Study of the potential of using air speed to save energy in a automat building

Authors

  • Monica Wilges UFPel
  • Gabriel Leite Bessa UFPel
  • Antonio Cesar Silveira Baptista da Silva UFPel
  • Anderson Priebe Ferrugem UFPel

DOI:

https://doi.org/10.46421/entac.v20i1.5896

Keywords:

thermal comfort, natural ventilation, roof fan, pmv, energyplus

Abstract

The need to cool environments becomes increasingly urgent amid the global warming scenario. However, how this cooling is approached requires in-depth study. The Brazilian territory, for the most part, is characterized by a hot and humid climate and an effective approach to improving the thermal sensation in these places is the adoption of simple cooling strategies based on air movement, through the use of fans and the promotion of of natural ventilation. In this sense, the research aims to verify the influence of using air speed with the use of ceiling fans on energy savings in a mixed-mode operating classroom through computer simulation. Using the EnergyPlus 9.4 software in conjunction with version 0.2 of the API using the Python language. This approach allows the management of window openings in favorable conditions, in addition to controlling ventilation and defining the air conditioning set point according to user comfort. This efficient management not only results in energy savings, but also prioritizes occupant comfort.

Author Biographies

Gabriel Leite Bessa, UFPel

Aluno de Graduação da Ciência da Computação

Antonio Cesar Silveira Baptista da Silva, UFPel

Prof. Dr. Antonio Cesar Silveira Baptista da Silva

Anderson Priebe Ferrugem, UFPel

Prof. Dr. Anderson Priebe Ferrugem

References

BERARDI, Umberto. A cross-country comparison of the building energy consumptions and their trends. Resources, Conservation and Recycling, v. 123, p. 230-241, 2017. ISSN 0921-3449. Disponível em: https://doi.org/10.1016/j.resconrec.2016.03.014.

INTERNATIONAL ENERGY AGENCY (IEA). The Future of Cooling. Paris, 2018. Disponível em: https://www.iea.org/reports/the-future-of-cooling. Acesso em: 05 maio. 2022.

HOOFF, T. van; BLOCKEN, B.; HENSEN, J.L.M.; TIMMERMANS, H.J.P. On the predicted effectiveness of climate adaptation measures for residential buildings. Building and Environment, v. 82, p. 300-316, 2014. ISSN 0360-1323. https://doi.org/10.1016/j.buildenv.2014.08.027.

SCHIAVON, Stefano; LEE, Kwang Ho. Dynamic predictive clothing insulation models based on outdoor air and indoor operative temperatures. Building and Environment, vol. 59, p. 250-260, 2013. DOI: https://doi.org/10.1016/j.buildenv.2012.08.024.

ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 15575: Edifícios habitacionais de até cinco pavimentos, Parte 1: Requisitos gerais. Rio de Janeiro: ABNT, 2008.

MORELLO, Alessandro. Avaliação do comportamento térmico do protótipo habitacional Alvorada. 2005.

KIM, Jungsoo; DE DEAR, Richard. Is mixed-mode ventilation a comfortable low-energy solution? A literature review. Building and Environment, v. 205, p. 108215, 2021.

CÂNDIDO, C.; DE DEAR, R.; LAMBERTS, R. Combined Thermal Acceptability and Air Movement Assessments in a Hot Humid Climate. Building and Environment, v. 46, p. 379-385, 2011. DOI:10.1016/j.buildenv.2010.07.032

DE VECCHI, R.; CÂNDIDO, C.; LAMBERTS, R. O efeito da utilização de ventiladores de teto no conforto térmico em salas de aulas com condicionamento híbrido em um local de clima quente e úmido. Ambiente Construído, Porto Alegre, v. 13, n. 4, p. 189-202, 2013.

LAMBERTS, Roberto; CÂNDIDO, Christhina; DE VECCHI, Renata. Base brasileira de conforto térmico. 2014. Disponível em: https://labeee.ufsc.br/projetos/base-brasileira-de-dados-em-conforto-termico. Acesso em 20 de março de 2023.

OMRANI, Sara; MATOUR, Soha; BAMDAD, Keivan; IZADYAR, Nima. Ceiling fans as ventilation assisting devices in buildings: A critical review. Building and Environment, Volume 201, 2021. DOI: https://doi.org/10.1016/j.buildenv.2021.108010.

LIPCZYNSKA, Aleksandra; SCHIAVON, Stefano; GRAHAM, Lindsay T. Thermal comfort and self-reported productivity in an office with ceiling fans in the tropics. Building and Environment, v. 135, p. 202-212, 2018.

MILLER, Dana; RAFTERY, Paul; NAKAJIMA, Mia; SALO, Sonja; GRAHAM, Lindsay T; PEFFER, Therese; DELGADO, Marta; ZHANG, Hui; BRAGER, Gail; DOUGLASS-JAIMES, David; PALIAGA, Gwelen; COHN, Sebastian; GREENE, Mitch; BROOKS, Andy. Cooling energy savings and occupant feedback in a two year retrofit evaluation of 99 automated ceiling fans staged with air conditioning. Energy and Buildings. Volume 251, 2021. DOI: https://doi.org/10.1016/j.enbuild.2021.111319.

ASHRAE. Standard 55: thermal environmental conditions for human occupancy. ASHRAE: Atlanta, 2020.

MORELLO, Alessandro. Avaliação do comportamento térmico do protótipo habitacional Alvorada. 2005.

DOE. V9.3 Input/output reference: The encyclopedic reference to EnergyPlus input and output. US Department of Energy, [S.l.], 2021.

SCHIAVON, Stefano; LEE, Kwang Ho. Dynamic predictive clothing insulation models based on outdoor air and indoor operative temperatures. Building and Environment, vol. 59, p. 250-260, 2013. DOI: https://doi.org/10.1016/j.buildenv.2012.08.024.

ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 16401-2: instalações de ar-condicionado: sistemas entrais e unitários: parte 2: parâmetros de conforto térmico. Rio de Janeiro, 2008.

PHILIP, S.; TANJUATCO, L. Eppy: scripting language for E+. EnergyPlus (version 0.46). Disponível em: https://pypi. python. org/pypi/eppy/0.4, [S.l.], v.6, 2011.

ANDRE, Maira et al. Achieving mid-rise NZEB offices in Brazilian urban centres: A control strategy with desk fans and extension of set point temperature. Energy and Buildings, v. 259, p. 111911, 2022.

Published

2024-10-07

How to Cite

WILGES, Monica; BESSA, Gabriel Leite; SILVEIRA BAPTISTA DA SILVA, Antonio Cesar; PRIEBE FERRUGEM, Anderson. Study of the potential of using air speed to save energy in a automat building. In: NATIONAL MEETING OF BUILT ENVIRONMENT TECHNOLOGY, 20., 2024. Anais [...]. Porto Alegre: ANTAC, 2024. p. 1–15. DOI: 10.46421/entac.v20i1.5896. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/5896. Acesso em: 23 nov. 2024.

Issue

Section

Conforto Ambiental e Eficiência Energética

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