DETERMINATION OF THE PERFORMANCE OF LIGHT SHELVES FOR MORE EFFECTIVE BENEFIT FROM DAYLIGHT IN BUILDINGS

Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering Pub Date : 2024-02-09 DOI:10.18038/estubtda.1261455

Hatice GÜNSELİ DEMİRKOL, Furkan Meral

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Abstract

Studies on the efficient use of daylight in sustainable architectural design and energy conservation are increasing. Indoor lighting methods include daylighting, artificial, and integrated lighting. Basic priorities in lighting are such as “effective use of daylight”, “uniform illumination in space”, “glare control”, “visual connection with the external environment” and “daylight harvesting.” Advanced contemporary systems include light shelves and light tubes. Light shelves consist of horizontal or slightly angled elements that can be applied to the inner and outer surfaces of the window openings, usually at eye level, to block the daylight or to reflect it to the ceiling, integrated with the facade, or added later. In this research, light shelves, which is one of the advanced daylighting methods, are emphasized. Daylight analysis method was carried out with the help of a physical model and computer simulation techniques using DiaLux software. To effectively utilize the daylight factor in the internal volume through light shelf, certain parameters such as the height and angle of the light shelf, date and time, and direction of the room's opening, play a crucial role. In daylight analyzes, these parameters were subjected to experimental testing both in physical models and through computer simulations. As a result of the comparison of the obtained data, alternatives that will provide the opportunity to benefit from daylight in the most effective way have been identified. The results obtained have unique value and widespread impact in terms of sustainable architecture and energy saving. The study's originality lies in its specific measurements of the latitude in which it is located, as it is the first time the study is conducted under Eskisehir's conditions. In addition, the examination of the advantages and disadvantages of the light shelf in specific combinations is another original side of the project.

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确定采光层的性能，以便更有效地利用建筑物中的日光

在可持续建筑设计和节能中有效利用日光的研究越来越多。室内照明方式包括日光照明、人工照明和综合照明。照明的基本重点是 "有效利用日光"、"空间均匀照明"、"眩光控制"、"与外部环境的视觉联系 "和 "日光采集"。当代先进的系统包括灯架和灯管。采光罩由水平或略带角度的部件组成，可安装在窗户开口的内外表面，通常与视线平齐，用于遮挡日光或将日光反射到天花板上，与外墙融为一体，或稍后添加。在本研究中，重点介绍了先进的采光方法之一--采光架。日光分析方法是在物理模型和使用 DiaLux 软件的计算机模拟技术的帮助下进行的。要通过采光层有效利用内部空间的日光因素，采光层的高度和角度、日期和时间以及房间的开口方向等参数起着至关重要的作用。在日光分析中，这些参数通过物理模型和计算机模拟进行了实验测试。通过对获得的数据进行比较，确定了能够最有效地利用日光的替代方案。研究结果对可持续建筑和节能具有独特的价值和广泛的影响。这项研究的独创性在于其对所处纬度的具体测量，因为这是首次在埃斯基谢希尔的条件下进行研究。此外，对特定组合的灯架的优缺点进行研究也是该项目的另一个独创之处。

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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Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering

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