INDÚSTRIA DA CONSTRUÇÃO SUSTENTÁVEL: UMA ANÁLISE DA CERTIFICAÇÃO LEED NO MERCADO BRASILEIRO

Autores

  • Marcos Lucas de Oliveira
  • Janis Elisa Ruppenthal
  • Lizandra Garcia Lupi Vergara

DOI:

https://doi.org/10.46421/entac.v17i1.1819

Palavras-chave:

Construction industry, Technology, LEED Certification

Resumo

Sustainable buildings feature a technology migration that aims to reduce the impact of buildings on the built environment, future generations and their environment. In this sense, environmental certifications can be used as political or marketing instruments in social, economic and environmental development. Therefore, the present study describes the relationship of the LEED certification system, focusing on the Brazilian market. The methodology used is a descriptive research. As a result, the study shows that the Brazil's expressive results put it in fourth place in the worldwide list of LEED sustainable certifications. It was concluded that the corporate strategies for sustainable construction in Brazil are concentrated to highstandard projects, since the country has not yet understood the real value of sustainability, which is not only environmental, it has to be technical and economic.

Referências

AKTAS, B.; OZORHON, B. Green Building Certification Process of Existing Buildings inDeveloping Countries: Cases from Turkey. Journal of Management in Engineering, v.31, n. 6, 2015.

BETTS, M., et al. Global Construction 2020: a Global Forecast for the ConstructionIndustry over the Next Decade. Global Construction Perspectives and OxfordEconomics, London, 2011.

CHOI, J. O. et al. LEED Credit Review System and Optimization Model for PursuingLEED Certification. Sustainability, p. 13351 13377, 2015.

COUTINHO, S. M.; VIEIRA, D. R. Perceptions of Sust Ainability in Civil ConstructionProjects : Anal Ysis of Brazilian Construction Sites. The Journal of Modern ProjectManagement, n. August, p. 71 81, 2014.

FUERST, F.; GABRIELI, T.; MCALLISTER, P. A green win ? Investorbehavior in the market for eco-certi fi ed o ffi ce buildings. Economic Modelling, v.

61, n. December 2016, p. 137 146, 2017.

GBC. Green Building Council. Anuário 2015: certificações. Revista GBC Brasil, ano 2,n. 4, jul. 2015. Disponível em: <http://www.gbcbrasil.org.br/revistas.php> Acesso em:01, fev. 2017.

GBC. Green Building Council. Anuário 2016: certificações. Revista GBC Brasil, ano 3,n. 9, jul. 2016. Disponível em: <http://www.gbcbrasil.org.br/revistas.php> Acesso em:30, jan. 2017.

GBC. Green Building Council. Anuário 2017: certificações. Revista GBC Brasil, ano 4,n. 14, jul. 2017a. Disponível em: <http://www.gbcbrasil.org.br/revistas.php> Acessoem: 10, Ago. 2017.

GBC. Green Building Council. Certificação LEED. 2017b. Disponível em:http://www.gbcbrasil.org.br/sobre-certificado.php> Acesso em: 04, fev. 2017.

GBC. Green Building Council. Certificado LEED: gráficos de crescimento no Brasil.2017c. Disponível em: <http://www.gbcbrasil.org.br/graficosempreendimentos.

php> Acesso em: 28, dez. 2017.

GBC. Green Building Council. Perguntas frequentes. 2017d. Disponível em:<http://www.gbcbrasil.org.br/faq.php>. Acesso: 18, mar. 2017.

KASAI, N.; JABBOUR, C. J. C. Barriers to green buildings at two Brazilian EngineeringSchools. International Journal of Sustainable Built Environment, v. 3, n. 1, p. 87 95,2014.

environmental behavior. Building and Environment, v. 94, p. 477 488, 2015.

LIU, S.; MENG, X.; TAM, C. Building information modeling based building designoptimization for sustainability. Energy Build, v.105, p.139 153, 2015.

MARCONI, M. A.; LAKATOS, E. M. Fundamentos da metodologia científica. SãoPaulo: Altas, 320 p., 2010.

MARJABA, G. E.; CHIDIAC, S. E. Sustainability and resiliency metrics for buildings -Critical review. Building and Environment, v. 101, p. 116 125, 2016.

PUSKAS, A.; MOGA, L. M. Sustainability of reinforced concrete frame structures - Acase study. International Journal of Sustainable Development and Planning, v. 10, n.2, p. 165 176, 2015.

RUPARATHNA, R.; HEWAGE, K. Sustainable procurement in the Canadian constructionindustry : current practices, drivers and opportunities. Journal of Cleaner Production,v. 109, p. 305 314, 2015.

SARKIS, J.; MEADE, L.; PRESLEY, A. Incorporating sustainability into contractorevaluation and team formation in the built environment. Journal of CleanerProduction, v. 31, 2012.

SILVA, A. T. et al. Novas exigências decorrentes de programas de certifi caçãoambiental de prédios e de normas de desempenho na construção. ArquiteturaRevista, v. 10, n. 2, p. 105 114, 2014.

TSAI, C. Y.; CHANG, A. S. Framework for developing construction sustainability items:the example of highway design. Journal of Cleaner Production, v. 20, p.127-136, 2012.

USGBC. U.S Green Building Council. About LEED. 2017a.Disponível em:<http://www.usgbc.org/leed>. Acesso em: 12, jan. 2017.

USGBC. U.S Green Building Council. Sustainable buildings in Brazil. 2017b. Disponívelem:<http://www.gbcbrasil.org.br/sistema/docsMembros/1311141211060000005990.pdf >Acesso em: 04, fev. 2017.

VIEIRA NETO, J.; FARIAS FILHO, J. R. Sustainability in the civil construction industry : anexploratory study of life cycle analysis methods. International Journal EnvironmentalTechnology and Management, v. 16, p. 420 436, 2013.

WU, P. et al. A decade review of the credits obtained by LEED v2.2 certified greenbuilding projects. Building and Environment, v. 102, p. 167 178, 2016.

Downloads

Publicado

2018-11-12

Como Citar

OLIVEIRA, Marcos Lucas de; RUPPENTHAL, Janis Elisa; VERGARA, Lizandra Garcia Lupi. INDÚSTRIA DA CONSTRUÇÃO SUSTENTÁVEL: UMA ANÁLISE DA CERTIFICAÇÃO LEED NO MERCADO BRASILEIRO. In: ENCONTRO NACIONAL DE TECNOLOGIA DO AMBIENTE CONSTRUÍDO, 17., 2018. Anais [...]. Porto Alegre: ANTAC, 2018. p. 3761–3767. DOI: 10.46421/entac.v17i1.1819. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/1819. Acesso em: 21 nov. 2024.

Edição

Seção

(Inativa) Desenvolvimento Sustentável

Artigos Semelhantes

<< < 2 3 4 5 6 7 8 9 10 11 > >> 

Você também pode iniciar uma pesquisa avançada por similaridade para este artigo.