• Title/Summary/Keyword: Topside lighting

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Daylighting Performance of Topside Lighting Systems for Different Orientations (방위에 따른 정측창 시스템의 채광성능 평가)

  • Kong, Hyo-Joo;Lee, Jin-Seoung;Ahn, Hyun-Tae;Kim, Jeong-Tai
    • Journal of the Korean Solar Energy Society
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    • v.29 no.1
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    • pp.11-17
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    • 2009
  • Daylighting is core of sustainable design in most buildings. Well-designed daylighting systems can significantly reduce or even eliminate the electric lighting loads during the day time, including air conditioning energy loads. Among window systems. the topside lights systems including monitor lighting, sawtooth lighting, sunscoop and, lightscoop is one of the most popular apparatus to improve the lighting quantity. Also they are important both in terms of energy savings and visual quality. The objective of this study is to analyse daylighting performance of topside lighting system for different orientations. Four types of topside lighting system were tested and comparpd: monitor lighting, sawtooth lighting, lightscoop and sunscoop. Totally 25 measuring points of illuminance on the horizontal plane were monitored from 09:00 to 17:00 on October 6, 2008. Agilent data logger and photometric sensors Li-cor were used. Comparisons with a light factor is discussed. The results found in this study would mean that there were no significant differences in light factor between three cases.

Scale Model Experiments on Daylighting Performance of Topside Lighting Systems - Focused on Sun Scoop, Light Scoop and Sun Catcher Systems - (특수형 정측창 시스템의 자연채광성능에 관한 축소모형 실험 - 선 스쿠프, 라이트 스쿠프 및 선 캐처 시스템을 중심으로 -)

  • Kong, Hyo Joo;Kim, Jeong Tai
    • KIEAE Journal
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    • v.8 no.1
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    • pp.45-52
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    • 2008
  • Daylighting systems can improve the luminous quality of indoor environment and reduce the building's electric lighting energy consumption. For designing good daylighting, place the light where it is desired and avoid excessive contrasts, glare and high light levels. Sun scoop, light scoop and sun catcher systems have been used for alternative systems compared to other natural lighting systems. This study aims to evaluate daylighting performance of sun scoop, light scoop and sun catcher systems using scale model experiments. For the purpose, the 1/10 scale models of the systems were made as the same areas of glazing(10 percent of floor area) on the top of the center roof. Totally 15 measuring points of illuminance on the horizontal work plane were monitored from 09:30 to 12:30 on October 29, 2007. Agilent data logger and photometric sensors Li-cor were used. As the results, the topside lighting systems can improve the illumination uniformity than side lighting and top lighting. However, the appropriated shading system should be integrated to prevent the direct sunlight.