013. Secciones 700 y 800 – Materiales y mezclas asfálticas y prospección de pavimentos (Primera parte)
INVIAS , 2014a. ‘CAPÍTULO 3 - AFIRMADOS, SUBBASES Y BASES’
INVIAS , 2014b. Capítulo 4 – Pavimentos Asfálticos .
Inyim, P. , et al. , 2016. Environmental assessment of pavement infrastructure: a systematic review. Journal of Environmental Management , 176, 128–138.
ISO , 2006. ISO 14040:2006 Environment management- Life cycle assessment- Principles and framework.
Jiang, R. and Wu, P. , 2019. Estimation of environmental impacts of roads through life cycle assessment: a critical review and future directions. Transportation Research Part D: Transport and Environment , 77, 148–163.
Jiménez, C. , et al. , 2015. LCA of recycled and conventional concretes designed using the equivalent mortar volume and classic methods.
Kim, M. , et al. , 2018. Fatigue performance of asphalt mixture containing recycled materials and warm-mix technologies under accelerated loading and four point bending beam test.
Landi, D. , et al. , 2020. Comparative life cycle assessment of standard, cellulose-reinforced and end of life tires fiber-reinforced hot mix asphalt mixtures.
Laurance, W.F. , et al. , 2014. A global strategy for road building. Nature , 513, 229–232
Li, J. , et al. , 2019. Life cycle assessment and life cycle cost analysis of recycled solid waste materials in highway pavement: a review. Journal of Cleaner Production , 233, 1182–1206.
Lu, W. and Yuan, H. , 2011. A framework for understanding waste management studies in construction. Waste Management , 31 (6), 1252–1260.
Marcilio, G.P. , et al. , 2018. Analysis of greenhouse gas emissions in the road freight transportation using simulation. Journal of Cleaner Production , 170, 298–309.
Marinković, S. , et al. , 2010. Comparative environmental assessment of natural and recycled aggregate concrete. Waste Management , 30 (11), 2255–2264.
Martinez-Arguelles, G. , Acosta, M.P. , et al. , 2019b. Life cycle assessment of natural and recycled concrete aggregate production for road pavements applications in the Northern region of Colombia: case study
Martinez-Arguelles, G. , Dugarte, M. , et al. , 2019a. Characterization of recycled concrete aggregate as potential replacement of natural aggregate in asphalt pavement.
Mills-Beale, J. and You, Z. , 2010. The mechanical properties of asphalt mixtures with recycled concrete aggregates. Construction and Building Materials , 24 (3), 230–235
National Administrative Department of Statistics DANE , 2012. Direction of statistical production methodology DIMPE, 1–53.
Parajuli, S.P. , et al. , 2011. A comparative life cycle assessment (LCA) of using virgin crushed aggregate (VCA) and recycled waste concrete aggregate (RCA) in road construction.
Paranavithana, S. and Mohajerani, A. , 2006. Effects of recycled concrete aggregates on properties of asphalt concrete. Resources, Conservation and Recycling , 48 (1), 1–12.
Pasandín, A.R. , and Pérez, I. , 2014. Effect of ageing time on properties of hot-mix asphalt containing recycled concrete aggregates. Construction and Building Materials , 52, 284–293.
Pasandín, A.R. and Pérez, I. , 2015. Overview of bituminous mixtures made with recycled concrete aggregates. Construction and Building Materials , 74, 151–161.
Praticò, F.G. , et al. , 2020. Energy and environmental life cycle assessment of sustainable pavement materials and technologies for urban roads. Sustainability , 12, 704.
PRé Consultants , 2014. SimaPro.
Rosado, L.P. , et al. , 2017. Life cycle assessment of natural and mixed recycled aggregate production in Brazil. Journal of Cleaner Production , 151, 634–642
Saberi, K.F. , Fakhri, M. , and Azami, A. , 2017. Evaluation of warm mix asphalt mixtures containing reclaimed asphalt pavement and crumb rubber. Journal of Cleaner Production , 165, 1125–1132.
Santero, N.J. , Masanet, E. , and Horvath, A. , 2011a. Life-cycle assessment of pavements. Part I: critical review. Resources, Conservation & Recycling , 55 (9–10), 801–809.
Santero, N.J. , Masanet, E. , and Horvath, A. , 2011b. Life-cycle assessment of pavements Part II: filling the research gaps. Resources, Conservation & Recycling , 55 (9–10), 810–818
Santos, J. , et al. , 2015b. A life cycle assessment of in-place recycling and conventional pavement construction and maintenance practices.
Santos, J. , et al. , 2018. Life cycle assessment of low temperature asphalt mixtures for road pavement surfaces: a comparative analysis
Santos, J. , Ferreira, A. , and Flintsch, G. , 2015a. A life cycle assessment model for pavement management: road pavement construction and management in Portugal.
Schrijvers, D.L. , Loubet, P. , and Sonnemann, G. , 2016. Developing a systematic framework for consistent allocation in LCA.
Shi, X. , et al. , 2019. Economic input-output life cycle assessment of concrete pavement containing recycled concrete aggregate.
Thenoux, G. , González, Á. , and Dowling, R. , 2007. Energy consumption comparison for different asphalt pavements rehabilitation techniques used in Chile.
Universidad De Costa Rica , 2015. PITRA PAVE 1.0.0 – Software de multicapa elástica.
Vega Araujo, D.L. , Martinez-Arguelles, G. , and Santos, J. , 2019. Life cycle assessment of warm mix asphalt with recycled concrete aggregate.
Wang, H. and Gangaram, R. , 2014. Life cycle assessment of asphalt pavement maintenance (No. CAIT-UTC-013).
West, R. , et al. , 2014. Field performance of warm mix asphalt technologies (National Cooperative Highway Research Program Report No. 779) .
Zhang, Z. , et al. , 2016. Key performance properties of asphalt mixtures with recycled concrete aggregate from low strength concrete.
Zhang, Y. , et al. , 2019. A review of life cycle assessment of recycled aggregate concrete.
Zulkati, A. , Wong, Y.D. , and Sun, D. D. , 2013. Mechanistic performance of asphalt-concrete mixture incorporating coarse recycled concrete aggregate.
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spelling Santos, JoaoVega A, Daniela LMartinez Arguelles, Gilberto2021-02-05T23:16:21Z2021-02-05T23:16:21Z2020https://hdl.handle.net/11323/7840https://doi.org/10.1080/10298436.2020.1778694Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/In this study a comparative life cycle assessment (LCA) was conducted according to a ‘cradle-to-laid’ approach to evaluate the potential environmental impacts related to the use of recycled concrete aggregates (RCAs) as a partial replacement of coarse natural aggregates in the production of Hot Mix Asphalt (HMA). Specifically, three percentages of RCA replacements were analyzed: 15, 30 and 45%. Primary data collected mainly through surveys performed in Colombian contractors from the region of Barranquila were used to model the foreground system. The SimaPro 8.4.0 software was used for modelling the processes analyzed in the case study and all the life cycle inputs and outputs related to the functional unit were characterised during life cycle impact assessment (LCIA) phase into potential impacts according to the TRACI v.2.1 impact assessment methodology. The results of the case study showed that the mixtures incorporating 15 and 30% of RCA can be considered as eco-friendly alternatives to the conventional mixture (i.e. no RCA content), as both allow reductions in all impact categories scores. On the contrary, the mixture that contains 45% of RCA denoted a lower environmental performance than that of the conventional mixture.Santos, JoaoVega A, Daniela LMartinez Arguelles, Gilbertoapplication/pdfengCorporación Universidad de la CostaAttribution-NonCommercial-NoDerivatives 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2International Journal of Pavement Engineeringhttps://www.tandfonline.com/doi/full/10.1080/10298436.2020.1778694Life cycle assessment (LCA)hot mix asphalt (HMA)recycled concrete aggregate (RCA)sustainable pavement construction and managementLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements constructionArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersionAlbayati, A. , et al. , 2018. A sustainable pavement concrete using warm mix asphalt and hydrated lime treated recycled concrete aggregates. Sustainable Materials and Technologies , 20, e00081Androjic, I. , et al. , 2020. Analysis of impact of aggregate moisture content on energy demand during the production of hot mix asphalt (HMA). Journal of Cleaner Production , 244, 118868Arabani, M. and Azarhoosh, A.R. , 2012. The effect of recycled concrete aggregate and steel slag on the dynamic properties of asphalt mixtures. Construction and Building Materials , 35, 1–7.Azarijafari, H. , Yahia, A. , and Amor, M.B. , 2016. Life cycle assessment of pavements: reviewing research challenges and opportunities. Journal of Cleaner Production , 112, 2187–2197Balaguera, A. , et al. , 2018. Life cycle assessment of road construction alternative materials: a literature review. Resources, Conservation & Recycling , 132, 37–48.Bare, J. , 2012. Tool for the reduction and assessment of chemical and other environmental impacts (TRACI), Version 2.1 – User’s Manual. EPA/600/R-12/554, (July).Bonicelli, A. , et al. , 2017. Experimental study on the use of rejuvenators and plastomeric polymers for improving durability of high RAP content asphalt mixtures. Construction and Building Materials , 155, 37–44Braga, A.M. , Silvestre, J.D. , and de Brito, J. , 2017. Compared environmental and economic impact from cradle to gate of concrete with natural and recycled coarse aggregates. Journal of Cleaner Production , 162, 529–543Bressi, S. , et al. , 2019. A comparative environmental impact analysis of asphalt mixtures containing crumb rubber and reclaimed asphalt pavement using life cycle assessment.Castro, A. , et al. , 2019. Mechanical properties of cold recycled bituminous mixes with crumb rubber. IOP Conference Series: Materials Science and Engineering , 471 (10), 102044.Clavreul, Julie , Guyonnet, Dominique , and Christensen, Thomas H. , 2012. Quantifying uncertainty in LCA-modelling of waste management systems. Waste Management , 32 (12), 2482–2495Colangelo, F. , et al. , 2018. Life cycle assessment of recycled concretes: a case study in southern Italy. Science of the Total Environment , 615, 1506–1517.Cupo-Pagano, M. , et al. , 1994. Use of building demolition waste for asphalt mixes: first results. Energy, environment and technological innovation. In: Proceedings of III International Congress, 203–8.EIA , 2017. CO2 emissions from fuel combustion 2017 highlightsEstanqueiro, B. , et al. , 2016. Environmental life cycle assessment of coarse natural and recycled aggregates for concrete.Federal Highway Administration Research and Technology , 2016. User guidelines for waste and byproduct materials in pavement construction. Available from: https://www.fhwa.dot.gov/publications/research/infrastructure/structures/97148/rap131.cfm .Gallego, J. and Toledano, M. , 2010. Asphalt mixtures with construction and demolition debris (January).Harvey, J.T. , et al. , 2016. Pavement life cycle assessment framework (No. FHWA-HIF-16-014). United States. Federal Highway Administration.Hossain, M.U. , et al. , 2016. Comparative environmental evaluation of aggregate production from recycled waste materials and virgin sources by LCA.INVIAS , 2013. Secciones 700 y 800 – Materiales y mezclas asfálticas y prospección de pavimentos (Primera parte)INVIAS , 2014a. ‘CAPÍTULO 3 - AFIRMADOS, SUBBASES Y BASES’INVIAS , 2014b. Capítulo 4 – Pavimentos Asfálticos .Inyim, P. , et al. , 2016. Environmental assessment of pavement infrastructure: a systematic review. Journal of Environmental Management , 176, 128–138.ISO , 2006. ISO 14040:2006 Environment management- Life cycle assessment- Principles and framework.Jiang, R. and Wu, P. , 2019. Estimation of environmental impacts of roads through life cycle assessment: a critical review and future directions. Transportation Research Part D: Transport and Environment , 77, 148–163.Jiménez, C. , et al. , 2015. LCA of recycled and conventional concretes designed using the equivalent mortar volume and classic methods.Kim, M. , et al. , 2018. Fatigue performance of asphalt mixture containing recycled materials and warm-mix technologies under accelerated loading and four point bending beam test.Landi, D. , et al. , 2020. Comparative life cycle assessment of standard, cellulose-reinforced and end of life tires fiber-reinforced hot mix asphalt mixtures.Laurance, W.F. , et al. , 2014. A global strategy for road building. Nature , 513, 229–232Li, J. , et al. , 2019. Life cycle assessment and life cycle cost analysis of recycled solid waste materials in highway pavement: a review. Journal of Cleaner Production , 233, 1182–1206.Lu, W. and Yuan, H. , 2011. A framework for understanding waste management studies in construction. Waste Management , 31 (6), 1252–1260.Marcilio, G.P. , et al. , 2018. Analysis of greenhouse gas emissions in the road freight transportation using simulation. Journal of Cleaner Production , 170, 298–309.Marinković, S. , et al. , 2010. Comparative environmental assessment of natural and recycled aggregate concrete. Waste Management , 30 (11), 2255–2264.Martinez-Arguelles, G. , Acosta, M.P. , et al. , 2019b. Life cycle assessment of natural and recycled concrete aggregate production for road pavements applications in the Northern region of Colombia: case studyMartinez-Arguelles, G. , Dugarte, M. , et al. , 2019a. Characterization of recycled concrete aggregate as potential replacement of natural aggregate in asphalt pavement.Mills-Beale, J. and You, Z. , 2010. The mechanical properties of asphalt mixtures with recycled concrete aggregates. Construction and Building Materials , 24 (3), 230–235National Administrative Department of Statistics DANE , 2012. Direction of statistical production methodology DIMPE, 1–53.Parajuli, S.P. , et al. , 2011. A comparative life cycle assessment (LCA) of using virgin crushed aggregate (VCA) and recycled waste concrete aggregate (RCA) in road construction.Paranavithana, S. and Mohajerani, A. , 2006. Effects of recycled concrete aggregates on properties of asphalt concrete. Resources, Conservation and Recycling , 48 (1), 1–12.Pasandín, A.R. , and Pérez, I. , 2014. Effect of ageing time on properties of hot-mix asphalt containing recycled concrete aggregates. Construction and Building Materials , 52, 284–293.Pasandín, A.R. and Pérez, I. , 2015. Overview of bituminous mixtures made with recycled concrete aggregates. Construction and Building Materials , 74, 151–161.Praticò, F.G. , et al. , 2020. Energy and environmental life cycle assessment of sustainable pavement materials and technologies for urban roads. Sustainability , 12, 704.PRé Consultants , 2014. SimaPro.Rosado, L.P. , et al. , 2017. Life cycle assessment of natural and mixed recycled aggregate production in Brazil. Journal of Cleaner Production , 151, 634–642Saberi, K.F. , Fakhri, M. , and Azami, A. , 2017. Evaluation of warm mix asphalt mixtures containing reclaimed asphalt pavement and crumb rubber. Journal of Cleaner Production , 165, 1125–1132.Santero, N.J. , Masanet, E. , and Horvath, A. , 2011a. Life-cycle assessment of pavements. Part I: critical review. Resources, Conservation & Recycling , 55 (9–10), 801–809.Santero, N.J. , Masanet, E. , and Horvath, A. , 2011b. Life-cycle assessment of pavements Part II: filling the research gaps. Resources, Conservation & Recycling , 55 (9–10), 810–818Santos, J. , et al. , 2015b. A life cycle assessment of in-place recycling and conventional pavement construction and maintenance practices.Santos, J. , et al. , 2018. Life cycle assessment of low temperature asphalt mixtures for road pavement surfaces: a comparative analysisSantos, J. , Ferreira, A. , and Flintsch, G. , 2015a. A life cycle assessment model for pavement management: road pavement construction and management in Portugal.Schrijvers, D.L. , Loubet, P. , and Sonnemann, G. , 2016. Developing a systematic framework for consistent allocation in LCA.Shi, X. , et al. , 2019. Economic input-output life cycle assessment of concrete pavement containing recycled concrete aggregate.Thenoux, G. , González, Á. , and Dowling, R. , 2007. Energy consumption comparison for different asphalt pavements rehabilitation techniques used in Chile.Universidad De Costa Rica , 2015. PITRA PAVE 1.0.0 – Software de multicapa elástica.Vega Araujo, D.L. , Martinez-Arguelles, G. , and Santos, J. , 2019. Life cycle assessment of warm mix asphalt with recycled concrete aggregate.Wang, H. and Gangaram, R. , 2014. Life cycle assessment of asphalt pavement maintenance (No. CAIT-UTC-013).West, R. , et al. , 2014. Field performance of warm mix asphalt technologies (National Cooperative Highway Research Program Report No. 779) .Zhang, Z. , et al. , 2016. Key performance properties of asphalt mixtures with recycled concrete aggregate from low strength concrete.Zhang, Y. , et al. , 2019. A review of life cycle assessment of recycled aggregate concrete.Zulkati, A. , Wong, Y.D. , and Sun, D. D. , 2013. Mechanistic performance of asphalt-concrete mixture incorporating coarse recycled concrete aggregate.PublicationORIGINALLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdfLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdfapplication/pdf101791https://repositorio.cuc.edu.co/bitstreams/6631bd83-6ffd-4523-a654-9484fd7fd930/download0f56df6c0868246cbe79e4064154c301MD51CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8805https://repositorio.cuc.edu.co/bitstreams/15fb9de2-9005-4818-90e4-b685b8a6c9a6/download4460e5956bc1d1639be9ae6146a50347MD52LICENSElicense.txtlicense.txttext/plain; charset=utf-83196https://repositorio.cuc.edu.co/bitstreams/38c4babd-9031-48bc-b31f-a47647421d51/downloade30e9215131d99561d40d6b0abbe9badMD53THUMBNAILLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdf.jpgLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdf.jpgimage/jpeg37080https://repositorio.cuc.edu.co/bitstreams/2f3edc98-53db-4d23-be6a-55414800805a/download975d82c09ece70f329076c1f7b1a6ef3MD54TEXTLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdf.txtLife cycle assessment of hot mix asphalt with recycled concrete aggregates for road pavements construction.pdf.txttext/plain1614https://repositorio.cuc.edu.co/bitstreams/e68dd7f4-0d08-41de-82d2-a67482b0c5b0/download813e23192326aa4305d72ca143bd73fdMD5511323/7840oai:repositorio.cuc.edu.co:11323/78402024-09-17 12:49:00.617http://creativecommons.org/licenses/by-nc-nd/4.0/Attribution-NonCommercial-NoDerivatives 4.0 Internationalopen.accesshttps://repositorio.cuc.edu.coRepositorio de la Universidad de la Costa 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