Validación de propuestas de optimización ambiental de un jardín de infantes de tipología compacta, en clima muy cálido-húmedo

IF 0.3 Q4 ENGINEERING, ENVIRONMENTAL

Revista Habitat Sustentable Pub Date : 2022-06-30 DOI:10.22320/07190700.2022.12.01.02

Maria Laura Boutet, Alejandro Luis Hernández

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Abstract

This article presents the validation procedure of optimization proposals for a compact-typology kindergarten prototype, following passive bioclimatic design guidelines, using dynamic simulation physical models calibrated with onsite measurements. The objective is to verify the parameters for the glazed area (gA), weighted average solar absorptance (), and total envelope area (envelopeA), using them as input data to obtain correlations of glazing Factors (gF) into a tool to estimate optimal glazed areas, aiming at integrating thermal and visual comfort in the design of educational spaces, in the Very Hot-Humid climate of the Argentine Northeast. As a result, a reduction of up to 72% was obtained in November, the most unfavorable month for school activities, for cooling requirements, by lowering the solar absorptance of exterior surfaces to 0.25, with a glazed area per floor area ratio of 17%, which made noteworthy improvements possible in the spatial daylight distribution, a key resource for the comprehensive development of children from Initial Schooling Levels.

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在非常温暖潮湿的气候中验证紧凑型幼儿园的环境优化建议

本文介绍了紧凑型幼儿园原型优化方案的验证程序，遵循被动生物气候设计指南，使用现场测量校准的动态模拟物理模型。目的是验证上釉面积（gA）、加权平均太阳吸收率（）和总包层面积（enveloveA）的参数，将它们用作输入数据，以获得上釉系数（gF）的相关性，从而将其纳入评估最佳上釉面积的工具中，旨在将热舒适性和视觉舒适性纳入教育空间的设计中，阿根廷东北部湿热的气候。因此，在11月，也就是学校活动最不利的月份，通过将外表面的太阳能吸收率降低到0.25，每层建筑面积的玻璃面积比为17%，冷却要求降低了72%，这使得空间日光分布的显著改善成为可能，这是儿童从小学阶段全面发展的关键资源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Revista Habitat Sustentable ENGINEERING, ENVIRONMENTAL-

CiteScore

1.20

自引率

20.00%

发文量

审稿时长

23 weeks