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The Influence of Photosensor Configurations on Control Performance of Daylight Dimming Systems in a Small Private Office

소규모 개인 사무실 공간에서 포토센서 적용조건에 따른 디밍 제어효과 분석

  • Kim, Soo-Young (Dept. of Housing and Interior Design, Yonsei University) ;
  • Lee, Ji-Hyun (Graduate School of Culture Technology, KAIST)
  • Received : 2011.01.21
  • Accepted : 2011.02.15
  • Published : 2011.03.10

Abstract

This study examines influences of a daylight dimming control system on the variation of indoor illuminance and lighting energy savings in a small office space. Field measurements and a series of computation were performed for typical types of sky conditions in summer. Results indicate that the daylight illuminance under clear and partly-cloudy sky were close to the target illuminance during a majority of time due to a higher ratio of window to wall. However, the target illuminance was not kept successfully due to the variation of photosensor signals which were strongly influenced by desktop illuminance. The system with partially-shielded conditions succeeded to keep target illuminance under clear sky conditions. The system failed under overcast sky conditions since the electric light output from fixtures caused excessive signals to photosensors due to insufficient daylight on a desktop. Unshielded and fully-shielded conditions were not recommended for effective controls of the systems. The influence of lighting fixtures on photosensors should be minimized to achieve successful lighting controls by daylight dimming systems.

Keywords

References

  1. Lee, E., Selkowitz, S., Bazjanac, V., and Kholer, C., 2002, High performance commercial building facades, LBNL, USA.
  2. Hawkes, D. and Forster, W., 2002, Energy efficient buildings:Architecture-engineering and environment, W. Norton and Company, Inc., New York, USA.
  3. Kim, S. and Mistrick, R., 2001, Recommended daylight conditios for photosensor system calibration in a small office, Journal of IESNA, Vol. 30, pp. 176-188.
  4. Kim, S. and Song, K., 2007, Determining photosensor conditions of a daylighting dimming control system using different double-skin envelope configurations, Indoor and Built Environment, Vol. 16, pp. 411-425. https://doi.org/10.1177/1420326X07082497
  5. Kim, S., Alzoubi, H. and Ihm, P., 2009, Determining photosensor settings for iptimum energy saving of suspended lighting systems in a small double-skinned office, International Journal of Energy Research, Vol. 33, pp. 618-630. https://doi.org/10.1002/er.1501
  6. Rea, M., 2002, IESNA Handbook 9th editions, The Illuminating Engineering Society of North America, USA.
  7. Kim, S. and Kim, J., 2007, The impact of daylight fluctuation on a daylight dimming control system in a small office, Energy and Buildings, Vol. 39, pp. 935-944. https://doi.org/10.1016/j.enbuild.2006.10.009
  8. Li_Cor Inc., 2005, Li-Cor sensor instruction manual.
  9. Campbell Scientific Inc. 2000, CR 23X Micro logger operator's manual.
  10. Lutron Ltd., 2002, MW-LC2 Dimming control system mannual.
  11. Neter, J., Kutner, M., Nachtsheim, S., and Wasserman., W., 1996, Applied liner statistical models, WBC McGraw-Hill New York.
  12. Kim, S. and Yum, S., 2005, Optimum contorl of a photoelectric dimming system in a small office with a double skin envelope, Architectural Research, Vol. 7, pp. 47-54.