热带气候条件下深平面高层办公楼水平光管一体化光架的采光性能

Q2 Energy

Journal of Daylighting Pub Date : 2022-06-10 DOI:10.15627/jd.2022.6

Christopher Heng Yii Sern, L. Liou, S. Fadzil

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引用次数: 1

摘要

像马来西亚这样的热带国家有大量的日光。在高层办公楼中使用这种可再生资源带来了机遇和挑战。此类建筑中的深平面空间为在房间内创造均匀的日光分布带来了挑战。带有水平光管（LP）的集成光架（LS）提供了一种解决方案。通过集成环境解决方案虚拟环境模拟了七（7）种不同类型的LS角配置，以使用四个方向的阴天和中间天空评估其集成LP的日光性能。结果表明，LS与LP的集成改善了整个房间的日光均匀性。与在所有设计日和方向上只安装LP的房间相比，角度为-15°的LS5表现最好。LP和LS5的集成能够遮蔽房间的前部，同时在后部空间提供照明。本研究的发现促进了建筑设计师在深开放式高层办公楼中使用集成LS和LP。

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Daylighting Performance of Integrated Light Shelf with Horizontal Light Pipe System for Deep Plan High-Rise Office in Tropical Climate

Tropical countries such as Malaysia receives a significant amount of daylight. The utilisation of this renewable resource in a high-rise office building leads to opportunities and challenges. Deep plan spaces in such buildings provide challenges to create a uniform daylight distribution across the room. An integrated light shelf (LS) with horizontal light pipe (LP) offers a solution to cater to this problem. Seven (7) different types of LS angle configurations were simulated through Integrated Environment Solution Virtual Environment to assess their daylight performance with integrated LP using overcast and intermediate sky with four orientations. The results showed that the integration of LS to LP improved the daylight uniformity across the room. LS5 with an angle of -15° performed best when compared to a room with only LP installed for all the design days and orientations. The integration of LP and LS5 was able to shade the front portion of the room while providing illumination at the rear spaces. The findings of this study promote the use of integrated LS and LP in deep open-plan high-rise office buildings for building designers.

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来源期刊

Journal of Daylighting Energy-Renewable Energy, Sustainability and the Environment

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： Journal of Daylighting is an international journal devoted to investigations of daylighting in buildings. It is the leading journal that publishes original research on all aspects of solar energy and lighting. Areas of special interest for this journal include, but are not limited to, the following: -Daylighting systems -Lighting simulation -Lighting designs -Luminaires -Lighting metrology and light quality -Lighting control -Building physics - lighting -Building energy modeling -Energy efficient buildings -Zero-energy buildings -Indoor environment quality -Sustainable solar energy systems -Application of solar energy sources in buildings -Photovoltaics systems -Building-integrated photovoltaics -Concentrator technology -Concentrator photovoltaic -Solar thermal