Integrating Daylighting with Task-Ambient Lighting for Enhanced Energy Savings in Office Spaces

Journal of Energy and Safety Technology (JEST) Pub Date : 2021-12-22 DOI:10.11113/jest.v4n2.93

Simeon Nyambaka Ingabo, P. Chaiwiwatworakul

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Abstract

Daylighting has been widely studied as a fundamental aspect of spatial illumination and energy efficient façade design. Effective installation and control of shading devices diminishes the adverse effects of prevailing climatic conditions on building envelope performance and reduces resultant lighting and cooling energy consumption. Task-ambient lighting as a free-standing approach has also been proven to reduce lighting energy consumption compared with typical general ambient lighting. This study estimates the energy saving potential of integrating daylighting through fixed external horizontal shading slats with task lighting. Spot measurements were taken in a test room to validate a daylight calculation program. Full year indoor work plane daylight simulations were performed for office spaces of different floor areas and varying window to wall ratios. Indoor daylight quality was assessed using the Useful Daylight Illuminance metric and three different task lighting schemes explored. Lighting energy savings of 10% to 90% were estimated under the three schemes in comparison to similar office spaces with common unshaded heat reflective glazing.

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将日光照明与工作环境照明相结合，提高办公空间的节能效果

采光作为空间照明和节能立面设计的一个基本方面得到了广泛的研究。遮阳装置的有效安装和控制减少了当前气候条件对建筑围护结构性能的不利影响，并减少了由此产生的照明和冷却能源消耗。与典型的普通环境照明相比，任务环境照明作为一种独立的方法也被证明可以减少照明能耗。这项研究估计了通过固定的外部水平遮阳板与任务照明整合采光的节能潜力。在测试室内进行了现场测量，以验证日光计算程序。对不同楼层面积和不同窗墙比的办公空间进行了全年室内工作平面日光模拟。室内日光质量使用有用日光照度指标进行评估，并探索了三种不同的任务照明方案。与使用普通无遮阳热反射玻璃的类似办公空间相比，这三种方案估计可节省10%至90%的照明能源。

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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Journal of Energy and Safety Technology (JEST)

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