SUPERFÍCIES FRIAS - AVALIAÇÃO DA REFLETÂNCIA EM QUATRO CIDADES BRASILEIRAS APÓS UM ANO DE ENVELHECIMENTO NATURAL

Autores

  • Márcia Aiko Shirakawa
  • João Athaydes Silva Junior
  • Shirlei A. Vieira Marques
  • Vanderley Moacyr John

DOI:

https://doi.org/10.46421/entac.v17i1.1466

Palavras-chave:

Cool surfaces, Reflectance, Urban heat islands, Microorganisms

Resumo

The urban heat islands occur in the centers of big cities. The studies and actions to mitigate the urban heat islands have progressed in the last three decades, and the technologies of cool surfaces, with high reflectance and emitance, have gained international relevance, since the cool surfaces can reduce the consumption of energy for air conditioning. Reduction of reflectance can be caused by deposition of air pollutants, dusts and microbial growth according to environmental conditions. This study shows the loss of reflectance of an exposed white paint after one year in different cities: São Paulo, SP, Pirassununga, SP, São Sebastião, SP and Belém, PA. The results showed after one year the importance of microbial colonization in the loss of reflectance, mainly by phototrophic microorganisms. Studies are ongoing and assessments will be carried out for at least three years of exposure.

Referências

AKIBARI, H & KOLOKOTSA. Three decades of heat urban islands and mitigationtechnology research. Energy and Buildings, v.133, p 834-842, 2016.

ASTM American Society for Testing and Materials-C1549 09: Standard Test Methodfor Determination of Solar Reflectance Near Ambient Temperature Using a PortableSolar Reflectometer, Pennsylvania, 2009.

______. C1371 04a: Test method for determination of emittance of materials nearroom temperature using portable emissometers. Pennsylvania, 2010.

______. E1980: Standard Practice for Calculating Solar Reflectance Index ofHorizontal and Low-Sloped Opaque Surfaces. Pennsylvania, 2011.

______. E903: Standard Test Method for Solar Absorptance, Re ectance, andTransmittance of Materials Using Integrating Spheres. Pennsylvania, 2012.

KOLOKOTSA, D.D., GIANNARIAKISA, G, GOBAKISA, K., GIANNARAKISB,G., SYNEFFA, A.,SANTAMOURIS, M.. Sustainable Cities and Society, v. 37, p. 466-474.

LEVINSON, R; et al. Methods of creating solar-reflective nonwhite surfaces and theirimplication to residential roofing materials. Solar Energy Materials and Solar Cells,v.91 (4), 304-314, 2007.

LEVINSON, R., BERDAHL, P., ASEFAWBERHE, A.; AKBARI, H. Effects of soiling andcleaning on the reflectance and solar heat gain of a light-colored roofingmembrane, Atmospheric Environment, v. 39, p. 7807 7824, 2005.

SYNNEFA, A., SANTAMOURIS, M. E AKBARI, H. Estimating the effect of using coolcoatings on energy loads and thermal comfort in residential buildings in variousclimatic conditions, Energy and Buildings, v. 39, p. 1167 1174, 2007.

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Publicado

2018-11-12

Como Citar

SHIRAKAWA, Márcia Aiko; SILVA JUNIOR, João Athaydes; MARQUES, Shirlei A. Vieira; JOHN, Vanderley Moacyr. SUPERFÍCIES FRIAS - AVALIAÇÃO DA REFLETÂNCIA EM QUATRO CIDADES BRASILEIRAS APÓS UM ANO DE ENVELHECIMENTO NATURAL. In: ENCONTRO NACIONAL DE TECNOLOGIA DO AMBIENTE CONSTRUÍDO, 17., 2018. Anais [...]. Porto Alegre: ANTAC, 2018. p. 1230–1240. DOI: 10.46421/entac.v17i1.1466. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/1466. Acesso em: 25 nov. 2024.

Edição

Seção

(Inativa) Conforto Ambiental e Eficiência Energética

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