The influence of the size of the exit opening on the ventilation potential of multifamily buildisngs in a city in the bioclimatic zone 8

Authors

DOI:

https://doi.org/10.46421/entac.v19i1.2078

Keywords:

Multifamily building, Natural ventilation, Natural ventilation potential, Thermal comfort, Computer fluid dynamics

Abstract

Natural ventilation is important to renew the air in the environments, cool the building and provide thermal comfort and energy efficiency. Its performance is related to the configuration of building openings, but few studies address the ventilation potential provided by exit openings. This research investigated the ventilation potential of multifamily residential buildings, varying the size of the air outlet openings in Maceió, using computational simulation. The results showed that the ventilation potential was satisfactory in most cases. Regarding environmental comfort sensation, mid-section-based vents performed better.

Author Biographies

Alexandre Sacramento, Federal University of Alagoas

Doctor student in Architecture and Urbanism at Federal University of Alagoas. Assistent Professor at Federal University of Alagoas (Maceió - Al, Brazil)

Isabela Tibúrcio, Federal University of Alagoas

Doctor in Architecture and Urbanism at Federal University of Alagoas. Adjunct Professor at Federal University of Alagoas (Maceió - Al, Brazil)

Leonardo Bittencourt, Federal University of Alagoas

Doctor in Environment and Energy Studies by Architectural Association Graduate School. Voluntary Professor at Federal University of Alagoas (Maceió - Al, Brazil)

References

ALLARD, Francis. Natural Ventilation in Buildings: A Design Handbook. European Commission Directorate General for Energy Altener Program. James & James, 2002.

ASHRAE. Ventilation for Acceptable Indoor Air Quality. ANSI/ASHRAE Standard 62, Atlanta: 2001b

ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 15.220: Desempenho térmico de edificações – Parte 3: Zoneamento bioclimático brasileiro e Diretrizes construtivas para habitações unifamiliares de interesse social. Rio de Janeiro, 2003.

AYATA, Tahir; YILDIZ, Osman. Investigating the potential use of natural ventilation in new building designs in Turkey. Energy and Buildings 38: 2006, 959-963.

AYNSLEY, Richard. Estimating Summer Wind driven natural ventilation potential for indoor thermal comfort. Journal of Wind Engineering and Industrial Aerodinamics. Elsevier: 1999.

BITTENCOURT, Leonardo S. CÂNDIDO, Christhina. Introdução à Ventilação Natural, Maceió, Edufal, 2005.

CÂNDIDO, C. M. ; BITTENCOURT, L. S. ; BATISTA, J.O. A utilização de captadores de vento para aumentar a ventilação natural em espaços de sala de aula. In: ENCAC 2003.

CÂNDIDO, C. M. ; BITTENCOURT, L. S. ; SACRAMENTO, A. Building regulation and thermal comfort: The influence of opening typology on natural cooling inside office buildings. In: 10th Building Simulation, 2007.

GECA. Introdução ao uso do PHOENICS – Anexo 1: Como calcular o domínio. GECA/Ufal. 2012.

LABEEE, Laboratório de Eficiência Energética nas Edificações. Arquivos climáticos. Disponível em: < http://www.labeee.ufsc.br/downloads/arquivos-climaticos>.

LIMB, M. An Annotated Bibliography Natural Ventilation. International Energy Agency – IEA. Energy Conservation in Buildings and Community Systems Programme. Air Infiltration and Ventilation Centre. 1995.

LIN, Jin-Taung; CHUAH, Yew Khoy. A study on the potention of natural ventilation and cooling for large spaces in subtropical climatic regions. Building and Environment, v46: 2011.

MATEZUKI, F. K. e CHENG, L.. Análise computacional da ventilação natural cruzada em habitação. Boletim técnico da escola politécnica da USP. Departamento de engenharia de construção civil. São Paulo, 2009.

ROMERO, Marta Adriana Bustos. Princípios bioclimáticos para o desenho urbano. São Paulo: ProEditores, 2000, 2ª edição.

TOLEDO, A. Caracterização de sistemas de ventilação natural em tipologias correntes de dormitórios em Maceió-Al. VI Encontro Nacional e III Encontro Latino-Americano sobre Conforto no Ambiente Construído, São Pedro, Brasil, 2001.

Published

2022-11-07

How to Cite

SACRAMENTO, Alexandre; TIBÚRCIO, Isabela; BITTENCOURT, Leonardo. The influence of the size of the exit opening on the ventilation potential of multifamily buildisngs in a city in the bioclimatic zone 8. In: NATIONAL MEETING OF BUILT ENVIRONMENT TECHNOLOGY, 19., 2022. Anais [...]. Porto Alegre: ANTAC, 2022. p. 1–12. DOI: 10.46421/entac.v19i1.2078. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/2078. Acesso em: 25 nov. 2024.

Issue

Section

(Inativa) Conforto Ambiental e Eficiência Energética

Similar Articles

<< < 81 82 83 84 85 86 87 88 89 90 > >> 

You may also start an advanced similarity search for this article.