COMPORTAMENTO TÉRMICO DE EDIFICAÇÕES COM CAPTADORES DE VENTO MULTIDIRECIONAIS E COBERTURA VERDE
Palavras-chave:
Wind catcher, Green roof, Bioclimatic architecture, Computational simulationResumo
This research aims to evaluate the thermal behavior of a building with four types of wind tower, acting as catcher, associated with green roofs, using computational simulations with the EnergyPlus® software. The methodology of the work has the following steps: construction of the geometry of the models, definitions of the envelope, including the natural ventilation, and simulations in the EnergyPlus® software, for eight cities, representing each of the Brazilian bioclimatic zones, during the winter and summer periods. From the analysis of the results, represented by the graphs of the average day, it was observed that the green cover on the tower slab and / or the building reduced the internal air temperature in these environments, mainly in the Bioclimatic Zone 6, represented by the city of Goiânia , where there was a reduction of up to 6.4 ° C of the internal temperature of the building in relation to the external, directing architects and engineers to incorporate the wind towers correctly in their projects.
Referências
ABNT- ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 15220: DesempenhoTérmico de Edificações. Rio de Janeiro, 2005.
ABREU, A.L.P.; GÓES, F.; BAUMANN, V.A.R. Protótipos parciais de cobertura verdepara estudo da redução da carga térmica interna de edificação escolar emFlorianópolis . In: ENCONTRO NACIONAL DE CONFORTO NO AMBIENTE CONSTRUÍDO,13., 2015, Campinas. Anais... Porto Alegre: ANTAC, 2015.
ANDRADE, N.C.; CASTRO, A.P.A.S.; MATHEUS, C.; LABAKI, L.C. Proposal for use of WindCatcher in the Classroom University: A passive technic to improve thermal comfort ofclassrooms. In: INTERNATIONAL CONFERENCE ON PASSIVE AND LOW ENERGYARCHITECTURE, 32., 2016, Los Angeles. Anais... Los Angeles: University of SouthernCalifornia, 2016. p. 1263-1268.
BAHADORI, M.N. Viability of wind towers in achieving summer comfort in the hot aridregions of the Middle East. Renewable Energy. V. 5, n. 5-8, p. 879-892, Aug. 1994.
GIVONI, B. Man, Climate and Architecture. 2ed. London: Applied Science, 1976. 483p.
LEE, J.S.; KIM, J.T.; LEE, M.G. Mitigation of urban heat island effect and green roofs.
Indoor and Built Environment. V. 23, n.1, p. 62-69, Jan. 2013.
SAADATIAN, O.; HAW, L.C.H.; SOPIAN, K.; SULAIMAN, M.Y. Review of windcatcherTechnologies. Renewable and Sustainable Energy Reviews. V. 16, n. 3, p. 1477-1495,Apr. 2012.
TSANG, S.W.; JIM, C.Y. Theoretical Evaluation of Thermal and Energy Performance ofTropical Green Roofs. Energy. V. 36, n. 5, p. 3590-3598, May. 2011.
