Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate
Considering the importance of the use and control of solar energy as a potential bioclimatic resource in the Northeast Region of Argentina, the validation procedure of a methodology for estimating optimal glazed areas is presented, in an existing kindergarten prototype of open typology in the city o...
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| Formato: | Artículo revista |
| Lenguaje: | Español |
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Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano
2024
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| Acceso en línea: | https://revistas.unne.edu.ar/index.php/arq/article/view/7561 |
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I48-R154-article-75612024-07-31T22:32:31Z Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate Optimización bioclimática de parámetros de la envolvente de un Jardín de Infantes de tipología abierta, en clima muy cálido-húmedo Boutet , María Laura Hernández , Alejandro Luis Thermo-lighting comfort School architecture Natural light Bioclimatic design Glazed areas Confort termo-lumínico Arquitectura escolar Luz natural Diseño bioclimático Áreas vidriadas Considering the importance of the use and control of solar energy as a potential bioclimatic resource in the Northeast Region of Argentina, the validation procedure of a methodology for estimating optimal glazed areas is presented, in an existing kindergarten prototype of open typology in the city of Resistencia, Chaco. Based on a generic proposal, the improvements obtained are verified by combining variables not contemplated in current regulations for the calculation of lighting openings by orientation, in a very hot - humid climate, configuring for this purpose dynamic simulation models calibrated with in situ measurements. A reduction in the absolute maximum temperature of up to 3.4°C was obtained, which had an impact on the reduction of cooling requirements of up to 41% in November. This, in turn, allowed notable improvements in the spatial distribution of natural light, preserving an average of 500 lx. Considerando la importancia del aprovechamiento y control de la energía solar como recurso bioclimático potencial en la región Nordeste Argentina, se presenta el procedimiento de validación de una metodología de estimación de áreas vidriadas óptimas, en un prototipo de jardín de infantes de tipología abierta existente en la ciudad de Resistencia, Chaco. A partir de una propuesta genérica, se verifican las mejoras obtenidas mediante la combinación de variables no contempladas en la normativa vigente para el cálculo de vanos de iluminación por orientación, en un clima muy cálido – húmedo, conformando para ello, modelos de simulación dinámica calibrados con mediciones in situ. Se obtuvo una reducción de la temperatura máxima absoluta de hasta 3,5 °C, lo que repercutió en la reducción de las necesidades de refrigeración de hasta 41 % en noviembre. Esto, a su vez, permitió mejoras notables en la distribución espacial de la luz natural, conservando un promedio de 500 lx. Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano 2024-07-31 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares application/pdf text/html https://revistas.unne.edu.ar/index.php/arq/article/view/7561 10.30972/arq.237561 Arquitecno; Núm. 23 (2024): julio 2683-9881 0328-0896 spa https://revistas.unne.edu.ar/index.php/arq/article/view/7561/7171 https://revistas.unne.edu.ar/index.php/arq/article/view/7561/7022 Derechos de autor 2024 María Laura Boutet , Alejandro Luis Hernández https://creativecommons.org/licenses/by-nc/4.0 |
| institution |
Universidad Nacional del Nordeste |
| institution_str |
I-48 |
| repository_str |
R-154 |
| container_title_str |
Revistas UNNE - Universidad Nacional del Noroeste (UNNE) |
| language |
Español |
| format |
Artículo revista |
| topic |
Thermo-lighting comfort School architecture Natural light Bioclimatic design Glazed areas Confort termo-lumínico Arquitectura escolar Luz natural Diseño bioclimático Áreas vidriadas |
| spellingShingle |
Thermo-lighting comfort School architecture Natural light Bioclimatic design Glazed areas Confort termo-lumínico Arquitectura escolar Luz natural Diseño bioclimático Áreas vidriadas Boutet , María Laura Hernández , Alejandro Luis Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| topic_facet |
Thermo-lighting comfort School architecture Natural light Bioclimatic design Glazed areas Confort termo-lumínico Arquitectura escolar Luz natural Diseño bioclimático Áreas vidriadas |
| author |
Boutet , María Laura Hernández , Alejandro Luis |
| author_facet |
Boutet , María Laura Hernández , Alejandro Luis |
| author_sort |
Boutet , María Laura |
| title |
Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| title_short |
Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| title_full |
Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| title_fullStr |
Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| title_full_unstemmed |
Bioclimatic optimization of the envelope parameters of an open plan Kindergarten, in a very hot-humid climate |
| title_sort |
bioclimatic optimization of the envelope parameters of an open plan kindergarten, in a very hot-humid climate |
| description |
Considering the importance of the use and control of solar energy as a potential bioclimatic resource in the Northeast Region of Argentina, the validation procedure of a methodology for estimating optimal glazed areas is presented, in an existing kindergarten prototype of open typology in the city of Resistencia, Chaco. Based on a generic proposal, the improvements obtained are verified by combining variables not contemplated in current regulations for the calculation of lighting openings by orientation, in a very hot - humid climate, configuring for this purpose dynamic simulation models calibrated with in situ measurements. A reduction in the absolute maximum temperature of up to 3.4°C was obtained, which had an impact on the reduction of cooling requirements of up to 41% in November. This, in turn, allowed notable improvements in the spatial distribution of natural light, preserving an average of 500 lx. |
| publisher |
Instituto de Investigaciones Tecnológicas para el Diseño Ambiental del Hábitat Humano |
| publishDate |
2024 |
| url |
https://revistas.unne.edu.ar/index.php/arq/article/view/7561 |
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2024-08-21T22:38:42Z |
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2024-08-21T22:38:42Z |
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