RESISTÊNCIA TÉRMICA DE CAVIDADES DE AR HORIZONTAIS E FECHADAS PARA APLICAÇÕES EM EDIFICAÇÕES

Autores

  • Guilherme Larsen Güths
  • Saulo Güths
  • Caren Michels

DOI:

https://doi.org/10.46421/entac.v17i1.1367

Palavras-chave:

Heat Flux, Emissivity, Thermal resistance

Resumo

It is known that the greatest heat gain in ground-level buildings is due to the roof, so the use of radiant barriers is being increasingly diffused in civil engineering in order to minimize the heat flow through the covering system. However, there is still no technical normalization that addresses the issue, so there are products that appear in the market without actually presenting a low emissivity, although they have characteristic of a radiant barrier. The tests commonly performed to qualify such products often lack outstanding properties of the samples, to rectify these inaccuracies it is proposed to reformulate the methods of experimentation. When applying the concept of Equivalent Thermal Resistance the ability to measure a much higher degree of parity is obtained in relation to the actual cases of application.

Referências

ASHRAE FUNDAMENTALS HANDBOOK. Chapter 26: heat, air, and moisture control inbuilding assemblies material properties., 2009.

ASTM American Society for Testing and Materials C518-15: Standard Test Method forSteady-State Thermal Transmission Properties by Means of the Heat Flow MeterApparatusASTM International, 2015.

ISO International Organization for Standardization 8301:1991. Thermal insulation -Determination of steady-state thermal resistance and related properties - Heat flowmeter apparatus, 2010.

REFLECTIVE INSULATION MANUFACTURERS ASSOCIATION INTERNATIONAL (RIMA-I).

Understanding and Using Reflective Insulation, Radiant Barriers and Radiation ControlCoatingsLenexa, Kansas, USAReflective Insulation Manufacturers AssociationInternational (RIMA-I), , 2014.

SABER, H. H. Investigation of thermal performance of reflective insulations for differentapplications. Building and Environment, v. 52, p. 32 44, 2012.

SABER, H. H. Practical correlations for thermal resistance of horizontal enclosedairspaces with upward heat flow for building applications. Building and Environment,v. 61, p. 169 187, 2013.

SABER, H. H. Practical correlation for thermal resistance of horizontal enclosedairspaces with downward heat flow for building applications. Journal of BuildingPhysics, v. 37 (4), p. 403 435, 2014a.

SABER, H. H. Practical correlation for thermal resistance of horizontal enclosedairspaces with downward heat flow for building applications. Building andEnvironment, v. 37 (4), p. 403 435, 2014b.

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Publicado

2018-11-12

Como Citar

GÜTHS, Guilherme Larsen; GÜTHS, Saulo; MICHELS, Caren. RESISTÊNCIA TÉRMICA DE CAVIDADES DE AR HORIZONTAIS E FECHADAS PARA APLICAÇÕES EM EDIFICAÇÕES. In: ENCONTRO NACIONAL DE TECNOLOGIA DO AMBIENTE CONSTRUÍDO, 17., 2018. Anais [...]. Porto Alegre: ANTAC, 2018. p. 399–405. DOI: 10.46421/entac.v17i1.1367. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/1367. Acesso em: 3 dez. 2024.

Edição

Seção

(Inativa) Conforto Ambiental e Eficiência Energética

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