Window assessment at different level height on a Portuguese typical street canyon

WEENTECH Proceedings in Energy Pub Date : 2019-01-02 DOI:10.32438/WPE.0218

Jorge S. Carlos

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Abstract

This paper presents the results of a study investigating the ventilation mode, the solar heat gain and daylight performance via vertical fenestration on a street canyon. In recent years there has been a growing awareness in energy-efficient building design and operation of the building stock. Dynamic envelope/window systems have potential to optimize the performance of the building, between airing, solar heat gain and daylight admission. However, higher thermal resistance glazing implies a reduction of solar transmittance. A typical street canyon in Portugal was used for the present study. Three different room ratios and two types of windows at two different floors were used for comparison. Different simulation tools were used during this study. To be comparable with other studies several ratios were present, as the window/wall, the glazing/wall ratios, the window/floor and the glazing/floor ratios as well as the window opening area. This paper presents the obtained airflow and solar gains on both heating and cooling season in addition to the level of daylight factor. It was found that specific adaptive actions to improve indoor environmental quality and reduce the need of energy consumption are needed.

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葡萄牙典型街道峡谷不同高度的窗户评估

本文介绍了一项研究的结果，调查通风方式，太阳能热增益和日光性能通过垂直开窗在街道峡谷。近年来，人们对节能建筑的设计和建筑存量的运营意识日益增强。动态围护结构/窗户系统具有优化建筑性能的潜力，在通风，太阳能热增益和日光进入之间。然而，更高的热阻玻璃意味着太阳透过率的降低。本研究以葡萄牙典型的街道峡谷为研究对象。三种不同的房间比例和两种不同楼层的窗户被用于比较。本研究中使用了不同的模拟工具。为了与其他研究进行比较，我们提出了几个比率，如窗户/墙壁、玻璃/墙壁比率、窗户/地板和玻璃/地板比率以及窗户开口面积。本文介绍了在采暖和制冷季节获得的气流和太阳能增益，以及日光因素的水平。研究发现，需要采取特定的适应性措施来改善室内环境质量，降低能耗需求。

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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WEENTECH Proceedings in Energy

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